Merge branch 'for-linus' of git://git.kernel.org/pub/scm/linux/kernel/git/dtor/input
[linux-2.6] / drivers / staging / epl / EplDllk.c
1 /****************************************************************************
2
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5
6   Project:      openPOWERLINK
7
8   Description:  source file for kernel DLL module
9
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41     Severability Clause:
42
43         If a provision of this License is or becomes illegal, invalid or
44         unenforceable in any jurisdiction, that shall not affect:
45         1. the validity or enforceability in that jurisdiction of any other
46            provision of this License; or
47         2. the validity or enforceability in other jurisdictions of that or
48            any other provision of this License.
49
50   -------------------------------------------------------------------------
51
52                 $RCSfile: EplDllk.c,v $
53
54                 $Author: D.Krueger $
55
56                 $Revision: 1.21 $  $Date: 2008/11/13 17:13:09 $
57
58                 $State: Exp $
59
60                 Build Environment:
61                     GCC V3.4
62
63   -------------------------------------------------------------------------
64
65   Revision History:
66
67   2006/06/12 d.k.:   start of the implementation, version 1.00
68
69 ****************************************************************************/
70
71 #include "kernel/EplDllk.h"
72 #include "kernel/EplDllkCal.h"
73 #include "kernel/EplEventk.h"
74 #include "kernel/EplNmtk.h"
75 #include "edrv.h"
76 #include "Benchmark.h"
77
78 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0)
79 #include "kernel/EplPdok.h"
80 #endif
81
82 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_VETH)) != 0)
83 #include "kernel/VirtualEthernet.h"
84 #endif
85
86 //#if EPL_TIMER_USE_HIGHRES != FALSE
87 #include "kernel/EplTimerHighResk.h"
88 //#endif
89
90 #if(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_DLLK)) != 0)
91
92 #if(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMTK)) == 0)
93 #error "EPL module DLLK needs EPL module NMTK!"
94 #endif
95
96 #if (EPL_DLL_PRES_READY_AFTER_SOA != FALSE) && (EPL_DLL_PRES_READY_AFTER_SOC != FALSE)
97 #error "EPL module DLLK: select only one of EPL_DLL_PRES_READY_AFTER_SOA and EPL_DLL_PRES_READY_AFTER_SOC."
98 #endif
99
100 #if ((EPL_DLL_PRES_READY_AFTER_SOA != FALSE) || (EPL_DLL_PRES_READY_AFTER_SOC != FALSE)) \
101     && (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) == 0)
102 #error "EPL module DLLK: currently, EPL_DLL_PRES_READY_AFTER_* is not supported if EPL_MODULE_NMT_MN is enabled."
103 #endif
104
105 #if (EDRV_FAST_TXFRAMES == FALSE) && \
106     ((EPL_DLL_PRES_READY_AFTER_SOA != FALSE) || (EPL_DLL_PRES_READY_AFTER_SOC != FALSE))
107 #error "EPL module DLLK: EPL_DLL_PRES_READY_AFTER_* is enabled, but not EDRV_FAST_TXFRAMES."
108 #endif
109
110 /***************************************************************************/
111 /*                                                                         */
112 /*                                                                         */
113 /*          G L O B A L   D E F I N I T I O N S                            */
114 /*                                                                         */
115 /*                                                                         */
116 /***************************************************************************/
117
118 //---------------------------------------------------------------------------
119 // const defines
120 //---------------------------------------------------------------------------
121
122 // TracePoint support for realtime-debugging
123 #ifdef _DBG_TRACE_POINTS_
124 void PUBLIC TgtDbgSignalTracePoint(BYTE bTracePointNumber_p);
125 void PUBLIC TgtDbgPostTraceValue(DWORD dwTraceValue_p);
126 #define TGT_DBG_SIGNAL_TRACE_POINT(p)   TgtDbgSignalTracePoint(p)
127 #define TGT_DBG_POST_TRACE_VALUE(v)     TgtDbgPostTraceValue(v)
128 #else
129 #define TGT_DBG_SIGNAL_TRACE_POINT(p)
130 #define TGT_DBG_POST_TRACE_VALUE(v)
131 #endif
132 #define EPL_DLLK_DBG_POST_TRACE_VALUE(Event_p, uiNodeId_p, wErrorCode_p) \
133     TGT_DBG_POST_TRACE_VALUE((kEplEventSinkDllk << 28) | (Event_p << 24) \
134                              | (uiNodeId_p << 16) | wErrorCode_p)
135
136 /***************************************************************************/
137 /*                                                                         */
138 /*                                                                         */
139 /*          C L A S S  EplDllk                                             */
140 /*                                                                         */
141 /*                                                                         */
142 /***************************************************************************/
143 //
144 // Description:
145 //
146 //
147 /***************************************************************************/
148
149 //=========================================================================//
150 //                                                                         //
151 //          P R I V A T E   D E F I N I T I O N S                          //
152 //                                                                         //
153 //=========================================================================//
154
155 //---------------------------------------------------------------------------
156 // const defines
157 //---------------------------------------------------------------------------
158
159 // defines for indexes of tEplDllInstance.m_pTxFrameInfo
160 #define EPL_DLLK_TXFRAME_IDENTRES   0   // IdentResponse on CN / MN
161 #define EPL_DLLK_TXFRAME_STATUSRES  1   // StatusResponse on CN / MN
162 #define EPL_DLLK_TXFRAME_NMTREQ     2   // NMT Request from FIFO on CN / MN
163 #define EPL_DLLK_TXFRAME_NONEPL     3   // non-EPL frame from FIFO on CN / MN
164 #define EPL_DLLK_TXFRAME_PRES       4   // PRes on CN / MN
165 #define EPL_DLLK_TXFRAME_SOC        5   // SoC on MN
166 #define EPL_DLLK_TXFRAME_SOA        6   // SoA on MN
167 #define EPL_DLLK_TXFRAME_PREQ       7   // PReq on MN
168 #if(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
169 #define EPL_DLLK_TXFRAME_COUNT      (7 + EPL_D_NMT_MaxCNNumber_U8 + 2)  // on MN: 7 + MaxPReq of regular CNs + 1 Diag + 1 Router
170 #else
171 #define EPL_DLLK_TXFRAME_COUNT      5   // on CN: 5
172 #endif
173
174 #define EPL_DLLK_BUFLEN_EMPTY       0   // buffer is empty
175 #define EPL_DLLK_BUFLEN_FILLING     1   // just the buffer is being filled
176 #define EPL_DLLK_BUFLEN_MIN         60  // minimum ethernet frame length
177
178 //---------------------------------------------------------------------------
179 // local types
180 //---------------------------------------------------------------------------
181
182 typedef enum {
183         kEplDllGsInit = 0x00,   // MN/CN: initialisation (< PreOp2)
184         kEplDllCsWaitPreq = 0x01,       // CN: wait for PReq frame
185         kEplDllCsWaitSoc = 0x02,        // CN: wait for SoC frame
186         kEplDllCsWaitSoa = 0x03,        // CN: wait for SoA frame
187         kEplDllMsNonCyclic = 0x04,      // MN: reduced EPL cycle (PreOp1)
188         kEplDllMsWaitSocTrig = 0x05,    // MN: wait for SoC trigger (cycle timer)
189         kEplDllMsWaitPreqTrig = 0x06,   // MN: wait for (first) PReq trigger (WaitSoCPReq_U32)
190         kEplDllMsWaitPres = 0x07,       // MN: wait for PRes frame from CN
191         kEplDllMsWaitSoaTrig = 0x08,    // MN: wait for SoA trigger (PRes transmitted)
192         kEplDllMsWaitAsndTrig = 0x09,   // MN: wait for ASnd trigger (SoA transmitted)
193         kEplDllMsWaitAsnd = 0x0A,       // MN: wait for ASnd frame if SoA contained invitation
194
195 } tEplDllState;
196
197 typedef struct {
198         BYTE m_be_abSrcMac[6];
199         tEdrvTxBuffer *m_pTxBuffer;     // Buffers for Tx-Frames
200         unsigned int m_uiMaxTxFrames;
201         BYTE m_bFlag1;          // Flag 1 with EN, EC for PRes, StatusRes
202         BYTE m_bMnFlag1;        // Flag 1 with EA, ER from PReq, SoA of MN
203         BYTE m_bFlag2;          // Flag 2 with PR and RS for PRes, StatusRes, IdentRes
204         tEplDllConfigParam m_DllConfigParam;
205         tEplDllIdentParam m_DllIdentParam;
206         tEplDllState m_DllState;
207         tEplDllkCbAsync m_pfnCbAsync;
208         tEplDllAsndFilter m_aAsndFilter[EPL_DLL_MAX_ASND_SERVICE_ID];
209
210 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
211         tEplDllkNodeInfo *m_pFirstNodeInfo;
212         tEplDllkNodeInfo *m_pCurNodeInfo;
213         tEplDllkNodeInfo m_aNodeInfo[EPL_NMT_MAX_NODE_ID];
214         tEplDllReqServiceId m_LastReqServiceId;
215         unsigned int m_uiLastTargetNodeId;
216 #endif
217
218 #if EPL_TIMER_USE_HIGHRES != FALSE
219         tEplTimerHdl m_TimerHdlCycle;   // used for EPL cycle monitoring on CN and generation on MN
220 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
221         tEplTimerHdl m_TimerHdlResponse;        // used for CN response monitoring
222 #endif                          //(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
223 #endif
224
225         unsigned int m_uiCycleCount;    // cycle counter (needed for multiplexed cycle support)
226         unsigned long long m_ullFrameTimeout;   // frame timeout (cycle length + loss of frame tolerance)
227
228 } tEplDllkInstance;
229
230 //---------------------------------------------------------------------------
231 // local vars
232 //---------------------------------------------------------------------------
233
234 // if no dynamic memory allocation shall be used
235 // define structures statically
236 static tEplDllkInstance EplDllkInstance_g;
237
238 static tEdrvTxBuffer aEplDllkTxBuffer_l[EPL_DLLK_TXFRAME_COUNT];
239
240 //---------------------------------------------------------------------------
241 // local function prototypes
242 //---------------------------------------------------------------------------
243
244 // change DLL state on event
245 static tEplKernel EplDllkChangeState(tEplNmtEvent NmtEvent_p,
246                                      tEplNmtState NmtState_p);
247
248 // called from EdrvInterruptHandler()
249 static void EplDllkCbFrameReceived(tEdrvRxBuffer * pRxBuffer_p);
250
251 // called from EdrvInterruptHandler()
252 static void EplDllkCbFrameTransmitted(tEdrvTxBuffer * pTxBuffer_p);
253
254 // check frame and set missing information
255 static tEplKernel EplDllkCheckFrame(tEplFrame * pFrame_p,
256                                     unsigned int uiFrameSize_p);
257
258 // called by high resolution timer module to monitor EPL cycle as CN
259 #if EPL_TIMER_USE_HIGHRES != FALSE
260 static tEplKernel PUBLIC EplDllkCbCnTimer(tEplTimerEventArg * pEventArg_p);
261 #endif
262
263 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
264 // MN: returns internal node info structure
265 static tEplDllkNodeInfo *EplDllkGetNodeInfo(unsigned int uiNodeId_p);
266
267 // transmit SoA
268 static tEplKernel EplDllkMnSendSoa(tEplNmtState NmtState_p,
269                                    tEplDllState * pDllStateProposed_p,
270                                    BOOL fEnableInvitation_p);
271
272 static tEplKernel EplDllkMnSendSoc(void);
273
274 static tEplKernel EplDllkMnSendPreq(tEplNmtState NmtState_p,
275                                     tEplDllState * pDllStateProposed_p);
276
277 static tEplKernel EplDllkAsyncFrameNotReceived(tEplDllReqServiceId
278                                                ReqServiceId_p,
279                                                unsigned int uiNodeId_p);
280
281 static tEplKernel PUBLIC EplDllkCbMnTimerCycle(tEplTimerEventArg * pEventArg_p);
282
283 static tEplKernel PUBLIC EplDllkCbMnTimerResponse(tEplTimerEventArg *
284                                                   pEventArg_p);
285
286 #endif
287
288 //=========================================================================//
289 //                                                                         //
290 //          P U B L I C   F U N C T I O N S                                //
291 //                                                                         //
292 //=========================================================================//
293
294 //---------------------------------------------------------------------------
295 //
296 // Function:    EplDllkAddInstance()
297 //
298 // Description: add and initialize new instance of EPL stack
299 //
300 // Parameters:  pInitParam_p            = initialisation parameters like MAC address
301 //
302 // Returns:     tEplKernel              = error code
303 //
304 //
305 // State:
306 //
307 //---------------------------------------------------------------------------
308
309 tEplKernel EplDllkAddInstance(tEplDllkInitParam * pInitParam_p)
310 {
311         tEplKernel Ret = kEplSuccessful;
312         unsigned int uiIndex;
313         tEdrvInitParam EdrvInitParam;
314
315         // reset instance structure
316         EPL_MEMSET(&EplDllkInstance_g, 0, sizeof(EplDllkInstance_g));
317
318 #if EPL_TIMER_USE_HIGHRES != FALSE
319         Ret = EplTimerHighReskInit();
320         if (Ret != kEplSuccessful) {    // error occured while initializing high resolution timer module
321                 goto Exit;
322         }
323 #endif
324
325         // if dynamic memory allocation available
326         // allocate instance structure
327         // allocate TPDO and RPDO table with default size
328
329         // initialize and link pointers in instance structure to frame tables
330         EplDllkInstance_g.m_pTxBuffer = aEplDllkTxBuffer_l;
331         EplDllkInstance_g.m_uiMaxTxFrames =
332             sizeof(aEplDllkTxBuffer_l) / sizeof(tEdrvTxBuffer);
333
334         // initialize state
335         EplDllkInstance_g.m_DllState = kEplDllGsInit;
336
337 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
338         // set up node info structure
339         for (uiIndex = 0; uiIndex < tabentries(EplDllkInstance_g.m_aNodeInfo);
340              uiIndex++) {
341                 EplDllkInstance_g.m_aNodeInfo[uiIndex].m_uiNodeId = uiIndex + 1;
342                 EplDllkInstance_g.m_aNodeInfo[uiIndex].m_wPresPayloadLimit =
343                     0xFFFF;
344         }
345 #endif
346
347         // initialize Edrv
348         EPL_MEMCPY(EdrvInitParam.m_abMyMacAddr, pInitParam_p->m_be_abSrcMac, 6);
349         EdrvInitParam.m_pfnRxHandler = EplDllkCbFrameReceived;
350         EdrvInitParam.m_pfnTxHandler = EplDllkCbFrameTransmitted;
351         Ret = EdrvInit(&EdrvInitParam);
352         if (Ret != kEplSuccessful) {    // error occured while initializing ethernet driver
353                 goto Exit;
354         }
355         // copy local MAC address from Ethernet driver back to local instance structure
356         // because Ethernet driver may have read it from controller EEPROM
357         EPL_MEMCPY(EplDllkInstance_g.m_be_abSrcMac, EdrvInitParam.m_abMyMacAddr,
358                    6);
359         EPL_MEMCPY(pInitParam_p->m_be_abSrcMac, EdrvInitParam.m_abMyMacAddr, 6);
360
361         // initialize TxBuffer array
362         for (uiIndex = 0; uiIndex < EplDllkInstance_g.m_uiMaxTxFrames;
363              uiIndex++) {
364                 EplDllkInstance_g.m_pTxBuffer[uiIndex].m_pbBuffer = NULL;
365         }
366
367 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_VETH)) != 0)
368         Ret = VEthAddInstance(pInitParam_p);
369 #endif
370
371       Exit:
372         return Ret;
373 }
374
375 //---------------------------------------------------------------------------
376 //
377 // Function:    EplDllkDelInstance()
378 //
379 // Description: deletes an instance of EPL stack
380 //
381 // Parameters:  (none)
382 //
383 // Returns:     tEplKernel              = error code
384 //
385 //
386 // State:
387 //
388 //---------------------------------------------------------------------------
389
390 tEplKernel EplDllkDelInstance(void)
391 {
392         tEplKernel Ret = kEplSuccessful;
393
394         // reset state
395         EplDllkInstance_g.m_DllState = kEplDllGsInit;
396
397 #if EPL_TIMER_USE_HIGHRES != FALSE
398         Ret = EplTimerHighReskDelInstance();
399 #endif
400
401 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_VETH)) != 0)
402         Ret = VEthDelInstance();
403 #endif
404
405         Ret = EdrvShutdown();
406         return Ret;
407 }
408
409 //---------------------------------------------------------------------------
410 //
411 // Function:    EplDllkCreateTxFrame
412 //
413 // Description: creates the buffer for a Tx frame and registers it to the
414 //              ethernet driver
415 //
416 // Parameters:  puiHandle_p             = OUT: handle to frame buffer
417 //              ppFrame_p               = OUT: pointer to pointer of EPL frame
418 //              puiFrameSize_p          = IN/OUT: pointer to size of frame
419 //                                        returned size is always equal or larger than
420 //                                        requested size, if that is not possible
421 //                                        an error will be returned
422 //              MsgType_p               = EPL message type
423 //              ServiceId_p             = Service ID in case of ASnd frame, otherwise
424 //                                        kEplDllAsndNotDefined
425 //
426 // Returns:     tEplKernel              = error code
427 //
428 //
429 // State:
430 //
431 //---------------------------------------------------------------------------
432
433 tEplKernel EplDllkCreateTxFrame(unsigned int *puiHandle_p,
434                                 tEplFrame ** ppFrame_p,
435                                 unsigned int *puiFrameSize_p,
436                                 tEplMsgType MsgType_p,
437                                 tEplDllAsndServiceId ServiceId_p)
438 {
439         tEplKernel Ret = kEplSuccessful;
440         tEplFrame *pTxFrame;
441         unsigned int uiHandle = EplDllkInstance_g.m_uiMaxTxFrames;
442         tEdrvTxBuffer *pTxBuffer = NULL;
443
444         if (MsgType_p == kEplMsgTypeAsnd) {
445                 // search for fixed Tx buffers
446                 if (ServiceId_p == kEplDllAsndIdentResponse) {
447                         uiHandle = EPL_DLLK_TXFRAME_IDENTRES;
448                 } else if (ServiceId_p == kEplDllAsndStatusResponse) {
449                         uiHandle = EPL_DLLK_TXFRAME_STATUSRES;
450                 } else if ((ServiceId_p == kEplDllAsndNmtRequest)
451                            || (ServiceId_p == kEplDllAsndNmtCommand)) {
452                         uiHandle = EPL_DLLK_TXFRAME_NMTREQ;
453                 }
454
455                 if (uiHandle >= EplDllkInstance_g.m_uiMaxTxFrames) {    // look for free entry
456                         uiHandle = EPL_DLLK_TXFRAME_PREQ;
457                         pTxBuffer = &EplDllkInstance_g.m_pTxBuffer[uiHandle];
458                         for (; uiHandle < EplDllkInstance_g.m_uiMaxTxFrames;
459                              uiHandle++, pTxBuffer++) {
460                                 if (pTxBuffer->m_pbBuffer == NULL) {    // free entry found
461                                         break;
462                                 }
463                         }
464                 }
465         } else if (MsgType_p == kEplMsgTypeNonEpl) {
466                 uiHandle = EPL_DLLK_TXFRAME_NONEPL;
467         } else if (MsgType_p == kEplMsgTypePres) {
468                 uiHandle = EPL_DLLK_TXFRAME_PRES;
469         } else if (MsgType_p == kEplMsgTypeSoc) {
470                 uiHandle = EPL_DLLK_TXFRAME_SOC;
471         } else if (MsgType_p == kEplMsgTypeSoa) {
472                 uiHandle = EPL_DLLK_TXFRAME_SOA;
473         } else {                // look for free entry
474                 uiHandle = EPL_DLLK_TXFRAME_PREQ;
475                 pTxBuffer = &EplDllkInstance_g.m_pTxBuffer[uiHandle];
476                 for (; uiHandle < EplDllkInstance_g.m_uiMaxTxFrames;
477                      uiHandle++, pTxBuffer++) {
478                         if (pTxBuffer->m_pbBuffer == NULL) {    // free entry found
479                                 break;
480                         }
481                 }
482                 if (pTxBuffer->m_pbBuffer != NULL) {
483                         Ret = kEplEdrvNoFreeBufEntry;
484                         goto Exit;
485                 }
486         }
487
488         // test if requested entry is free
489         pTxBuffer = &EplDllkInstance_g.m_pTxBuffer[uiHandle];
490         if (pTxBuffer->m_pbBuffer != NULL) {    // entry is not free
491                 Ret = kEplEdrvNoFreeBufEntry;
492                 goto Exit;
493         }
494         // setup Tx buffer
495         pTxBuffer->m_EplMsgType = MsgType_p;
496         pTxBuffer->m_uiMaxBufferLen = *puiFrameSize_p;
497
498         Ret = EdrvAllocTxMsgBuffer(pTxBuffer);
499         if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
500                 goto Exit;
501         }
502         // because buffer size may be larger than requested
503         // memorize real length of frame
504         pTxBuffer->m_uiTxMsgLen = *puiFrameSize_p;
505
506         // fill whole frame with 0
507         EPL_MEMSET(pTxBuffer->m_pbBuffer, 0, pTxBuffer->m_uiMaxBufferLen);
508
509         pTxFrame = (tEplFrame *) pTxBuffer->m_pbBuffer;
510
511         if (MsgType_p != kEplMsgTypeNonEpl) {   // fill out Frame only if it is an EPL frame
512                 // ethertype
513                 AmiSetWordToBe(&pTxFrame->m_be_wEtherType,
514                                EPL_C_DLL_ETHERTYPE_EPL);
515                 // source node ID
516                 AmiSetByteToLe(&pTxFrame->m_le_bSrcNodeId,
517                                (BYTE) EplDllkInstance_g.m_DllConfigParam.
518                                m_uiNodeId);
519                 // source MAC address
520                 EPL_MEMCPY(&pTxFrame->m_be_abSrcMac[0],
521                            &EplDllkInstance_g.m_be_abSrcMac[0], 6);
522                 switch (MsgType_p) {
523                 case kEplMsgTypeAsnd:
524                         // destination MAC address
525                         AmiSetQword48ToBe(&pTxFrame->m_be_abDstMac[0],
526                                           EPL_C_DLL_MULTICAST_ASND);
527                         // destination node ID
528                         switch (ServiceId_p) {
529                         case kEplDllAsndIdentResponse:
530                         case kEplDllAsndStatusResponse:
531                                 {       // IdentResponses and StatusResponses are Broadcast
532                                         AmiSetByteToLe(&pTxFrame->
533                                                        m_le_bDstNodeId,
534                                                        (BYTE)
535                                                        EPL_C_ADR_BROADCAST);
536                                         break;
537                                 }
538
539                         default:
540                                 break;
541                         }
542                         // ASnd Service ID
543                         AmiSetByteToLe(&pTxFrame->m_Data.m_Asnd.m_le_bServiceId,
544                                        ServiceId_p);
545                         break;
546
547                 case kEplMsgTypeSoc:
548                         // destination MAC address
549                         AmiSetQword48ToBe(&pTxFrame->m_be_abDstMac[0],
550                                           EPL_C_DLL_MULTICAST_SOC);
551                         // destination node ID
552                         AmiSetByteToLe(&pTxFrame->m_le_bDstNodeId,
553                                        (BYTE) EPL_C_ADR_BROADCAST);
554                         // reset Flags
555                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Soc.m_le_bFlag1, (BYTE) 0);
556                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Soc.m_le_bFlag2, (BYTE) 0);
557                         break;
558
559                 case kEplMsgTypeSoa:
560                         // destination MAC address
561                         AmiSetQword48ToBe(&pTxFrame->m_be_abDstMac[0],
562                                           EPL_C_DLL_MULTICAST_SOA);
563                         // destination node ID
564                         AmiSetByteToLe(&pTxFrame->m_le_bDstNodeId,
565                                        (BYTE) EPL_C_ADR_BROADCAST);
566                         // reset Flags
567                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.m_le_bFlag1, (BYTE) 0);
568                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.m_le_bFlag2, (BYTE) 0);
569                         // EPL profile version
570                         AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.m_le_bEplVersion,
571                                        (BYTE) EPL_SPEC_VERSION);
572                         break;
573
574                 case kEplMsgTypePres:
575                         // destination MAC address
576                         AmiSetQword48ToBe(&pTxFrame->m_be_abDstMac[0],
577                                           EPL_C_DLL_MULTICAST_PRES);
578                         // destination node ID
579                         AmiSetByteToLe(&pTxFrame->m_le_bDstNodeId,
580                                        (BYTE) EPL_C_ADR_BROADCAST);
581                         // reset Flags
582                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.m_le_bFlag1, (BYTE) 0);
583                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.m_le_bFlag2, (BYTE) 0);
584                         // PDO size
585                         //AmiSetWordToLe(&pTxFrame->m_Data.m_Pres.m_le_wSize, 0);
586                         break;
587
588                 case kEplMsgTypePreq:
589                         // reset Flags
590                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Preq.m_le_bFlag1, (BYTE) 0);
591                         //AmiSetByteToLe(&pTxFrame->m_Data.m_Preq.m_le_bFlag2, (BYTE) 0);
592                         // PDO size
593                         //AmiSetWordToLe(&pTxFrame->m_Data.m_Preq.m_le_wSize, 0);
594                         break;
595
596                 default:
597                         break;
598                 }
599                 // EPL message type
600                 AmiSetByteToLe(&pTxFrame->m_le_bMessageType, (BYTE) MsgType_p);
601         }
602
603         *ppFrame_p = pTxFrame;
604         *puiFrameSize_p = pTxBuffer->m_uiMaxBufferLen;
605         *puiHandle_p = uiHandle;
606
607       Exit:
608         return Ret;
609 }
610
611 //---------------------------------------------------------------------------
612 //
613 // Function:    EplDllkDeleteTxFrame
614 //
615 // Description: deletes the buffer for a Tx frame and frees it in the
616 //              ethernet driver
617 //
618 // Parameters:  uiHandle_p              = IN: handle to frame buffer
619 //
620 // Returns:     tEplKernel              = error code
621 //
622 //
623 // State:
624 //
625 //---------------------------------------------------------------------------
626
627 tEplKernel EplDllkDeleteTxFrame(unsigned int uiHandle_p)
628 {
629         tEplKernel Ret = kEplSuccessful;
630         tEdrvTxBuffer *pTxBuffer = NULL;
631
632         if (uiHandle_p >= EplDllkInstance_g.m_uiMaxTxFrames) {  // handle is not valid
633                 Ret = kEplDllIllegalHdl;
634                 goto Exit;
635         }
636
637         pTxBuffer = &EplDllkInstance_g.m_pTxBuffer[uiHandle_p];
638
639         // mark buffer as free so that frame will not be send in future anymore
640         // $$$ d.k. What's up with running transmissions?
641         pTxBuffer->m_uiTxMsgLen = EPL_DLLK_BUFLEN_EMPTY;
642         pTxBuffer->m_pbBuffer = NULL;
643
644         // delete Tx buffer
645         Ret = EdrvReleaseTxMsgBuffer(pTxBuffer);
646         if (Ret != kEplSuccessful) {    // error occured while releasing Tx frame
647                 goto Exit;
648         }
649
650       Exit:
651         return Ret;
652 }
653
654 //---------------------------------------------------------------------------
655 //
656 // Function:    EplDllkProcess
657 //
658 // Description: process the passed event
659 //
660 // Parameters:  pEvent_p                = event to be processed
661 //
662 // Returns:     tEplKernel              = error code
663 //
664 //
665 // State:
666 //
667 //---------------------------------------------------------------------------
668
669 tEplKernel EplDllkProcess(tEplEvent * pEvent_p)
670 {
671         tEplKernel Ret = kEplSuccessful;
672         tEplFrame *pTxFrame;
673         tEdrvTxBuffer *pTxBuffer;
674         unsigned int uiHandle;
675         unsigned int uiFrameSize;
676         BYTE abMulticastMac[6];
677         tEplDllAsyncReqPriority AsyncReqPriority;
678         unsigned int uiFrameCount;
679         tEplNmtState NmtState;
680 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0)
681         tEplFrameInfo FrameInfo;
682 #endif
683
684         switch (pEvent_p->m_EventType) {
685         case kEplEventTypeDllkCreate:
686                 {
687                         // $$$ reset ethernet driver
688
689                         NmtState = *((tEplNmtState *) pEvent_p->m_pArg);
690
691                         // initialize flags for PRes and StatusRes
692                         EplDllkInstance_g.m_bFlag1 = EPL_FRAME_FLAG1_EC;
693                         EplDllkInstance_g.m_bMnFlag1 = 0;
694                         EplDllkInstance_g.m_bFlag2 = 0;
695
696 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
697                         // initialize linked node list
698                         EplDllkInstance_g.m_pFirstNodeInfo = NULL;
699 #endif
700
701                         // register TxFrames in Edrv
702
703                         // IdentResponse
704                         uiFrameSize = EPL_C_DLL_MINSIZE_IDENTRES;
705                         Ret =
706                             EplDllkCreateTxFrame(&uiHandle, &pTxFrame,
707                                                  &uiFrameSize, kEplMsgTypeAsnd,
708                                                  kEplDllAsndIdentResponse);
709                         if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
710                                 goto Exit;
711                         }
712                         // EPL profile version
713                         AmiSetByteToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
714                                        m_IdentResponse.m_le_bEplProfileVersion,
715                                        (BYTE) EPL_SPEC_VERSION);
716                         // FeatureFlags
717                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
718                                         m_IdentResponse.m_le_dwFeatureFlags,
719                                         EplDllkInstance_g.m_DllConfigParam.
720                                         m_dwFeatureFlags);
721                         // MTU
722                         AmiSetWordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
723                                        m_IdentResponse.m_le_wMtu,
724                                        (WORD) EplDllkInstance_g.
725                                        m_DllConfigParam.m_uiAsyncMtu);
726                         // PollInSize
727                         AmiSetWordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
728                                        m_IdentResponse.m_le_wPollInSize,
729                                        (WORD) EplDllkInstance_g.
730                                        m_DllConfigParam.
731                                        m_uiPreqActPayloadLimit);
732                         // PollOutSize
733                         AmiSetWordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
734                                        m_IdentResponse.m_le_wPollOutSize,
735                                        (WORD) EplDllkInstance_g.
736                                        m_DllConfigParam.
737                                        m_uiPresActPayloadLimit);
738                         // ResponseTime / PresMaxLatency
739                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
740                                         m_IdentResponse.m_le_dwResponseTime,
741                                         EplDllkInstance_g.m_DllConfigParam.
742                                         m_dwPresMaxLatency);
743                         // DeviceType
744                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
745                                         m_IdentResponse.m_le_dwDeviceType,
746                                         EplDllkInstance_g.m_DllIdentParam.
747                                         m_dwDeviceType);
748                         // VendorId
749                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
750                                         m_IdentResponse.m_le_dwVendorId,
751                                         EplDllkInstance_g.m_DllIdentParam.
752                                         m_dwVendorId);
753                         // ProductCode
754                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
755                                         m_IdentResponse.m_le_dwProductCode,
756                                         EplDllkInstance_g.m_DllIdentParam.
757                                         m_dwProductCode);
758                         // RevisionNumber
759                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
760                                         m_IdentResponse.m_le_dwRevisionNumber,
761                                         EplDllkInstance_g.m_DllIdentParam.
762                                         m_dwRevisionNumber);
763                         // SerialNumber
764                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
765                                         m_IdentResponse.m_le_dwSerialNumber,
766                                         EplDllkInstance_g.m_DllIdentParam.
767                                         m_dwSerialNumber);
768                         // VendorSpecificExt1
769                         AmiSetQword64ToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
770                                           m_IdentResponse.
771                                           m_le_qwVendorSpecificExt1,
772                                           EplDllkInstance_g.m_DllIdentParam.
773                                           m_qwVendorSpecificExt1);
774                         // VerifyConfigurationDate
775                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
776                                         m_IdentResponse.
777                                         m_le_dwVerifyConfigurationDate,
778                                         EplDllkInstance_g.m_DllIdentParam.
779                                         m_dwVerifyConfigurationDate);
780                         // VerifyConfigurationTime
781                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
782                                         m_IdentResponse.
783                                         m_le_dwVerifyConfigurationTime,
784                                         EplDllkInstance_g.m_DllIdentParam.
785                                         m_dwVerifyConfigurationTime);
786                         // ApplicationSwDate
787                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
788                                         m_IdentResponse.
789                                         m_le_dwApplicationSwDate,
790                                         EplDllkInstance_g.m_DllIdentParam.
791                                         m_dwApplicationSwDate);
792                         // ApplicationSwTime
793                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
794                                         m_IdentResponse.
795                                         m_le_dwApplicationSwTime,
796                                         EplDllkInstance_g.m_DllIdentParam.
797                                         m_dwApplicationSwTime);
798                         // IPAddress
799                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
800                                         m_IdentResponse.m_le_dwIpAddress,
801                                         EplDllkInstance_g.m_DllIdentParam.
802                                         m_dwIpAddress);
803                         // SubnetMask
804                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
805                                         m_IdentResponse.m_le_dwSubnetMask,
806                                         EplDllkInstance_g.m_DllIdentParam.
807                                         m_dwSubnetMask);
808                         // DefaultGateway
809                         AmiSetDwordToLe(&pTxFrame->m_Data.m_Asnd.m_Payload.
810                                         m_IdentResponse.m_le_dwDefaultGateway,
811                                         EplDllkInstance_g.m_DllIdentParam.
812                                         m_dwDefaultGateway);
813                         // HostName
814                         EPL_MEMCPY(&pTxFrame->m_Data.m_Asnd.m_Payload.
815                                    m_IdentResponse.m_le_sHostname[0],
816                                    &EplDllkInstance_g.m_DllIdentParam.
817                                    m_sHostname[0],
818                                    sizeof(EplDllkInstance_g.m_DllIdentParam.
819                                           m_sHostname));
820                         // VendorSpecificExt2
821                         EPL_MEMCPY(&pTxFrame->m_Data.m_Asnd.m_Payload.
822                                    m_IdentResponse.m_le_abVendorSpecificExt2[0],
823                                    &EplDllkInstance_g.m_DllIdentParam.
824                                    m_abVendorSpecificExt2[0],
825                                    sizeof(EplDllkInstance_g.m_DllIdentParam.
826                                           m_abVendorSpecificExt2));
827
828                         // StatusResponse
829                         uiFrameSize = EPL_C_DLL_MINSIZE_STATUSRES;
830                         Ret =
831                             EplDllkCreateTxFrame(&uiHandle, &pTxFrame,
832                                                  &uiFrameSize, kEplMsgTypeAsnd,
833                                                  kEplDllAsndStatusResponse);
834                         if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
835                                 goto Exit;
836                         }
837                         // PRes $$$ maybe move this to PDO module
838                         if ((EplDllkInstance_g.m_DllConfigParam.m_fAsyncOnly ==
839                              FALSE)
840                             && (EplDllkInstance_g.m_DllConfigParam.m_uiPresActPayloadLimit >= 36)) {    // it is not configured as async-only CN,
841                                 // so take part in isochronous phase and register PRes frame
842                                 uiFrameSize =
843                                     EplDllkInstance_g.m_DllConfigParam.
844                                     m_uiPresActPayloadLimit + 24;
845                                 Ret =
846                                     EplDllkCreateTxFrame(&uiHandle, &pTxFrame,
847                                                          &uiFrameSize,
848                                                          kEplMsgTypePres,
849                                                          kEplDllAsndNotDefined);
850                                 if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
851                                         goto Exit;
852                                 }
853 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0)
854                                 // initially encode TPDO -> inform PDO module
855                                 FrameInfo.m_pFrame = pTxFrame;
856                                 FrameInfo.m_uiFrameSize = uiFrameSize;
857                                 Ret = EplPdokCbPdoTransmitted(&FrameInfo);
858 #endif
859                                 // reset cycle counter
860                                 EplDllkInstance_g.m_uiCycleCount = 0;
861                         } else {        // it is an async-only CN
862                                 // fool EplDllkChangeState() to think that PRes was not expected
863                                 EplDllkInstance_g.m_uiCycleCount = 1;
864                         }
865
866                         // NMT request
867                         uiFrameSize = EPL_C_IP_MAX_MTU;
868                         Ret =
869                             EplDllkCreateTxFrame(&uiHandle, &pTxFrame,
870                                                  &uiFrameSize, kEplMsgTypeAsnd,
871                                                  kEplDllAsndNmtRequest);
872                         if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
873                                 goto Exit;
874                         }
875                         // mark Tx buffer as empty
876                         EplDllkInstance_g.m_pTxBuffer[uiHandle].m_uiTxMsgLen =
877                             EPL_DLLK_BUFLEN_EMPTY;
878
879                         // non-EPL frame
880                         uiFrameSize = EPL_C_IP_MAX_MTU;
881                         Ret =
882                             EplDllkCreateTxFrame(&uiHandle, &pTxFrame,
883                                                  &uiFrameSize,
884                                                  kEplMsgTypeNonEpl,
885                                                  kEplDllAsndNotDefined);
886                         if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
887                                 goto Exit;
888                         }
889                         // mark Tx buffer as empty
890                         EplDllkInstance_g.m_pTxBuffer[uiHandle].m_uiTxMsgLen =
891                             EPL_DLLK_BUFLEN_EMPTY;
892
893                         // register multicast MACs in ethernet driver
894                         AmiSetQword48ToBe(&abMulticastMac[0],
895                                           EPL_C_DLL_MULTICAST_SOC);
896                         Ret = EdrvDefineRxMacAddrEntry(abMulticastMac);
897                         AmiSetQword48ToBe(&abMulticastMac[0],
898                                           EPL_C_DLL_MULTICAST_SOA);
899                         Ret = EdrvDefineRxMacAddrEntry(abMulticastMac);
900                         AmiSetQword48ToBe(&abMulticastMac[0],
901                                           EPL_C_DLL_MULTICAST_PRES);
902                         Ret = EdrvDefineRxMacAddrEntry(abMulticastMac);
903                         AmiSetQword48ToBe(&abMulticastMac[0],
904                                           EPL_C_DLL_MULTICAST_ASND);
905                         Ret = EdrvDefineRxMacAddrEntry(abMulticastMac);
906
907 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
908                         if (NmtState >= kEplNmtMsNotActive) {   // local node is MN
909                                 unsigned int uiIndex;
910
911                                 // SoC
912                                 uiFrameSize = EPL_C_DLL_MINSIZE_SOC;
913                                 Ret =
914                                     EplDllkCreateTxFrame(&uiHandle, &pTxFrame,
915                                                          &uiFrameSize,
916                                                          kEplMsgTypeSoc,
917                                                          kEplDllAsndNotDefined);
918                                 if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
919                                         goto Exit;
920                                 }
921                                 // SoA
922                                 uiFrameSize = EPL_C_DLL_MINSIZE_SOA;
923                                 Ret =
924                                     EplDllkCreateTxFrame(&uiHandle, &pTxFrame,
925                                                          &uiFrameSize,
926                                                          kEplMsgTypeSoa,
927                                                          kEplDllAsndNotDefined);
928                                 if (Ret != kEplSuccessful) {    // error occured while registering Tx frame
929                                         goto Exit;
930                                 }
931
932                                 for (uiIndex = 0;
933                                      uiIndex <
934                                      tabentries(EplDllkInstance_g.m_aNodeInfo);
935                                      uiIndex++) {
936 //                    EplDllkInstance_g.m_aNodeInfo[uiIndex].m_uiNodeId = uiIndex + 1;
937                                         EplDllkInstance_g.m_aNodeInfo[uiIndex].
938                                             m_wPresPayloadLimit =
939                                             (WORD) EplDllkInstance_g.
940                                             m_DllConfigParam.
941                                             m_uiIsochrRxMaxPayload;
942                                 }
943
944                                 // calculate cycle length
945                                 EplDllkInstance_g.m_ullFrameTimeout = 1000LL
946                                     *
947                                     ((unsigned long long)EplDllkInstance_g.
948                                      m_DllConfigParam.m_dwCycleLen);
949                         }
950 #endif //(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
951
952                         Ret = EplDllkCalAsyncClearBuffer();
953
954                         break;
955                 }
956
957         case kEplEventTypeDllkDestroy:
958                 {
959                         // destroy all data structures
960
961                         NmtState = *((tEplNmtState *) pEvent_p->m_pArg);
962
963                         // delete Tx frames
964                         Ret = EplDllkDeleteTxFrame(EPL_DLLK_TXFRAME_IDENTRES);
965                         if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
966                                 goto Exit;
967                         }
968
969                         Ret = EplDllkDeleteTxFrame(EPL_DLLK_TXFRAME_STATUSRES);
970                         if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
971                                 goto Exit;
972                         }
973
974                         Ret = EplDllkDeleteTxFrame(EPL_DLLK_TXFRAME_PRES);
975                         if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
976                                 goto Exit;
977                         }
978
979                         Ret = EplDllkDeleteTxFrame(EPL_DLLK_TXFRAME_NMTREQ);
980                         if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
981                                 goto Exit;
982                         }
983
984                         Ret = EplDllkDeleteTxFrame(EPL_DLLK_TXFRAME_NONEPL);
985                         if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
986                                 goto Exit;
987                         }
988 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
989                         if (NmtState >= kEplNmtMsNotActive) {   // local node was MN
990                                 unsigned int uiIndex;
991
992                                 Ret =
993                                     EplDllkDeleteTxFrame(EPL_DLLK_TXFRAME_SOC);
994                                 if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
995                                         goto Exit;
996                                 }
997
998                                 Ret =
999                                     EplDllkDeleteTxFrame(EPL_DLLK_TXFRAME_SOA);
1000                                 if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
1001                                         goto Exit;
1002                                 }
1003
1004                                 for (uiIndex = 0;
1005                                      uiIndex <
1006                                      tabentries(EplDllkInstance_g.m_aNodeInfo);
1007                                      uiIndex++) {
1008                                         if (EplDllkInstance_g.
1009                                             m_aNodeInfo[uiIndex].
1010                                             m_pPreqTxBuffer != NULL) {
1011                                                 uiHandle =
1012                                                     EplDllkInstance_g.
1013                                                     m_aNodeInfo[uiIndex].
1014                                                     m_pPreqTxBuffer -
1015                                                     EplDllkInstance_g.
1016                                                     m_pTxBuffer;
1017                                                 EplDllkInstance_g.
1018                                                     m_aNodeInfo[uiIndex].
1019                                                     m_pPreqTxBuffer = NULL;
1020                                                 Ret =
1021                                                     EplDllkDeleteTxFrame
1022                                                     (uiHandle);
1023                                                 if (Ret != kEplSuccessful) {    // error occured while deregistering Tx frame
1024                                                         goto Exit;
1025                                                 }
1026
1027                                         }
1028                                         EplDllkInstance_g.m_aNodeInfo[uiIndex].
1029                                             m_wPresPayloadLimit = 0xFFFF;
1030                                 }
1031                         }
1032 #endif //(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
1033
1034                         // deregister multicast MACs in ethernet driver
1035                         AmiSetQword48ToBe(&abMulticastMac[0],
1036                                           EPL_C_DLL_MULTICAST_SOC);
1037                         Ret = EdrvUndefineRxMacAddrEntry(abMulticastMac);
1038                         AmiSetQword48ToBe(&abMulticastMac[0],
1039                                           EPL_C_DLL_MULTICAST_SOA);
1040                         Ret = EdrvUndefineRxMacAddrEntry(abMulticastMac);
1041                         AmiSetQword48ToBe(&abMulticastMac[0],
1042                                           EPL_C_DLL_MULTICAST_PRES);
1043                         Ret = EdrvUndefineRxMacAddrEntry(abMulticastMac);
1044                         AmiSetQword48ToBe(&abMulticastMac[0],
1045                                           EPL_C_DLL_MULTICAST_ASND);
1046                         Ret = EdrvUndefineRxMacAddrEntry(abMulticastMac);
1047
1048                         // delete timer
1049 #if EPL_TIMER_USE_HIGHRES != FALSE
1050                         Ret =
1051                             EplTimerHighReskDeleteTimer(&EplDllkInstance_g.
1052                                                         m_TimerHdlCycle);
1053 #endif
1054
1055                         break;
1056                 }
1057
1058         case kEplEventTypeDllkFillTx:
1059                 {
1060                         // fill TxBuffer of specified priority with new frame if empty
1061
1062                         pTxFrame = NULL;
1063                         AsyncReqPriority =
1064                             *((tEplDllAsyncReqPriority *) pEvent_p->m_pArg);
1065                         switch (AsyncReqPriority) {
1066                         case kEplDllAsyncReqPrioNmt:    // NMT request priority
1067                                 {
1068                                         pTxBuffer =
1069                                             &EplDllkInstance_g.
1070                                             m_pTxBuffer
1071                                             [EPL_DLLK_TXFRAME_NMTREQ];
1072                                         if (pTxBuffer->m_pbBuffer != NULL) {    // NmtRequest does exist
1073                                                 // check if frame is empty and not being filled
1074                                                 if (pTxBuffer->m_uiTxMsgLen ==
1075                                                     EPL_DLLK_BUFLEN_EMPTY) {
1076                                                         // mark Tx buffer as filling is in process
1077                                                         pTxBuffer->
1078                                                             m_uiTxMsgLen =
1079                                                             EPL_DLLK_BUFLEN_FILLING;
1080                                                         // set max buffer size as input parameter
1081                                                         uiFrameSize =
1082                                                             pTxBuffer->
1083                                                             m_uiMaxBufferLen;
1084                                                         // copy frame from shared loop buffer to Tx buffer
1085                                                         Ret =
1086                                                             EplDllkCalAsyncGetTxFrame
1087                                                             (pTxBuffer->
1088                                                              m_pbBuffer,
1089                                                              &uiFrameSize,
1090                                                              AsyncReqPriority);
1091                                                         if (Ret ==
1092                                                             kEplSuccessful) {
1093                                                                 pTxFrame =
1094                                                                     (tEplFrame
1095                                                                      *)
1096                                                                     pTxBuffer->
1097                                                                     m_pbBuffer;
1098                                                                 Ret =
1099                                                                     EplDllkCheckFrame
1100                                                                     (pTxFrame,
1101                                                                      uiFrameSize);
1102
1103                                                                 // set buffer valid
1104                                                                 pTxBuffer->
1105                                                                     m_uiTxMsgLen
1106                                                                     =
1107                                                                     uiFrameSize;
1108                                                         } else if (Ret == kEplDllAsyncTxBufferEmpty) {  // empty Tx buffer is not a real problem
1109                                                                 // so just ignore it
1110                                                                 Ret =
1111                                                                     kEplSuccessful;
1112                                                                 // mark Tx buffer as empty
1113                                                                 pTxBuffer->
1114                                                                     m_uiTxMsgLen
1115                                                                     =
1116                                                                     EPL_DLLK_BUFLEN_EMPTY;
1117                                                         }
1118                                                 }
1119                                         }
1120                                         break;
1121                                 }
1122
1123                         default:        // generic priority
1124                                 {
1125                                         pTxBuffer =
1126                                             &EplDllkInstance_g.
1127                                             m_pTxBuffer
1128                                             [EPL_DLLK_TXFRAME_NONEPL];
1129                                         if (pTxBuffer->m_pbBuffer != NULL) {    // non-EPL frame does exist
1130                                                 // check if frame is empty and not being filled
1131                                                 if (pTxBuffer->m_uiTxMsgLen ==
1132                                                     EPL_DLLK_BUFLEN_EMPTY) {
1133                                                         // mark Tx buffer as filling is in process
1134                                                         pTxBuffer->
1135                                                             m_uiTxMsgLen =
1136                                                             EPL_DLLK_BUFLEN_FILLING;
1137                                                         // set max buffer size as input parameter
1138                                                         uiFrameSize =
1139                                                             pTxBuffer->
1140                                                             m_uiMaxBufferLen;
1141                                                         // copy frame from shared loop buffer to Tx buffer
1142                                                         Ret =
1143                                                             EplDllkCalAsyncGetTxFrame
1144                                                             (pTxBuffer->
1145                                                              m_pbBuffer,
1146                                                              &uiFrameSize,
1147                                                              AsyncReqPriority);
1148                                                         if (Ret ==
1149                                                             kEplSuccessful) {
1150                                                                 pTxFrame =
1151                                                                     (tEplFrame
1152                                                                      *)
1153                                                                     pTxBuffer->
1154                                                                     m_pbBuffer;
1155                                                                 Ret =
1156                                                                     EplDllkCheckFrame
1157                                                                     (pTxFrame,
1158                                                                      uiFrameSize);
1159
1160                                                                 // set buffer valid
1161                                                                 pTxBuffer->
1162                                                                     m_uiTxMsgLen
1163                                                                     =
1164                                                                     uiFrameSize;
1165                                                         } else if (Ret == kEplDllAsyncTxBufferEmpty) {  // empty Tx buffer is not a real problem
1166                                                                 // so just ignore it
1167                                                                 Ret =
1168                                                                     kEplSuccessful;
1169                                                                 // mark Tx buffer as empty
1170                                                                 pTxBuffer->
1171                                                                     m_uiTxMsgLen
1172                                                                     =
1173                                                                     EPL_DLLK_BUFLEN_EMPTY;
1174                                                         }
1175                                                 }
1176                                         }
1177                                         break;
1178                                 }
1179                         }
1180
1181                         NmtState = EplNmtkGetNmtState();
1182
1183                         if ((NmtState == kEplNmtCsBasicEthernet) || (NmtState == kEplNmtMsBasicEthernet)) {     // send frame immediately
1184                                 if (pTxFrame != NULL) { // frame is present
1185                                         // padding is done by Edrv or ethernet controller
1186                                         Ret = EdrvSendTxMsg(pTxBuffer);
1187                                 } else {        // no frame moved to TxBuffer
1188                                         // check if TxBuffers contain unsent frames
1189                                         if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_uiTxMsgLen > EPL_DLLK_BUFLEN_EMPTY) {      // NMT request Tx buffer contains a frame
1190                                                 Ret =
1191                                                     EdrvSendTxMsg
1192                                                     (&EplDllkInstance_g.
1193                                                      m_pTxBuffer
1194                                                      [EPL_DLLK_TXFRAME_NMTREQ]);
1195                                         } else if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NONEPL].m_uiTxMsgLen > EPL_DLLK_BUFLEN_EMPTY) {       // non-EPL Tx buffer contains a frame
1196                                                 Ret =
1197                                                     EdrvSendTxMsg
1198                                                     (&EplDllkInstance_g.
1199                                                      m_pTxBuffer
1200                                                      [EPL_DLLK_TXFRAME_NONEPL]);
1201                                         }
1202                                         if (Ret == kEplInvalidOperation) {      // ignore error if caused by already active transmission
1203                                                 Ret = kEplSuccessful;
1204                                         }
1205                                 }
1206                                 // reset PRes flag 2
1207                                 EplDllkInstance_g.m_bFlag2 = 0;
1208                         } else {
1209                                 // update Flag 2 (PR, RS)
1210                                 Ret =
1211                                     EplDllkCalAsyncGetTxCount(&AsyncReqPriority,
1212                                                               &uiFrameCount);
1213                                 if (AsyncReqPriority == kEplDllAsyncReqPrioNmt) {       // non-empty FIFO with hightest priority is for NMT requests
1214                                         if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_uiTxMsgLen > EPL_DLLK_BUFLEN_EMPTY) {      // NMT request Tx buffer contains a frame
1215                                                 // add one more frame
1216                                                 uiFrameCount++;
1217                                         }
1218                                 } else {        // non-empty FIFO with highest priority is for generic frames
1219                                         if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_uiTxMsgLen > EPL_DLLK_BUFLEN_EMPTY) {      // NMT request Tx buffer contains a frame
1220                                                 // use NMT request FIFO, because of higher priority
1221                                                 uiFrameCount = 1;
1222                                                 AsyncReqPriority =
1223                                                     kEplDllAsyncReqPrioNmt;
1224                                         } else if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NONEPL].m_uiTxMsgLen > EPL_DLLK_BUFLEN_EMPTY) {       // non-EPL Tx buffer contains a frame
1225                                                 // use NMT request FIFO, because of higher priority
1226                                                 // add one more frame
1227                                                 uiFrameCount++;
1228                                         }
1229                                 }
1230
1231                                 if (uiFrameCount > 7) { // limit frame request to send counter to 7
1232                                         uiFrameCount = 7;
1233                                 }
1234                                 if (uiFrameCount > 0) {
1235                                         EplDllkInstance_g.m_bFlag2 =
1236                                             (BYTE) (((AsyncReqPriority <<
1237                                                       EPL_FRAME_FLAG2_PR_SHIFT)
1238                                                      & EPL_FRAME_FLAG2_PR)
1239                                                     | (uiFrameCount &
1240                                                        EPL_FRAME_FLAG2_RS));
1241                                 } else {
1242                                         EplDllkInstance_g.m_bFlag2 = 0;
1243                                 }
1244                         }
1245
1246                         break;
1247                 }
1248
1249 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
1250         case kEplEventTypeDllkStartReducedCycle:
1251                 {
1252                         // start the reduced cycle by programming the cycle timer
1253                         // it is issued by NMT MN module, when PreOp1 is entered
1254
1255                         // clear the asynchronous queues
1256                         Ret = EplDllkCalAsyncClearQueues();
1257
1258                         // reset cycle counter (everytime a SoA is triggerd in PreOp1 the counter is incremented
1259                         // and when it reaches EPL_C_DLL_PREOP1_START_CYCLES the SoA may contain invitations)
1260                         EplDllkInstance_g.m_uiCycleCount = 0;
1261
1262                         // remove any CN from isochronous phase
1263                         while (EplDllkInstance_g.m_pFirstNodeInfo != NULL) {
1264                                 EplDllkDeleteNode(EplDllkInstance_g.
1265                                                   m_pFirstNodeInfo->m_uiNodeId);
1266                         }
1267
1268                         // change state to NonCyclic,
1269                         // hence EplDllkChangeState() will not ignore the next call
1270                         EplDllkInstance_g.m_DllState = kEplDllMsNonCyclic;
1271
1272 #if EPL_TIMER_USE_HIGHRES != FALSE
1273                         if (EplDllkInstance_g.m_DllConfigParam.
1274                             m_dwAsyncSlotTimeout != 0) {
1275                                 Ret =
1276                                     EplTimerHighReskModifyTimerNs
1277                                     (&EplDllkInstance_g.m_TimerHdlCycle,
1278                                      EplDllkInstance_g.m_DllConfigParam.
1279                                      m_dwAsyncSlotTimeout,
1280                                      EplDllkCbMnTimerCycle, 0L, FALSE);
1281                         }
1282 #endif
1283
1284                         break;
1285                 }
1286 #endif
1287
1288 #if EPL_DLL_PRES_READY_AFTER_SOA != FALSE
1289         case kEplEventTypeDllkPresReady:
1290                 {
1291                         // post PRes to transmit FIFO
1292
1293                         NmtState = EplNmtkGetNmtState();
1294
1295                         if (NmtState != kEplNmtCsBasicEthernet) {
1296                                 // Does PRes exist?
1297                                 if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_PRES].m_pbBuffer != NULL) {  // PRes does exist
1298                                         pTxFrame =
1299                                             (tEplFrame *) EplDllkInstance_g.
1300                                             m_pTxBuffer[EPL_DLLK_TXFRAME_PRES].
1301                                             m_pbBuffer;
1302                                         // update frame (NMT state, RD, RS, PR, MS, EN flags)
1303                                         if (NmtState < kEplNmtCsPreOperational2) {      // NMT state is not PreOp2, ReadyToOp or Op
1304                                                 // fake NMT state PreOp2, because PRes will be sent only in PreOp2 or greater
1305                                                 NmtState =
1306                                                     kEplNmtCsPreOperational2;
1307                                         }
1308                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
1309                                                        m_le_bNmtStatus,
1310                                                        (BYTE) NmtState);
1311                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
1312                                                        m_le_bFlag2,
1313                                                        EplDllkInstance_g.
1314                                                        m_bFlag2);
1315                                         if (NmtState != kEplNmtCsOperational) { // mark PDO as invalid in NMT state Op
1316                                                 // $$$ reset only RD flag; set other flags appropriately
1317                                                 AmiSetByteToLe(&pTxFrame->
1318                                                                m_Data.m_Pres.
1319                                                                m_le_bFlag1, 0);
1320                                         }
1321                                         // $$$ make function that updates Pres, StatusRes
1322                                         // mark PRes frame as ready for transmission
1323                                         Ret =
1324                                             EdrvTxMsgReady(&EplDllkInstance_g.
1325                                                            m_pTxBuffer
1326                                                            [EPL_DLLK_TXFRAME_PRES]);
1327                                 }
1328                         }
1329
1330                         break;
1331                 }
1332 #endif
1333         default:
1334                 {
1335                         ASSERTMSG(FALSE,
1336                                   "EplDllkProcess(): unhandled event type!\n");
1337                 }
1338         }
1339
1340       Exit:
1341         return Ret;
1342 }
1343
1344 //---------------------------------------------------------------------------
1345 //
1346 // Function:    EplDllkConfig
1347 //
1348 // Description: configure parameters of DLL
1349 //
1350 // Parameters:  pDllConfigParam_p       = configuration parameters
1351 //
1352 // Returns:     tEplKernel              = error code
1353 //
1354 //
1355 // State:
1356 //
1357 //---------------------------------------------------------------------------
1358
1359 tEplKernel EplDllkConfig(tEplDllConfigParam * pDllConfigParam_p)
1360 {
1361         tEplKernel Ret = kEplSuccessful;
1362
1363 // d.k. check of NMT state disabled, because CycleLen is programmed at run time by MN without reset of CN
1364 /*tEplNmtState    NmtState;
1365
1366     NmtState = EplNmtkGetNmtState();
1367
1368     if (NmtState > kEplNmtGsResetConfiguration)
1369     {   // only allowed in state DLL_GS_INIT
1370         Ret = kEplInvalidOperation;
1371         goto Exit;
1372     }
1373 */
1374         EPL_MEMCPY(&EplDllkInstance_g.m_DllConfigParam, pDllConfigParam_p,
1375                    (pDllConfigParam_p->m_uiSizeOfStruct <
1376                     sizeof(tEplDllConfigParam) ? pDllConfigParam_p->
1377                     m_uiSizeOfStruct : sizeof(tEplDllConfigParam)));
1378
1379         if ((EplDllkInstance_g.m_DllConfigParam.m_dwCycleLen != 0)
1380             && (EplDllkInstance_g.m_DllConfigParam.m_dwLossOfFrameTolerance != 0)) {    // monitor EPL cycle, calculate frame timeout
1381                 EplDllkInstance_g.m_ullFrameTimeout = (1000LL
1382                                                        *
1383                                                        ((unsigned long long)
1384                                                         EplDllkInstance_g.
1385                                                         m_DllConfigParam.
1386                                                         m_dwCycleLen))
1387                     +
1388                     ((unsigned long long)EplDllkInstance_g.m_DllConfigParam.
1389                      m_dwLossOfFrameTolerance);
1390         } else {
1391                 EplDllkInstance_g.m_ullFrameTimeout = 0LL;
1392         }
1393
1394         if (EplDllkInstance_g.m_DllConfigParam.m_fAsyncOnly != FALSE) { // it is configured as async-only CN
1395                 // disable multiplexed cycle, that m_uiCycleCount will not be incremented spuriously on SoC
1396                 EplDllkInstance_g.m_DllConfigParam.m_uiMultiplCycleCnt = 0;
1397         }
1398 //Exit:
1399         return Ret;
1400 }
1401
1402 //---------------------------------------------------------------------------
1403 //
1404 // Function:    EplDllkSetIdentity
1405 //
1406 // Description: configure identity of local node for IdentResponse
1407 //
1408 // Parameters:  pDllIdentParam_p        = identity
1409 //
1410 // Returns:     tEplKernel              = error code
1411 //
1412 //
1413 // State:
1414 //
1415 //---------------------------------------------------------------------------
1416
1417 tEplKernel EplDllkSetIdentity(tEplDllIdentParam * pDllIdentParam_p)
1418 {
1419         tEplKernel Ret = kEplSuccessful;
1420
1421         EPL_MEMCPY(&EplDllkInstance_g.m_DllIdentParam, pDllIdentParam_p,
1422                    (pDllIdentParam_p->m_uiSizeOfStruct <
1423                     sizeof(tEplDllIdentParam) ? pDllIdentParam_p->
1424                     m_uiSizeOfStruct : sizeof(tEplDllIdentParam)));
1425
1426         // $$$ if IdentResponse frame exists update it
1427
1428         return Ret;
1429 }
1430
1431 //---------------------------------------------------------------------------
1432 //
1433 // Function:    EplDllkRegAsyncHandler
1434 //
1435 // Description: registers handler for non-EPL frames
1436 //
1437 // Parameters:  pfnDllkCbAsync_p        = pointer to callback function
1438 //
1439 // Returns:     tEplKernel              = error code
1440 //
1441 //
1442 // State:
1443 //
1444 //---------------------------------------------------------------------------
1445
1446 tEplKernel EplDllkRegAsyncHandler(tEplDllkCbAsync pfnDllkCbAsync_p)
1447 {
1448         tEplKernel Ret = kEplSuccessful;
1449
1450         if (EplDllkInstance_g.m_pfnCbAsync == NULL) {   // no handler registered yet
1451                 EplDllkInstance_g.m_pfnCbAsync = pfnDllkCbAsync_p;
1452         } else {                // handler already registered
1453                 Ret = kEplDllCbAsyncRegistered;
1454         }
1455
1456         return Ret;
1457 }
1458
1459 //---------------------------------------------------------------------------
1460 //
1461 // Function:    EplDllkDeregAsyncHandler
1462 //
1463 // Description: deregisters handler for non-EPL frames
1464 //
1465 // Parameters:  pfnDllkCbAsync_p        = pointer to callback function
1466 //
1467 // Returns:     tEplKernel              = error code
1468 //
1469 //
1470 // State:
1471 //
1472 //---------------------------------------------------------------------------
1473
1474 tEplKernel EplDllkDeregAsyncHandler(tEplDllkCbAsync pfnDllkCbAsync_p)
1475 {
1476         tEplKernel Ret = kEplSuccessful;
1477
1478         if (EplDllkInstance_g.m_pfnCbAsync == pfnDllkCbAsync_p) {       // same handler is registered
1479                 // deregister it
1480                 EplDllkInstance_g.m_pfnCbAsync = NULL;
1481         } else {                // wrong handler or no handler registered
1482                 Ret = kEplDllCbAsyncRegistered;
1483         }
1484
1485         return Ret;
1486 }
1487
1488 //---------------------------------------------------------------------------
1489 //
1490 // Function:    EplDllkSetAsndServiceIdFilter()
1491 //
1492 // Description: sets the specified node ID filter for the specified
1493 //              AsndServiceId. It registers C_DLL_MULTICAST_ASND in ethernet
1494 //              driver if any AsndServiceId is open.
1495 //
1496 // Parameters:  ServiceId_p             = ASnd Service ID
1497 //              Filter_p                = node ID filter
1498 //
1499 // Returns:     tEplKernel              = error code
1500 //
1501 //
1502 // State:
1503 //
1504 //---------------------------------------------------------------------------
1505
1506 tEplKernel EplDllkSetAsndServiceIdFilter(tEplDllAsndServiceId ServiceId_p,
1507                                          tEplDllAsndFilter Filter_p)
1508 {
1509         tEplKernel Ret = kEplSuccessful;
1510
1511         if (ServiceId_p < tabentries(EplDllkInstance_g.m_aAsndFilter)) {
1512                 EplDllkInstance_g.m_aAsndFilter[ServiceId_p] = Filter_p;
1513         }
1514
1515         return Ret;
1516 }
1517
1518 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
1519
1520 //---------------------------------------------------------------------------
1521 //
1522 // Function:    EplDllkSetFlag1OfNode()
1523 //
1524 // Description: sets Flag1 (for PReq and SoA) of the specified node ID.
1525 //
1526 // Parameters:  uiNodeId_p              = node ID
1527 //              bSoaFlag1_p             = flag1
1528 //
1529 // Returns:     tEplKernel              = error code
1530 //
1531 //
1532 // State:
1533 //
1534 //---------------------------------------------------------------------------
1535
1536 tEplKernel EplDllkSetFlag1OfNode(unsigned int uiNodeId_p, BYTE bSoaFlag1_p)
1537 {
1538         tEplKernel Ret = kEplSuccessful;
1539         tEplDllkNodeInfo *pNodeInfo;
1540
1541         pNodeInfo = EplDllkGetNodeInfo(uiNodeId_p);
1542         if (pNodeInfo == NULL) {        // no node info structure available
1543                 Ret = kEplDllNoNodeInfo;
1544                 goto Exit;
1545         }
1546         // store flag1 in internal node info structure
1547         pNodeInfo->m_bSoaFlag1 = bSoaFlag1_p;
1548
1549       Exit:
1550         return Ret;
1551 }
1552
1553 //---------------------------------------------------------------------------
1554 //
1555 // Function:    EplDllkGetFirstNodeInfo()
1556 //
1557 // Description: returns first info structure of first node in isochronous phase.
1558 //              It is only useful for ErrorHandlerk module.
1559 //
1560 // Parameters:  ppNodeInfo_p            = pointer to pointer of internal node info structure
1561 //
1562 // Returns:     tEplKernel              = error code
1563 //
1564 //
1565 // State:
1566 //
1567 //---------------------------------------------------------------------------
1568
1569 tEplKernel EplDllkGetFirstNodeInfo(tEplDllkNodeInfo ** ppNodeInfo_p)
1570 {
1571         tEplKernel Ret = kEplSuccessful;
1572
1573         *ppNodeInfo_p = EplDllkInstance_g.m_pFirstNodeInfo;
1574
1575         return Ret;
1576 }
1577
1578 //---------------------------------------------------------------------------
1579 //
1580 // Function:    EplDllkAddNode()
1581 //
1582 // Description: adds the specified node to the isochronous phase.
1583 //
1584 // Parameters:  pNodeInfo_p             = pointer of node info structure
1585 //
1586 // Returns:     tEplKernel              = error code
1587 //
1588 //
1589 // State:
1590 //
1591 //---------------------------------------------------------------------------
1592
1593 tEplKernel EplDllkAddNode(tEplDllNodeInfo * pNodeInfo_p)
1594 {
1595         tEplKernel Ret = kEplSuccessful;
1596         tEplDllkNodeInfo *pIntNodeInfo;
1597         tEplDllkNodeInfo **ppIntNodeInfo;
1598         unsigned int uiHandle;
1599         tEplFrame *pFrame;
1600         unsigned int uiFrameSize;
1601
1602         pIntNodeInfo = EplDllkGetNodeInfo(pNodeInfo_p->m_uiNodeId);
1603         if (pIntNodeInfo == NULL) {     // no node info structure available
1604                 Ret = kEplDllNoNodeInfo;
1605                 goto Exit;
1606         }
1607
1608         EPL_DLLK_DBG_POST_TRACE_VALUE(kEplEventTypeDllkAddNode,
1609                                       pNodeInfo_p->m_uiNodeId, 0);
1610
1611         // copy node configuration
1612         pIntNodeInfo->m_dwPresTimeout = pNodeInfo_p->m_dwPresTimeout;
1613         pIntNodeInfo->m_wPresPayloadLimit = pNodeInfo_p->m_wPresPayloadLimit;
1614
1615         // $$$ d.k.: actually add node only if MN. On CN it is sufficient to update the node configuration
1616         if (pNodeInfo_p->m_uiNodeId == EplDllkInstance_g.m_DllConfigParam.m_uiNodeId) { // we shall send PRes ourself
1617                 // insert our node at the end of the list
1618                 ppIntNodeInfo = &EplDllkInstance_g.m_pFirstNodeInfo;
1619                 while ((*ppIntNodeInfo != NULL)
1620                        && ((*ppIntNodeInfo)->m_pNextNodeInfo != NULL)) {
1621                         ppIntNodeInfo = &(*ppIntNodeInfo)->m_pNextNodeInfo;
1622                 }
1623                 if (*ppIntNodeInfo != NULL) {
1624                         if ((*ppIntNodeInfo)->m_uiNodeId == pNodeInfo_p->m_uiNodeId) {  // node was already added to list
1625                                 // $$$ d.k. maybe this should be an error
1626                                 goto Exit;
1627                         } else {        // add our node at the end of the list
1628                                 ppIntNodeInfo =
1629                                     &(*ppIntNodeInfo)->m_pNextNodeInfo;
1630                         }
1631                 }
1632                 // set "PReq"-TxBuffer to PRes-TxBuffer
1633                 pIntNodeInfo->m_pPreqTxBuffer =
1634                     &EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_PRES];
1635         } else {                // normal CN shall be added to isochronous phase
1636                 // insert node into list in ascending order
1637                 ppIntNodeInfo = &EplDllkInstance_g.m_pFirstNodeInfo;
1638                 while ((*ppIntNodeInfo != NULL)
1639                        && ((*ppIntNodeInfo)->m_uiNodeId <
1640                            pNodeInfo_p->m_uiNodeId)
1641                        && ((*ppIntNodeInfo)->m_uiNodeId !=
1642                            EplDllkInstance_g.m_DllConfigParam.m_uiNodeId)) {
1643                         ppIntNodeInfo = &(*ppIntNodeInfo)->m_pNextNodeInfo;
1644                 }
1645                 if ((*ppIntNodeInfo != NULL) && ((*ppIntNodeInfo)->m_uiNodeId == pNodeInfo_p->m_uiNodeId)) {    // node was already added to list
1646                         // $$$ d.k. maybe this should be an error
1647                         goto Exit;
1648                 }
1649         }
1650
1651         // initialize elements of internal node info structure
1652         pIntNodeInfo->m_bSoaFlag1 = 0;
1653         pIntNodeInfo->m_fSoftDelete = FALSE;
1654         pIntNodeInfo->m_NmtState = kEplNmtCsNotActive;
1655         if (pIntNodeInfo->m_pPreqTxBuffer == NULL) {    // create TxBuffer entry
1656                 uiFrameSize = pNodeInfo_p->m_wPreqPayloadLimit + 24;
1657                 Ret =
1658                     EplDllkCreateTxFrame(&uiHandle, &pFrame, &uiFrameSize,
1659                                          kEplMsgTypePreq,
1660                                          kEplDllAsndNotDefined);
1661                 if (Ret != kEplSuccessful) {
1662                         goto Exit;
1663                 }
1664                 pIntNodeInfo->m_pPreqTxBuffer =
1665                     &EplDllkInstance_g.m_pTxBuffer[uiHandle];
1666                 AmiSetByteToLe(&pFrame->m_le_bDstNodeId,
1667                                (BYTE) pNodeInfo_p->m_uiNodeId);
1668
1669                 // set up destination MAC address
1670                 EPL_MEMCPY(pFrame->m_be_abDstMac, pIntNodeInfo->m_be_abMacAddr,
1671                            6);
1672
1673 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0)
1674                 {
1675                         tEplFrameInfo FrameInfo;
1676
1677                         // initially encode TPDO -> inform PDO module
1678                         FrameInfo.m_pFrame = pFrame;
1679                         FrameInfo.m_uiFrameSize = uiFrameSize;
1680                         Ret = EplPdokCbPdoTransmitted(&FrameInfo);
1681                 }
1682 #endif
1683         }
1684         pIntNodeInfo->m_ulDllErrorEvents = 0L;
1685         // add node to list
1686         pIntNodeInfo->m_pNextNodeInfo = *ppIntNodeInfo;
1687         *ppIntNodeInfo = pIntNodeInfo;
1688
1689       Exit:
1690         return Ret;
1691 }
1692
1693 //---------------------------------------------------------------------------
1694 //
1695 // Function:    EplDllkDeleteNode()
1696 //
1697 // Description: removes the specified node from the isochronous phase.
1698 //
1699 // Parameters:  uiNodeId_p              = node ID
1700 //
1701 // Returns:     tEplKernel              = error code
1702 //
1703 //
1704 // State:
1705 //
1706 //---------------------------------------------------------------------------
1707
1708 tEplKernel EplDllkDeleteNode(unsigned int uiNodeId_p)
1709 {
1710         tEplKernel Ret = kEplSuccessful;
1711         tEplDllkNodeInfo *pIntNodeInfo;
1712         tEplDllkNodeInfo **ppIntNodeInfo;
1713         unsigned int uiHandle;
1714
1715         pIntNodeInfo = EplDllkGetNodeInfo(uiNodeId_p);
1716         if (pIntNodeInfo == NULL) {     // no node info structure available
1717                 Ret = kEplDllNoNodeInfo;
1718                 goto Exit;
1719         }
1720
1721         EPL_DLLK_DBG_POST_TRACE_VALUE(kEplEventTypeDllkDelNode, uiNodeId_p, 0);
1722
1723         // search node in whole list
1724         ppIntNodeInfo = &EplDllkInstance_g.m_pFirstNodeInfo;
1725         while ((*ppIntNodeInfo != NULL)
1726                && ((*ppIntNodeInfo)->m_uiNodeId != uiNodeId_p)) {
1727                 ppIntNodeInfo = &(*ppIntNodeInfo)->m_pNextNodeInfo;
1728         }
1729         if ((*ppIntNodeInfo == NULL) || ((*ppIntNodeInfo)->m_uiNodeId != uiNodeId_p)) { // node was not found in list
1730                 // $$$ d.k. maybe this should be an error
1731                 goto Exit;
1732         }
1733         // remove node from list
1734         *ppIntNodeInfo = pIntNodeInfo->m_pNextNodeInfo;
1735
1736         if ((pIntNodeInfo->m_pPreqTxBuffer != NULL)
1737             && (pIntNodeInfo->m_pPreqTxBuffer != &EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_PRES])) {      // delete TxBuffer entry
1738                 uiHandle =
1739                     pIntNodeInfo->m_pPreqTxBuffer -
1740                     EplDllkInstance_g.m_pTxBuffer;
1741                 pIntNodeInfo->m_pPreqTxBuffer = NULL;
1742                 Ret = EplDllkDeleteTxFrame(uiHandle);
1743 /*        if (Ret != kEplSuccessful)
1744         {
1745             goto Exit;
1746         }*/
1747         }
1748
1749       Exit:
1750         return Ret;
1751 }
1752
1753 //---------------------------------------------------------------------------
1754 //
1755 // Function:    EplDllkSoftDeleteNode()
1756 //
1757 // Description: removes the specified node not immediately from the isochronous phase.
1758 //              Instead the will be removed after error (late/loss PRes) without
1759 //              charging the error.
1760 //
1761 // Parameters:  uiNodeId_p              = node ID
1762 //
1763 // Returns:     tEplKernel              = error code
1764 //
1765 //
1766 // State:
1767 //
1768 //---------------------------------------------------------------------------
1769
1770 tEplKernel EplDllkSoftDeleteNode(unsigned int uiNodeId_p)
1771 {
1772         tEplKernel Ret = kEplSuccessful;
1773         tEplDllkNodeInfo *pIntNodeInfo;
1774
1775         pIntNodeInfo = EplDllkGetNodeInfo(uiNodeId_p);
1776         if (pIntNodeInfo == NULL) {     // no node info structure available
1777                 Ret = kEplDllNoNodeInfo;
1778                 goto Exit;
1779         }
1780
1781         EPL_DLLK_DBG_POST_TRACE_VALUE(kEplEventTypeDllkSoftDelNode,
1782                                       uiNodeId_p, 0);
1783
1784         pIntNodeInfo->m_fSoftDelete = TRUE;
1785
1786       Exit:
1787         return Ret;
1788 }
1789
1790 #endif //(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
1791
1792 //=========================================================================//
1793 //                                                                         //
1794 //          P R I V A T E   F U N C T I O N S                              //
1795 //                                                                         //
1796 //=========================================================================//
1797
1798 //---------------------------------------------------------------------------
1799 //
1800 // Function:    EplDllkChangeState
1801 //
1802 // Description: change DLL state on event and diagnose some communication errors
1803 //
1804 // Parameters:  NmtEvent_p              = DLL event (wrapped in NMT event)
1805 //
1806 // Returns:     tEplKernel              = error code
1807 //
1808 //
1809 // State:
1810 //
1811 //---------------------------------------------------------------------------
1812
1813 static tEplKernel EplDllkChangeState(tEplNmtEvent NmtEvent_p,
1814                                      tEplNmtState NmtState_p)
1815 {
1816         tEplKernel Ret = kEplSuccessful;
1817         tEplEvent Event;
1818         tEplErrorHandlerkEvent DllEvent;
1819
1820         DllEvent.m_ulDllErrorEvents = 0;
1821         DllEvent.m_uiNodeId = 0;
1822         DllEvent.m_NmtState = NmtState_p;
1823
1824         switch (NmtState_p) {
1825         case kEplNmtGsOff:
1826         case kEplNmtGsInitialising:
1827         case kEplNmtGsResetApplication:
1828         case kEplNmtGsResetCommunication:
1829         case kEplNmtGsResetConfiguration:
1830         case kEplNmtCsBasicEthernet:
1831                 // enter DLL_GS_INIT
1832                 EplDllkInstance_g.m_DllState = kEplDllGsInit;
1833                 break;
1834
1835         case kEplNmtCsNotActive:
1836         case kEplNmtCsPreOperational1:
1837                 // reduced EPL cycle is active
1838                 if (NmtEvent_p == kEplNmtEventDllCeSoc) {       // SoC received
1839                         // enter DLL_CS_WAIT_PREQ
1840                         EplDllkInstance_g.m_DllState = kEplDllCsWaitPreq;
1841                 } else {
1842                         // enter DLL_GS_INIT
1843                         EplDllkInstance_g.m_DllState = kEplDllGsInit;
1844                 }
1845                 break;
1846
1847         case kEplNmtCsPreOperational2:
1848         case kEplNmtCsReadyToOperate:
1849         case kEplNmtCsOperational:
1850                 // full EPL cycle is active
1851
1852                 switch (EplDllkInstance_g.m_DllState) {
1853                 case kEplDllCsWaitPreq:
1854                         switch (NmtEvent_p) {
1855                                 // DLL_CT2
1856                         case kEplNmtEventDllCePreq:
1857                                 // enter DLL_CS_WAIT_SOA
1858                                 DllEvent.m_ulDllErrorEvents |=
1859                                     EPL_DLL_ERR_CN_RECVD_PREQ;
1860                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoa;
1861                                 break;
1862
1863                                 // DLL_CT8
1864                         case kEplNmtEventDllCeFrameTimeout:
1865                                 if (NmtState_p == kEplNmtCsPreOperational2) {   // ignore frame timeout in PreOp2,
1866                                         // because the previously configured cycle len
1867                                         // may be wrong.
1868                                         // 2008/10/15 d.k. If it would not be ignored,
1869                                         // we would go cyclically to PreOp1 and on next
1870                                         // SoC back to PreOp2.
1871                                         break;
1872                                 }
1873                                 // report DLL_CEV_LOSS_SOC and DLL_CEV_LOSS_SOA
1874                                 DllEvent.m_ulDllErrorEvents |=
1875                                     EPL_DLL_ERR_CN_LOSS_SOA |
1876                                     EPL_DLL_ERR_CN_LOSS_SOC;
1877
1878                                 // enter DLL_CS_WAIT_SOC
1879                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoc;
1880                                 break;
1881
1882                         case kEplNmtEventDllCeSoa:
1883                                 // check if multiplexed and PReq should have been received in this cycle
1884                                 // and if >= NMT_CS_READY_TO_OPERATE
1885                                 if ((EplDllkInstance_g.m_uiCycleCount == 0)
1886                                     && (NmtState_p >= kEplNmtCsReadyToOperate)) {       // report DLL_CEV_LOSS_OF_PREQ
1887                                         DllEvent.m_ulDllErrorEvents |=
1888                                             EPL_DLL_ERR_CN_LOSS_PREQ;
1889                                 }
1890                                 // enter DLL_CS_WAIT_SOC
1891                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoc;
1892                                 break;
1893
1894                                 // DLL_CT7
1895                         case kEplNmtEventDllCeSoc:
1896                         case kEplNmtEventDllCeAsnd:
1897                                 // report DLL_CEV_LOSS_SOA
1898                                 DllEvent.m_ulDllErrorEvents |=
1899                                     EPL_DLL_ERR_CN_LOSS_SOA;
1900
1901                         case kEplNmtEventDllCePres:
1902                         default:
1903                                 // remain in this state
1904                                 break;
1905                         }
1906                         break;
1907
1908                 case kEplDllCsWaitSoc:
1909                         switch (NmtEvent_p) {
1910                                 // DLL_CT1
1911                         case kEplNmtEventDllCeSoc:
1912                                 // start of cycle and isochronous phase
1913                                 // enter DLL_CS_WAIT_PREQ
1914                                 EplDllkInstance_g.m_DllState =
1915                                     kEplDllCsWaitPreq;
1916                                 break;
1917
1918                                 // DLL_CT4
1919 //                        case kEplNmtEventDllCePres:
1920                         case kEplNmtEventDllCeFrameTimeout:
1921                                 if (NmtState_p == kEplNmtCsPreOperational2) {   // ignore frame timeout in PreOp2,
1922                                         // because the previously configured cycle len
1923                                         // may be wrong.
1924                                         // 2008/10/15 d.k. If it would not be ignored,
1925                                         // we would go cyclically to PreOp1 and on next
1926                                         // SoC back to PreOp2.
1927                                         break;
1928                                 }
1929                                 // fall through
1930
1931                         case kEplNmtEventDllCePreq:
1932                         case kEplNmtEventDllCeSoa:
1933                                 // report DLL_CEV_LOSS_SOC
1934                                 DllEvent.m_ulDllErrorEvents |=
1935                                     EPL_DLL_ERR_CN_LOSS_SOC;
1936
1937                         case kEplNmtEventDllCeAsnd:
1938                         default:
1939                                 // remain in this state
1940                                 break;
1941                         }
1942                         break;
1943
1944                 case kEplDllCsWaitSoa:
1945                         switch (NmtEvent_p) {
1946                         case kEplNmtEventDllCeFrameTimeout:
1947                                 // DLL_CT3
1948                                 if (NmtState_p == kEplNmtCsPreOperational2) {   // ignore frame timeout in PreOp2,
1949                                         // because the previously configured cycle len
1950                                         // may be wrong.
1951                                         // 2008/10/15 d.k. If it would not be ignored,
1952                                         // we would go cyclically to PreOp1 and on next
1953                                         // SoC back to PreOp2.
1954                                         break;
1955                                 }
1956                                 // fall through
1957
1958                         case kEplNmtEventDllCePreq:
1959                                 // report DLL_CEV_LOSS_SOC and DLL_CEV_LOSS_SOA
1960                                 DllEvent.m_ulDllErrorEvents |=
1961                                     EPL_DLL_ERR_CN_LOSS_SOA |
1962                                     EPL_DLL_ERR_CN_LOSS_SOC;
1963
1964                         case kEplNmtEventDllCeSoa:
1965                                 // enter DLL_CS_WAIT_SOC
1966                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoc;
1967                                 break;
1968
1969                                 // DLL_CT9
1970                         case kEplNmtEventDllCeSoc:
1971                                 // report DLL_CEV_LOSS_SOA
1972                                 DllEvent.m_ulDllErrorEvents |=
1973                                     EPL_DLL_ERR_CN_LOSS_SOA;
1974
1975                                 // enter DLL_CS_WAIT_PREQ
1976                                 EplDllkInstance_g.m_DllState =
1977                                     kEplDllCsWaitPreq;
1978                                 break;
1979
1980                                 // DLL_CT10
1981                         case kEplNmtEventDllCeAsnd:
1982                                 // report DLL_CEV_LOSS_SOA
1983                                 DllEvent.m_ulDllErrorEvents |=
1984                                     EPL_DLL_ERR_CN_LOSS_SOA;
1985
1986                         case kEplNmtEventDllCePres:
1987                         default:
1988                                 // remain in this state
1989                                 break;
1990                         }
1991                         break;
1992
1993                 case kEplDllGsInit:
1994                         // enter DLL_CS_WAIT_PREQ
1995                         EplDllkInstance_g.m_DllState = kEplDllCsWaitPreq;
1996                         break;
1997
1998                 default:
1999                         break;
2000                 }
2001                 break;
2002
2003         case kEplNmtCsStopped:
2004                 // full EPL cycle is active, but without PReq/PRes
2005
2006                 switch (EplDllkInstance_g.m_DllState) {
2007                 case kEplDllCsWaitPreq:
2008                         switch (NmtEvent_p) {
2009                                 // DLL_CT2
2010                         case kEplNmtEventDllCePreq:
2011                                 // enter DLL_CS_WAIT_SOA
2012                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoa;
2013                                 break;
2014
2015                                 // DLL_CT8
2016                         case kEplNmtEventDllCeFrameTimeout:
2017                                 // report DLL_CEV_LOSS_SOC and DLL_CEV_LOSS_SOA
2018                                 DllEvent.m_ulDllErrorEvents |=
2019                                     EPL_DLL_ERR_CN_LOSS_SOA |
2020                                     EPL_DLL_ERR_CN_LOSS_SOC;
2021
2022                         case kEplNmtEventDllCeSoa:
2023                                 // NMT_CS_STOPPED active
2024                                 // it is Ok if no PReq was received
2025
2026                                 // enter DLL_CS_WAIT_SOC
2027                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoc;
2028                                 break;
2029
2030                                 // DLL_CT7
2031                         case kEplNmtEventDllCeSoc:
2032                         case kEplNmtEventDllCeAsnd:
2033                                 // report DLL_CEV_LOSS_SOA
2034                                 DllEvent.m_ulDllErrorEvents |=
2035                                     EPL_DLL_ERR_CN_LOSS_SOA;
2036
2037                         case kEplNmtEventDllCePres:
2038                         default:
2039                                 // remain in this state
2040                                 break;
2041                         }
2042                         break;
2043
2044                 case kEplDllCsWaitSoc:
2045                         switch (NmtEvent_p) {
2046                                 // DLL_CT1
2047                         case kEplNmtEventDllCeSoc:
2048                                 // start of cycle and isochronous phase
2049                                 // enter DLL_CS_WAIT_SOA
2050                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoa;
2051                                 break;
2052
2053                                 // DLL_CT4
2054 //                        case kEplNmtEventDllCePres:
2055                         case kEplNmtEventDllCePreq:
2056                         case kEplNmtEventDllCeSoa:
2057                         case kEplNmtEventDllCeFrameTimeout:
2058                                 // report DLL_CEV_LOSS_SOC
2059                                 DllEvent.m_ulDllErrorEvents |=
2060                                     EPL_DLL_ERR_CN_LOSS_SOC;
2061
2062                         case kEplNmtEventDllCeAsnd:
2063                         default:
2064                                 // remain in this state
2065                                 break;
2066                         }
2067                         break;
2068
2069                 case kEplDllCsWaitSoa:
2070                         switch (NmtEvent_p) {
2071                                 // DLL_CT3
2072                         case kEplNmtEventDllCeFrameTimeout:
2073                                 // report DLL_CEV_LOSS_SOC and DLL_CEV_LOSS_SOA
2074                                 DllEvent.m_ulDllErrorEvents |=
2075                                     EPL_DLL_ERR_CN_LOSS_SOA |
2076                                     EPL_DLL_ERR_CN_LOSS_SOC;
2077
2078                         case kEplNmtEventDllCeSoa:
2079                                 // enter DLL_CS_WAIT_SOC
2080                                 EplDllkInstance_g.m_DllState = kEplDllCsWaitSoc;
2081                                 break;
2082
2083                                 // DLL_CT9
2084                         case kEplNmtEventDllCeSoc:
2085                                 // report DLL_CEV_LOSS_SOA
2086                                 DllEvent.m_ulDllErrorEvents |=
2087                                     EPL_DLL_ERR_CN_LOSS_SOA;
2088                                 // remain in DLL_CS_WAIT_SOA
2089                                 break;
2090
2091                                 // DLL_CT10
2092                         case kEplNmtEventDllCeAsnd:
2093                                 // report DLL_CEV_LOSS_SOA
2094                                 DllEvent.m_ulDllErrorEvents |=
2095                                     EPL_DLL_ERR_CN_LOSS_SOA;
2096
2097                         case kEplNmtEventDllCePreq:
2098                                 // NMT_CS_STOPPED active and we do not expect any PReq
2099                                 // so just ignore it
2100                         case kEplNmtEventDllCePres:
2101                         default:
2102                                 // remain in this state
2103                                 break;
2104                         }
2105                         break;
2106
2107                 case kEplDllGsInit:
2108                 default:
2109                         // enter DLL_CS_WAIT_PREQ
2110                         EplDllkInstance_g.m_DllState = kEplDllCsWaitSoa;
2111                         break;
2112                 }
2113                 break;
2114
2115 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
2116         case kEplNmtMsNotActive:
2117         case kEplNmtMsBasicEthernet:
2118                 break;
2119
2120         case kEplNmtMsPreOperational1:
2121                 // reduced EPL cycle is active
2122                 if (EplDllkInstance_g.m_DllState != kEplDllMsNonCyclic) {       // stop cycle timer
2123 #if EPL_TIMER_USE_HIGHRES != FALSE
2124                         Ret =
2125                             EplTimerHighReskDeleteTimer(&EplDllkInstance_g.
2126                                                         m_TimerHdlCycle);
2127 #endif
2128                         EplDllkInstance_g.m_DllState = kEplDllMsNonCyclic;
2129
2130                         // stop further processing,
2131                         // because it will be restarted by NMT MN module
2132                         break;
2133                 }
2134
2135                 switch (NmtEvent_p) {
2136                 case kEplNmtEventDllMeSocTrig:
2137                 case kEplNmtEventDllCeAsnd:
2138                         {       // because of reduced EPL cycle SoA shall be triggered, not SoC
2139                                 tEplDllState DummyDllState;
2140
2141                                 Ret =
2142                                     EplDllkAsyncFrameNotReceived
2143                                     (EplDllkInstance_g.m_LastReqServiceId,
2144                                      EplDllkInstance_g.m_uiLastTargetNodeId);
2145
2146                                 // go ahead and send SoA
2147                                 Ret = EplDllkMnSendSoa(NmtState_p,
2148                                                        &DummyDllState,
2149                                                        (EplDllkInstance_g.
2150                                                         m_uiCycleCount >=
2151                                                         EPL_C_DLL_PREOP1_START_CYCLES));
2152                                 // increment cycle counter to detect if EPL_C_DLL_PREOP1_START_CYCLES empty cycles are elapsed
2153                                 EplDllkInstance_g.m_uiCycleCount++;
2154
2155                                 // reprogram timer
2156 #if EPL_TIMER_USE_HIGHRES != FALSE
2157                                 if (EplDllkInstance_g.m_DllConfigParam.
2158                                     m_dwAsyncSlotTimeout != 0) {
2159                                         Ret =
2160                                             EplTimerHighReskModifyTimerNs
2161                                             (&EplDllkInstance_g.m_TimerHdlCycle,
2162                                              EplDllkInstance_g.m_DllConfigParam.
2163                                              m_dwAsyncSlotTimeout,
2164                                              EplDllkCbMnTimerCycle, 0L, FALSE);
2165                                 }
2166 #endif
2167                                 break;
2168                         }
2169
2170                 default:
2171                         break;
2172                 }
2173                 break;
2174
2175         case kEplNmtMsPreOperational2:
2176         case kEplNmtMsReadyToOperate:
2177         case kEplNmtMsOperational:
2178                 // full EPL cycle is active
2179                 switch (NmtEvent_p) {
2180                 case kEplNmtEventDllMeSocTrig:
2181                         {
2182                                 // update cycle counter
2183                                 if (EplDllkInstance_g.m_DllConfigParam.m_uiMultiplCycleCnt > 0) {       // multiplexed cycle active
2184                                         EplDllkInstance_g.m_uiCycleCount =
2185                                             (EplDllkInstance_g.m_uiCycleCount +
2186                                              1) %
2187                                             EplDllkInstance_g.m_DllConfigParam.
2188                                             m_uiMultiplCycleCnt;
2189                                         // $$$ check multiplexed cycle restart
2190                                         //     -> toggle MC flag
2191                                         //     -> change node linked list
2192                                 } else {        // non-multiplexed cycle active
2193                                         // start with first node in isochronous phase
2194                                         EplDllkInstance_g.m_pCurNodeInfo = NULL;
2195                                 }
2196
2197                                 switch (EplDllkInstance_g.m_DllState) {
2198                                 case kEplDllMsNonCyclic:
2199                                         {       // start continuous cycle timer
2200 #if EPL_TIMER_USE_HIGHRES != FALSE
2201                                                 Ret =
2202                                                     EplTimerHighReskModifyTimerNs
2203                                                     (&EplDllkInstance_g.
2204                                                      m_TimerHdlCycle,
2205                                                      EplDllkInstance_g.
2206                                                      m_ullFrameTimeout,
2207                                                      EplDllkCbMnTimerCycle, 0L,
2208                                                      TRUE);
2209 #endif
2210                                                 // continue with sending SoC
2211                                         }
2212
2213                                 case kEplDllMsWaitAsnd:
2214                                 case kEplDllMsWaitSocTrig:
2215                                         {       // if m_LastReqServiceId is still valid,
2216                                                 // SoA was not correctly answered
2217                                                 // and user part has to be informed
2218                                                 Ret =
2219                                                     EplDllkAsyncFrameNotReceived
2220                                                     (EplDllkInstance_g.
2221                                                      m_LastReqServiceId,
2222                                                      EplDllkInstance_g.
2223                                                      m_uiLastTargetNodeId);
2224
2225                                                 // send SoC
2226                                                 Ret = EplDllkMnSendSoc();
2227
2228                                                 // new DLL state
2229                                                 EplDllkInstance_g.m_DllState =
2230                                                     kEplDllMsWaitPreqTrig;
2231
2232                                                 // start WaitSoCPReq Timer
2233 #if EPL_TIMER_USE_HIGHRES != FALSE
2234                                                 Ret =
2235                                                     EplTimerHighReskModifyTimerNs
2236                                                     (&EplDllkInstance_g.
2237                                                      m_TimerHdlResponse,
2238                                                      EplDllkInstance_g.
2239                                                      m_DllConfigParam.
2240                                                      m_dwWaitSocPreq,
2241                                                      EplDllkCbMnTimerResponse,
2242                                                      0L, FALSE);
2243 #endif
2244                                                 break;
2245                                         }
2246
2247                                 default:
2248                                         {       // wrong DLL state / cycle time exceeded
2249                                                 DllEvent.m_ulDllErrorEvents |=
2250                                                     EPL_DLL_ERR_MN_CYCTIMEEXCEED;
2251                                                 EplDllkInstance_g.m_DllState =
2252                                                     kEplDllMsWaitSocTrig;
2253                                                 break;
2254                                         }
2255                                 }
2256
2257                                 break;
2258                         }
2259
2260                 case kEplNmtEventDllMePresTimeout:
2261                         {
2262
2263                                 switch (EplDllkInstance_g.m_DllState) {
2264                                 case kEplDllMsWaitPres:
2265                                         {       // PRes not received
2266
2267                                                 if (EplDllkInstance_g.m_pCurNodeInfo->m_fSoftDelete == FALSE) { // normal isochronous CN
2268                                                         DllEvent.
2269                                                             m_ulDllErrorEvents
2270                                                             |=
2271                                                             EPL_DLL_ERR_MN_CN_LOSS_PRES;
2272                                                         DllEvent.m_uiNodeId =
2273                                                             EplDllkInstance_g.
2274                                                             m_pCurNodeInfo->
2275                                                             m_uiNodeId;
2276                                                 } else {        // CN shall be deleted softly
2277                                                         Event.m_EventSink =
2278                                                             kEplEventSinkDllkCal;
2279                                                         Event.m_EventType =
2280                                                             kEplEventTypeDllkSoftDelNode;
2281                                                         // $$$ d.k. set Event.m_NetTime to current time
2282                                                         Event.m_uiSize =
2283                                                             sizeof(unsigned
2284                                                                    int);
2285                                                         Event.m_pArg =
2286                                                             &EplDllkInstance_g.
2287                                                             m_pCurNodeInfo->
2288                                                             m_uiNodeId;
2289                                                         Ret =
2290                                                             EplEventkPost
2291                                                             (&Event);
2292                                                 }
2293
2294                                                 // continue with sending next PReq
2295                                         }
2296
2297                                 case kEplDllMsWaitPreqTrig:
2298                                         {
2299                                                 // send next PReq
2300                                                 Ret =
2301                                                     EplDllkMnSendPreq
2302                                                     (NmtState_p,
2303                                                      &EplDllkInstance_g.
2304                                                      m_DllState);
2305
2306                                                 break;
2307                                         }
2308
2309                                 default:
2310                                         {       // wrong DLL state
2311                                                 break;
2312                                         }
2313                                 }
2314
2315                                 break;
2316                         }
2317
2318                 case kEplNmtEventDllCePres:
2319                         {
2320
2321                                 switch (EplDllkInstance_g.m_DllState) {
2322                                 case kEplDllMsWaitPres:
2323                                         {       // PRes received
2324                                                 // send next PReq
2325                                                 Ret =
2326                                                     EplDllkMnSendPreq
2327                                                     (NmtState_p,
2328                                                      &EplDllkInstance_g.
2329                                                      m_DllState);
2330
2331                                                 break;
2332                                         }
2333
2334                                 default:
2335                                         {       // wrong DLL state
2336                                                 break;
2337                                         }
2338                                 }
2339
2340                                 break;
2341                         }
2342
2343                 case kEplNmtEventDllMeSoaTrig:
2344                         {
2345
2346                                 switch (EplDllkInstance_g.m_DllState) {
2347                                 case kEplDllMsWaitSoaTrig:
2348                                         {       // MN PRes sent
2349                                                 // send SoA
2350                                                 Ret =
2351                                                     EplDllkMnSendSoa(NmtState_p,
2352                                                                      &EplDllkInstance_g.
2353                                                                      m_DllState,
2354                                                                      TRUE);
2355
2356                                                 break;
2357                                         }
2358
2359                                 default:
2360                                         {       // wrong DLL state
2361                                                 break;
2362                                         }
2363                                 }
2364
2365                                 break;
2366                         }
2367
2368                 case kEplNmtEventDllCeAsnd:
2369                         {       // ASnd has been received, but it may be not the requested one
2370 /*
2371                     // report if SoA was correctly answered
2372                     Ret = EplDllkAsyncFrameNotReceived(EplDllkInstance_g.m_LastReqServiceId,
2373                                                        EplDllkInstance_g.m_uiLastTargetNodeId);
2374 */
2375                                 if (EplDllkInstance_g.m_DllState ==
2376                                     kEplDllMsWaitAsnd) {
2377                                         EplDllkInstance_g.m_DllState =
2378                                             kEplDllMsWaitSocTrig;
2379                                 }
2380                                 break;
2381                         }
2382
2383                 default:
2384                         break;
2385                 }
2386                 break;
2387 #endif //(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
2388
2389         default:
2390                 break;
2391         }
2392
2393         if (DllEvent.m_ulDllErrorEvents != 0) { // error event set -> post it to error handler
2394                 Event.m_EventSink = kEplEventSinkErrk;
2395                 Event.m_EventType = kEplEventTypeDllError;
2396                 // $$$ d.k. set Event.m_NetTime to current time
2397                 Event.m_uiSize = sizeof(DllEvent);
2398                 Event.m_pArg = &DllEvent;
2399                 Ret = EplEventkPost(&Event);
2400         }
2401
2402         return Ret;
2403 }
2404
2405 //---------------------------------------------------------------------------
2406 //
2407 // Function:    EplDllkCbFrameReceived()
2408 //
2409 // Description: called from EdrvInterruptHandler()
2410 //
2411 // Parameters:  pRxBuffer_p             = receive buffer structure
2412 //
2413 // Returns:     (none)
2414 //
2415 //
2416 // State:
2417 //
2418 //---------------------------------------------------------------------------
2419
2420 static void EplDllkCbFrameReceived(tEdrvRxBuffer * pRxBuffer_p)
2421 {
2422         tEplKernel Ret = kEplSuccessful;
2423         tEplNmtState NmtState;
2424         tEplNmtEvent NmtEvent = kEplNmtEventNoEvent;
2425         tEplEvent Event;
2426         tEplFrame *pFrame;
2427         tEplFrame *pTxFrame;
2428         tEdrvTxBuffer *pTxBuffer = NULL;
2429         tEplFrameInfo FrameInfo;
2430         tEplMsgType MsgType;
2431         tEplDllReqServiceId ReqServiceId;
2432         unsigned int uiAsndServiceId;
2433         unsigned int uiNodeId;
2434         BYTE bFlag1;
2435
2436         BENCHMARK_MOD_02_SET(3);
2437         NmtState = EplNmtkGetNmtState();
2438
2439         if (NmtState <= kEplNmtGsResetConfiguration) {
2440                 goto Exit;
2441         }
2442
2443         pFrame = (tEplFrame *) pRxBuffer_p->m_pbBuffer;
2444
2445 #if EDRV_EARLY_RX_INT != FALSE
2446         switch (pRxBuffer_p->m_BufferInFrame) {
2447         case kEdrvBufferFirstInFrame:
2448                 {
2449                         MsgType =
2450                             (tEplMsgType) AmiGetByteFromLe(&pFrame->
2451                                                            m_le_bMessageType);
2452                         if (MsgType == kEplMsgTypePreq) {
2453                                 if (EplDllkInstance_g.m_DllState == kEplDllCsWaitPreq) {        // PReq expected and actually received
2454                                         // d.k.: The condition above is sufficent, because EPL cycle is active
2455                                         //       and no non-EPL frame shall be received in isochronous phase.
2456                                         // start transmission PRes
2457                                         // $$$ What if Tx buffer is invalid?
2458                                         pTxBuffer =
2459                                             &EplDllkInstance_g.
2460                                             m_pTxBuffer[EPL_DLLK_TXFRAME_PRES];
2461 #if (EPL_DLL_PRES_READY_AFTER_SOA != FALSE) || (EPL_DLL_PRES_READY_AFTER_SOC != FALSE)
2462                                         Ret = EdrvTxMsgStart(pTxBuffer);
2463 #else
2464                                         pTxFrame =
2465                                             (tEplFrame *) pTxBuffer->m_pbBuffer;
2466                                         // update frame (NMT state, RD, RS, PR, MS, EN flags)
2467                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
2468                                                        m_le_bNmtStatus,
2469                                                        (BYTE) NmtState);
2470                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
2471                                                        m_le_bFlag2,
2472                                                        EplDllkInstance_g.
2473                                                        m_bFlag2);
2474                                         if (NmtState != kEplNmtCsOperational) { // mark PDO as invalid in NMT state Op
2475                                                 // $$$ reset only RD flag; set other flags appropriately
2476                                                 AmiSetByteToLe(&pTxFrame->
2477                                                                m_Data.m_Pres.
2478                                                                m_le_bFlag1, 0);
2479                                         }
2480                                         // $$$ make function that updates Pres, StatusRes
2481                                         // send PRes frame
2482                                         Ret = EdrvSendTxMsg(pTxBuffer);
2483 #endif
2484                                 }
2485                         }
2486                         goto Exit;
2487                 }
2488
2489         case kEdrvBufferMiddleInFrame:
2490                 {
2491                         goto Exit;
2492                 }
2493
2494         case kEdrvBufferLastInFrame:
2495                 {
2496                         break;
2497                 }
2498         }
2499 #endif
2500
2501         FrameInfo.m_pFrame = pFrame;
2502         FrameInfo.m_uiFrameSize = pRxBuffer_p->m_uiRxMsgLen;
2503         FrameInfo.m_NetTime.m_dwNanoSec = pRxBuffer_p->m_NetTime.m_dwNanoSec;
2504         FrameInfo.m_NetTime.m_dwSec = pRxBuffer_p->m_NetTime.m_dwSec;
2505
2506         if (AmiGetWordFromBe(&pFrame->m_be_wEtherType) != EPL_C_DLL_ETHERTYPE_EPL) {    // non-EPL frame
2507                 //TRACE2("EplDllkCbFrameReceived: pfnCbAsync=0x%p SrcMAC=0x%llx\n", EplDllkInstance_g.m_pfnCbAsync, AmiGetQword48FromBe(pFrame->m_be_abSrcMac));
2508                 if (EplDllkInstance_g.m_pfnCbAsync != NULL) {   // handler for async frames is registered
2509                         EplDllkInstance_g.m_pfnCbAsync(&FrameInfo);
2510                 }
2511
2512                 goto Exit;
2513         }
2514
2515         MsgType = (tEplMsgType) AmiGetByteFromLe(&pFrame->m_le_bMessageType);
2516         switch (MsgType) {
2517         case kEplMsgTypePreq:
2518                 {
2519                         // PReq frame
2520                         // d.k.: (we assume that this PReq frame is intended for us and don't check DstNodeId)
2521                         if (AmiGetByteFromLe(&pFrame->m_le_bDstNodeId) != EplDllkInstance_g.m_DllConfigParam.m_uiNodeId) {      // this PReq is not intended for us
2522                                 goto Exit;
2523                         }
2524                         NmtEvent = kEplNmtEventDllCePreq;
2525
2526                         if (NmtState >= kEplNmtMsNotActive) {   // MN is active -> wrong msg type
2527                                 break;
2528                         }
2529 #if EDRV_EARLY_RX_INT == FALSE
2530                         if (NmtState >= kEplNmtCsPreOperational2) {     // respond to and process PReq frames only in PreOp2, ReadyToOp and Op
2531                                 // Does PRes exist?
2532                                 pTxBuffer =
2533                                     &EplDllkInstance_g.
2534                                     m_pTxBuffer[EPL_DLLK_TXFRAME_PRES];
2535                                 if (pTxBuffer->m_pbBuffer != NULL) {    // PRes does exist
2536 #if (EPL_DLL_PRES_READY_AFTER_SOA != FALSE) || (EPL_DLL_PRES_READY_AFTER_SOC != FALSE)
2537                                         EdrvTxMsgStart(pTxBuffer);
2538 #else
2539                                         pTxFrame =
2540                                             (tEplFrame *) pTxBuffer->m_pbBuffer;
2541                                         // update frame (NMT state, RD, RS, PR, MS, EN flags)
2542                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
2543                                                        m_le_bNmtStatus,
2544                                                        (BYTE) NmtState);
2545                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
2546                                                        m_le_bFlag2,
2547                                                        EplDllkInstance_g.
2548                                                        m_bFlag2);
2549                                         bFlag1 =
2550                                             AmiGetByteFromLe(&pFrame->m_Data.
2551                                                              m_Preq.
2552                                                              m_le_bFlag1);
2553                                         // save EA flag
2554                                         EplDllkInstance_g.m_bMnFlag1 =
2555                                             (EplDllkInstance_g.
2556                                              m_bMnFlag1 & ~EPL_FRAME_FLAG1_EA)
2557                                             | (bFlag1 & EPL_FRAME_FLAG1_EA);
2558                                         // preserve MS flag
2559                                         bFlag1 &= EPL_FRAME_FLAG1_MS;
2560                                         // add EN flag from Error signaling module
2561                                         bFlag1 |=
2562                                             EplDllkInstance_g.
2563                                             m_bFlag1 & EPL_FRAME_FLAG1_EN;
2564                                         if (NmtState != kEplNmtCsOperational) { // mark PDO as invalid in NMT state Op
2565                                                 // reset only RD flag
2566                                                 AmiSetByteToLe(&pTxFrame->
2567                                                                m_Data.m_Pres.
2568                                                                m_le_bFlag1,
2569                                                                bFlag1);
2570                                         } else {        // leave RD flag untouched
2571                                                 AmiSetByteToLe(&pTxFrame->
2572                                                                m_Data.m_Pres.
2573                                                                m_le_bFlag1,
2574                                                                (AmiGetByteFromLe
2575                                                                 (&pTxFrame->
2576                                                                  m_Data.m_Pres.
2577                                                                  m_le_bFlag1) &
2578                                                                 EPL_FRAME_FLAG1_RD)
2579                                                                | bFlag1);
2580                                         }
2581                                         // $$$ update EPL_DLL_PRES_READY_AFTER_* code
2582                                         // send PRes frame
2583                                         Ret = EdrvSendTxMsg(pTxBuffer);
2584                                         if (Ret != kEplSuccessful) {
2585                                                 goto Exit;
2586                                         }
2587 #endif
2588                                 }
2589 #endif
2590                                 // inform PDO module
2591 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0)
2592                                 if (NmtState >= kEplNmtCsReadyToOperate) {      // inform PDO module only in ReadyToOp and Op
2593                                         if (NmtState != kEplNmtCsOperational) {
2594                                                 // reset RD flag and all other flags, but that does not matter, because they were processed above
2595                                                 AmiSetByteToLe(&pFrame->m_Data.
2596                                                                m_Preq.
2597                                                                m_le_bFlag1, 0);
2598                                         }
2599                                         // compares real frame size and PDO size
2600                                         if ((unsigned
2601                                              int)(AmiGetWordFromLe(&pFrame->
2602                                                                    m_Data.
2603                                                                    m_Preq.
2604                                                                    m_le_wSize) +
2605                                                   24)
2606                                             > FrameInfo.m_uiFrameSize) {        // format error
2607                                                 tEplErrorHandlerkEvent DllEvent;
2608
2609                                                 DllEvent.m_ulDllErrorEvents =
2610                                                     EPL_DLL_ERR_INVALID_FORMAT;
2611                                                 DllEvent.m_uiNodeId =
2612                                                     AmiGetByteFromLe(&pFrame->
2613                                                                      m_le_bSrcNodeId);
2614                                                 DllEvent.m_NmtState = NmtState;
2615                                                 Event.m_EventSink =
2616                                                     kEplEventSinkErrk;
2617                                                 Event.m_EventType =
2618                                                     kEplEventTypeDllError;
2619                                                 Event.m_NetTime =
2620                                                     FrameInfo.m_NetTime;
2621                                                 Event.m_uiSize =
2622                                                     sizeof(DllEvent);
2623                                                 Event.m_pArg = &DllEvent;
2624                                                 Ret = EplEventkPost(&Event);
2625                                                 break;
2626                                         }
2627                                         // forward PReq frame as RPDO to PDO module
2628                                         Ret = EplPdokCbPdoReceived(&FrameInfo);
2629
2630                                 }
2631 #if (EPL_DLL_PRES_READY_AFTER_SOC != FALSE)
2632                                 if (pTxBuffer->m_pbBuffer != NULL) {    // PRes does exist
2633                                         // inform PDO module about PRes after PReq
2634                                         FrameInfo.m_pFrame =
2635                                             (tEplFrame *) pTxBuffer->m_pbBuffer;
2636                                         FrameInfo.m_uiFrameSize =
2637                                             pTxBuffer->m_uiMaxBufferLen;
2638                                         Ret =
2639                                             EplPdokCbPdoTransmitted(&FrameInfo);
2640                                 }
2641 #endif
2642 #endif
2643
2644 #if EDRV_EARLY_RX_INT == FALSE
2645                                 // $$$ inform emergency protocol handling (error signaling module) about flags
2646                         }
2647 #endif
2648
2649                         // reset cycle counter
2650                         EplDllkInstance_g.m_uiCycleCount = 0;
2651
2652                         break;
2653                 }
2654
2655         case kEplMsgTypePres:
2656                 {
2657 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
2658                         tEplDllkNodeInfo *pIntNodeInfo;
2659                         tEplHeartbeatEvent HeartbeatEvent;
2660 #endif
2661
2662                         // PRes frame
2663                         NmtEvent = kEplNmtEventDllCePres;
2664
2665                         uiNodeId = AmiGetByteFromLe(&pFrame->m_le_bSrcNodeId);
2666
2667                         if ((NmtState >= kEplNmtCsPreOperational2)
2668                             && (NmtState <= kEplNmtCsOperational)) {    // process PRes frames only in PreOp2, ReadyToOp and Op of CN
2669
2670 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
2671                                 pIntNodeInfo = EplDllkGetNodeInfo(uiNodeId);
2672                                 if (pIntNodeInfo == NULL) {     // no node info structure available
2673                                         Ret = kEplDllNoNodeInfo;
2674                                         goto Exit;
2675                                 }
2676                         } else if (EplDllkInstance_g.m_DllState == kEplDllMsWaitPres) { // or process PRes frames in MsWaitPres
2677
2678                                 pIntNodeInfo = EplDllkInstance_g.m_pCurNodeInfo;
2679                                 if ((pIntNodeInfo == NULL) || (pIntNodeInfo->m_uiNodeId != uiNodeId)) { // ignore PRes, because it is from wrong CN
2680                                         // $$$ maybe post event to NmtMn module
2681                                         goto Exit;
2682                                 }
2683                                 // forward Flag2 to asynchronous scheduler
2684                                 bFlag1 =
2685                                     AmiGetByteFromLe(&pFrame->m_Data.m_Asnd.
2686                                                      m_Payload.m_StatusResponse.
2687                                                      m_le_bFlag2);
2688                                 Ret =
2689                                     EplDllkCalAsyncSetPendingRequests(uiNodeId,
2690                                                                       ((tEplDllAsyncReqPriority) ((bFlag1 & EPL_FRAME_FLAG2_PR) >> EPL_FRAME_FLAG2_PR_SHIFT)), (bFlag1 & EPL_FRAME_FLAG2_RS));
2691
2692 #endif
2693                         } else {        // ignore PRes, because it was received in wrong NMT state
2694                                 // but execute EplDllkChangeState() and post event to NMT module
2695                                 break;
2696                         }
2697
2698 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
2699                         {       // check NMT state of CN
2700                                 HeartbeatEvent.m_wErrorCode = EPL_E_NO_ERROR;
2701                                 HeartbeatEvent.m_NmtState =
2702                                     (tEplNmtState) (AmiGetByteFromLe
2703                                                     (&pFrame->m_Data.m_Pres.
2704                                                      m_le_bNmtStatus) |
2705                                                     EPL_NMT_TYPE_CS);
2706                                 if (pIntNodeInfo->m_NmtState != HeartbeatEvent.m_NmtState) {    // NMT state of CN has changed -> post event to NmtMnu module
2707                                         if (pIntNodeInfo->m_fSoftDelete == FALSE) {     // normal isochronous CN
2708                                                 HeartbeatEvent.m_uiNodeId =
2709                                                     uiNodeId;
2710                                                 Event.m_EventSink =
2711                                                     kEplEventSinkNmtMnu;
2712                                                 Event.m_EventType =
2713                                                     kEplEventTypeHeartbeat;
2714                                                 Event.m_uiSize =
2715                                                     sizeof(HeartbeatEvent);
2716                                                 Event.m_pArg = &HeartbeatEvent;
2717                                         } else {        // CN shall be deleted softly
2718                                                 Event.m_EventSink =
2719                                                     kEplEventSinkDllkCal;
2720                                                 Event.m_EventType =
2721                                                     kEplEventTypeDllkSoftDelNode;
2722                                                 Event.m_uiSize =
2723                                                     sizeof(unsigned int);
2724                                                 Event.m_pArg =
2725                                                     &pIntNodeInfo->m_uiNodeId;
2726                                         }
2727                                         Event.m_NetTime = FrameInfo.m_NetTime;
2728                                         Ret = EplEventkPost(&Event);
2729
2730                                         // save current NMT state of CN in internal node structure
2731                                         pIntNodeInfo->m_NmtState =
2732                                             HeartbeatEvent.m_NmtState;
2733                                 }
2734                         }
2735 #endif
2736
2737                         // inform PDO module
2738 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0)
2739                         if ((NmtState != kEplNmtCsPreOperational2)
2740                             && (NmtState != kEplNmtMsPreOperational2)) {        // inform PDO module only in ReadyToOp and Op
2741                                 // compare real frame size and PDO size?
2742                                 if (((unsigned
2743                                       int)(AmiGetWordFromLe(&pFrame->m_Data.
2744                                                             m_Pres.m_le_wSize) +
2745                                            24)
2746                                      > FrameInfo.m_uiFrameSize)
2747 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
2748                                     ||
2749                                     (AmiGetWordFromLe
2750                                      (&pFrame->m_Data.m_Pres.m_le_wSize) >
2751                                      pIntNodeInfo->m_wPresPayloadLimit)
2752 #endif
2753                                     ) { // format error
2754                                         tEplErrorHandlerkEvent DllEvent;
2755
2756                                         DllEvent.m_ulDllErrorEvents =
2757                                             EPL_DLL_ERR_INVALID_FORMAT;
2758                                         DllEvent.m_uiNodeId = uiNodeId;
2759                                         DllEvent.m_NmtState = NmtState;
2760                                         Event.m_EventSink = kEplEventSinkErrk;
2761                                         Event.m_EventType =
2762                                             kEplEventTypeDllError;
2763                                         Event.m_NetTime = FrameInfo.m_NetTime;
2764                                         Event.m_uiSize = sizeof(DllEvent);
2765                                         Event.m_pArg = &DllEvent;
2766                                         Ret = EplEventkPost(&Event);
2767                                         break;
2768                                 }
2769                                 if ((NmtState != kEplNmtCsOperational)
2770                                     && (NmtState != kEplNmtMsOperational)) {
2771                                         // reset RD flag and all other flags, but that does not matter, because they were processed above
2772                                         AmiSetByteToLe(&pFrame->m_Data.m_Pres.
2773                                                        m_le_bFlag1, 0);
2774                                 }
2775                                 Ret = EplPdokCbPdoReceived(&FrameInfo);
2776                         }
2777 #endif
2778
2779                         break;
2780                 }
2781
2782         case kEplMsgTypeSoc:
2783                 {
2784                         // SoC frame
2785                         NmtEvent = kEplNmtEventDllCeSoc;
2786
2787                         if (NmtState >= kEplNmtMsNotActive) {   // MN is active -> wrong msg type
2788                                 break;
2789                         }
2790 #if EPL_DLL_PRES_READY_AFTER_SOC != FALSE
2791                         // post PRes to transmit FIFO of the ethernet controller, but don't start
2792                         // transmission over bus
2793                         pTxBuffer =
2794                             &EplDllkInstance_g.
2795                             m_pTxBuffer[EPL_DLLK_TXFRAME_PRES];
2796                         // Does PRes exist?
2797                         if (pTxBuffer->m_pbBuffer != NULL) {    // PRes does exist
2798                                 pTxFrame = (tEplFrame *) pTxBuffer->m_pbBuffer;
2799                                 // update frame (NMT state, RD, RS, PR, MS, EN flags)
2800                                 if (NmtState < kEplNmtCsPreOperational2) {      // NMT state is not PreOp2, ReadyToOp or Op
2801                                         // fake NMT state PreOp2, because PRes will be sent only in PreOp2 or greater
2802                                         NmtState = kEplNmtCsPreOperational2;
2803                                 }
2804                                 AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
2805                                                m_le_bNmtStatus,
2806                                                (BYTE) NmtState);
2807                                 AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
2808                                                m_le_bFlag2,
2809                                                EplDllkInstance_g.m_bFlag2);
2810                                 if (NmtState != kEplNmtCsOperational) { // mark PDO as invalid in NMT state Op
2811                                         // $$$ reset only RD flag; set other flags appropriately
2812                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.
2813                                                        m_le_bFlag1, 0);
2814                                 }
2815                                 // $$$ make function that updates Pres, StatusRes
2816                                 // mark PRes frame as ready for transmission
2817                                 Ret = EdrvTxMsgReady(pTxBuffer);
2818                         }
2819 #endif
2820
2821                         if (NmtState >= kEplNmtCsPreOperational2) {     // SoC frames only in PreOp2, ReadyToOp and Op
2822                                 // trigger synchronous task
2823                                 Event.m_EventSink = kEplEventSinkSync;
2824                                 Event.m_EventType = kEplEventTypeSync;
2825                                 Event.m_uiSize = 0;
2826                                 Ret = EplEventkPost(&Event);
2827
2828                                 // update cycle counter
2829                                 if (EplDllkInstance_g.m_DllConfigParam.m_uiMultiplCycleCnt > 0) {       // multiplexed cycle active
2830                                         EplDllkInstance_g.m_uiCycleCount =
2831                                             (EplDllkInstance_g.m_uiCycleCount +
2832                                              1) %
2833                                             EplDllkInstance_g.m_DllConfigParam.
2834                                             m_uiMultiplCycleCnt;
2835                                 }
2836                         }
2837                         // reprogram timer
2838 #if EPL_TIMER_USE_HIGHRES != FALSE
2839                         if (EplDllkInstance_g.m_ullFrameTimeout != 0) {
2840                                 Ret =
2841                                     EplTimerHighReskModifyTimerNs
2842                                     (&EplDllkInstance_g.m_TimerHdlCycle,
2843                                      EplDllkInstance_g.m_ullFrameTimeout,
2844                                      EplDllkCbCnTimer, 0L, FALSE);
2845                         }
2846 #endif
2847
2848                         break;
2849                 }
2850
2851         case kEplMsgTypeSoa:
2852                 {
2853                         // SoA frame
2854                         NmtEvent = kEplNmtEventDllCeSoa;
2855
2856                         if (NmtState >= kEplNmtMsNotActive) {   // MN is active -> wrong msg type
2857                                 break;
2858                         }
2859
2860                         pTxFrame = NULL;
2861
2862                         if ((NmtState & EPL_NMT_SUPERSTATE_MASK) != EPL_NMT_CS_EPLMODE) {       // do not respond, if NMT state is < PreOp1 (i.e. not EPL_MODE)
2863                                 break;
2864                         }
2865                         // check TargetNodeId
2866                         uiNodeId =
2867                             AmiGetByteFromLe(&pFrame->m_Data.m_Soa.
2868                                              m_le_bReqServiceTarget);
2869                         if (uiNodeId == EplDllkInstance_g.m_DllConfigParam.m_uiNodeId) {        // local node is the target of the current request
2870
2871                                 // check ServiceId
2872                                 ReqServiceId =
2873                                     (tEplDllReqServiceId)
2874                                     AmiGetByteFromLe(&pFrame->m_Data.m_Soa.
2875                                                      m_le_bReqServiceId);
2876                                 if (ReqServiceId == kEplDllReqServiceStatus) {  // StatusRequest
2877                                         if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_STATUSRES].m_pbBuffer != NULL) {     // StatusRes does exist
2878
2879                                                 pTxFrame =
2880                                                     (tEplFrame *)
2881                                                     EplDllkInstance_g.
2882                                                     m_pTxBuffer
2883                                                     [EPL_DLLK_TXFRAME_STATUSRES].
2884                                                     m_pbBuffer;
2885                                                 // update StatusRes frame (NMT state, EN, EC, RS, PR flags)
2886                                                 AmiSetByteToLe(&pTxFrame->
2887                                                                m_Data.m_Asnd.
2888                                                                m_Payload.
2889                                                                m_StatusResponse.
2890                                                                m_le_bNmtStatus,
2891                                                                (BYTE) NmtState);
2892                                                 AmiSetByteToLe(&pTxFrame->
2893                                                                m_Data.m_Asnd.
2894                                                                m_Payload.
2895                                                                m_StatusResponse.
2896                                                                m_le_bFlag1,
2897                                                                EplDllkInstance_g.
2898                                                                m_bFlag1);
2899                                                 AmiSetByteToLe(&pTxFrame->
2900                                                                m_Data.m_Asnd.
2901                                                                m_Payload.
2902                                                                m_StatusResponse.
2903                                                                m_le_bFlag2,
2904                                                                EplDllkInstance_g.
2905                                                                m_bFlag2);
2906                                                 // send StatusRes
2907                                                 Ret =
2908                                                     EdrvSendTxMsg
2909                                                     (&EplDllkInstance_g.
2910                                                      m_pTxBuffer
2911                                                      [EPL_DLLK_TXFRAME_STATUSRES]);
2912                                                 if (Ret != kEplSuccessful) {
2913                                                         goto Exit;
2914                                                 }
2915                                                 TGT_DBG_SIGNAL_TRACE_POINT(8);
2916
2917                                                 // update error signaling
2918                                                 bFlag1 =
2919                                                     AmiGetByteFromLe(&pFrame->
2920                                                                      m_Data.
2921                                                                      m_Soa.
2922                                                                      m_le_bFlag1);
2923                                                 if (((bFlag1 ^ EplDllkInstance_g.m_bMnFlag1) & EPL_FRAME_FLAG1_ER) != 0) {      // exception reset flag was changed by MN
2924                                                         // assume same state for EC in next cycle (clear all other bits)
2925                                                         if ((bFlag1 &
2926                                                              EPL_FRAME_FLAG1_ER)
2927                                                             != 0) {
2928                                                                 // set EC and reset rest
2929                                                                 EplDllkInstance_g.
2930                                                                     m_bFlag1 =
2931                                                                     EPL_FRAME_FLAG1_EC;
2932                                                         } else {
2933                                                                 // reset complete flag 1 (including EC and EN)
2934                                                                 EplDllkInstance_g.
2935                                                                     m_bFlag1 =
2936                                                                     0;
2937                                                         }
2938                                                 }
2939                                                 // save flag 1 from MN for Status request response cycle
2940                                                 EplDllkInstance_g.m_bMnFlag1 =
2941                                                     bFlag1;
2942                                         }
2943                                 } else if (ReqServiceId == kEplDllReqServiceIdent) {    // IdentRequest
2944                                         if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_IDENTRES].m_pbBuffer != NULL) {      // IdentRes does exist
2945                                                 pTxFrame =
2946                                                     (tEplFrame *)
2947                                                     EplDllkInstance_g.
2948                                                     m_pTxBuffer
2949                                                     [EPL_DLLK_TXFRAME_IDENTRES].
2950                                                     m_pbBuffer;
2951                                                 // update IdentRes frame (NMT state, RS, PR flags)
2952                                                 AmiSetByteToLe(&pTxFrame->
2953                                                                m_Data.m_Asnd.
2954                                                                m_Payload.
2955                                                                m_IdentResponse.
2956                                                                m_le_bNmtStatus,
2957                                                                (BYTE) NmtState);
2958                                                 AmiSetByteToLe(&pTxFrame->
2959                                                                m_Data.m_Asnd.
2960                                                                m_Payload.
2961                                                                m_IdentResponse.
2962                                                                m_le_bFlag2,
2963                                                                EplDllkInstance_g.
2964                                                                m_bFlag2);
2965                                                 // send IdentRes
2966                                                 Ret =
2967                                                     EdrvSendTxMsg
2968                                                     (&EplDllkInstance_g.
2969                                                      m_pTxBuffer
2970                                                      [EPL_DLLK_TXFRAME_IDENTRES]);
2971                                                 if (Ret != kEplSuccessful) {
2972                                                         goto Exit;
2973                                                 }
2974                                                 TGT_DBG_SIGNAL_TRACE_POINT(7);
2975                                         }
2976                                 } else if (ReqServiceId == kEplDllReqServiceNmtRequest) {       // NmtRequest
2977                                         if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_pbBuffer != NULL) {        // NmtRequest does exist
2978                                                 // check if frame is not empty and not being filled
2979                                                 if (EplDllkInstance_g.
2980                                                     m_pTxBuffer
2981                                                     [EPL_DLLK_TXFRAME_NMTREQ].
2982                                                     m_uiTxMsgLen >
2983                                                     EPL_DLLK_BUFLEN_FILLING) {
2984                                                         /*if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_uiTxMsgLen < EPL_DLLK_BUFLEN_MIN)
2985                                                            {   // pad frame
2986                                                            EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_uiTxMsgLen = EPL_DLLK_BUFLEN_MIN;
2987                                                            } */
2988                                                         // memorize transmission
2989                                                         pTxFrame =
2990                                                             (tEplFrame *) 1;
2991                                                         // send NmtRequest
2992                                                         Ret =
2993                                                             EdrvSendTxMsg
2994                                                             (&EplDllkInstance_g.
2995                                                              m_pTxBuffer
2996                                                              [EPL_DLLK_TXFRAME_NMTREQ]);
2997                                                         if (Ret !=
2998                                                             kEplSuccessful) {
2999                                                                 goto Exit;
3000                                                         }
3001
3002                                                 }
3003                                         }
3004
3005                                 } else if (ReqServiceId == kEplDllReqServiceUnspecified) {      // unspecified invite
3006                                         if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NONEPL].m_pbBuffer != NULL) {        // non-EPL frame does exist
3007                                                 // check if frame is not empty and not being filled
3008                                                 if (EplDllkInstance_g.
3009                                                     m_pTxBuffer
3010                                                     [EPL_DLLK_TXFRAME_NONEPL].
3011                                                     m_uiTxMsgLen >
3012                                                     EPL_DLLK_BUFLEN_FILLING) {
3013                                                         /*if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_uiTxMsgLen < EPL_DLLK_BUFLEN_MIN)
3014                                                            {   // pad frame
3015                                                            EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_uiTxMsgLen = EPL_DLLK_BUFLEN_MIN;
3016                                                            } */
3017                                                         // memorize transmission
3018                                                         pTxFrame =
3019                                                             (tEplFrame *) 1;
3020                                                         // send non-EPL frame
3021                                                         Ret =
3022                                                             EdrvSendTxMsg
3023                                                             (&EplDllkInstance_g.
3024                                                              m_pTxBuffer
3025                                                              [EPL_DLLK_TXFRAME_NONEPL]);
3026                                                         if (Ret !=
3027                                                             kEplSuccessful) {
3028                                                                 goto Exit;
3029                                                         }
3030
3031                                                 }
3032                                         }
3033
3034                                 } else if (ReqServiceId == kEplDllReqServiceNo) {       // no async service requested -> do nothing
3035                                 }
3036                         }
3037 #if EPL_DLL_PRES_READY_AFTER_SOA != FALSE
3038                         if (pTxFrame == NULL) { // signal process function readiness of PRes frame
3039                                 Event.m_EventSink = kEplEventSinkDllk;
3040                                 Event.m_EventType = kEplEventTypeDllkPresReady;
3041                                 Event.m_uiSize = 0;
3042                                 Event.m_pArg = NULL;
3043                                 Ret = EplEventkPost(&Event);
3044                         }
3045 #endif
3046
3047                         // inform PDO module
3048 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0)
3049 //            Ret = EplPdokCbSoa(&FrameInfo);
3050 #endif
3051
3052                         // $$$ put SrcNodeId, NMT state and NetTime as HeartbeatEvent into eventqueue
3053
3054                         // $$$ inform emergency protocol handling about flags
3055                         break;
3056                 }
3057
3058         case kEplMsgTypeAsnd:
3059                 {
3060                         // ASnd frame
3061                         NmtEvent = kEplNmtEventDllCeAsnd;
3062
3063                         // ASnd service registered?
3064                         uiAsndServiceId =
3065                             (unsigned int)AmiGetByteFromLe(&pFrame->m_Data.
3066                                                            m_Asnd.
3067                                                            m_le_bServiceId);
3068
3069 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
3070                         if ((EplDllkInstance_g.m_DllState >= kEplDllMsNonCyclic)
3071                             &&
3072                             ((((tEplDllAsndServiceId) uiAsndServiceId) ==
3073                               kEplDllAsndStatusResponse)
3074                              || (((tEplDllAsndServiceId) uiAsndServiceId) == kEplDllAsndIdentResponse))) {      // StatusRes or IdentRes received
3075                                 uiNodeId =
3076                                     AmiGetByteFromLe(&pFrame->m_le_bSrcNodeId);
3077                                 if ((EplDllkInstance_g.m_LastReqServiceId ==
3078                                      ((tEplDllReqServiceId) uiAsndServiceId))
3079                                     && (uiNodeId == EplDllkInstance_g.m_uiLastTargetNodeId)) {  // mark request as responded
3080                                         EplDllkInstance_g.m_LastReqServiceId =
3081                                             kEplDllReqServiceNo;
3082                                 }
3083                                 if (((tEplDllAsndServiceId) uiAsndServiceId) == kEplDllAsndIdentResponse) {     // memorize MAC address of CN for PReq
3084                                         tEplDllkNodeInfo *pIntNodeInfo;
3085
3086                                         pIntNodeInfo =
3087                                             EplDllkGetNodeInfo(uiNodeId);
3088                                         if (pIntNodeInfo == NULL) {     // no node info structure available
3089                                                 Ret = kEplDllNoNodeInfo;
3090                                         } else {
3091                                                 EPL_MEMCPY(pIntNodeInfo->
3092                                                            m_be_abMacAddr,
3093                                                            pFrame->
3094                                                            m_be_abSrcMac, 6);
3095                                         }
3096                                 }
3097                                 // forward Flag2 to asynchronous scheduler
3098                                 bFlag1 =
3099                                     AmiGetByteFromLe(&pFrame->m_Data.m_Asnd.
3100                                                      m_Payload.m_StatusResponse.
3101                                                      m_le_bFlag2);
3102                                 Ret =
3103                                     EplDllkCalAsyncSetPendingRequests(uiNodeId,
3104                                                                       ((tEplDllAsyncReqPriority) ((bFlag1 & EPL_FRAME_FLAG2_PR) >> EPL_FRAME_FLAG2_PR_SHIFT)), (bFlag1 & EPL_FRAME_FLAG2_RS));
3105                         }
3106 #endif
3107
3108                         if (uiAsndServiceId < EPL_DLL_MAX_ASND_SERVICE_ID) {    // ASnd service ID is valid
3109                                 if (EplDllkInstance_g.m_aAsndFilter[uiAsndServiceId] == kEplDllAsndFilterAny) { // ASnd service ID is registered
3110                                         // forward frame via async receive FIFO to userspace
3111                                         Ret =
3112                                             EplDllkCalAsyncFrameReceived
3113                                             (&FrameInfo);
3114                                 } else if (EplDllkInstance_g.m_aAsndFilter[uiAsndServiceId] == kEplDllAsndFilterLocal) {        // ASnd service ID is registered, but only local node ID or broadcasts
3115                                         // shall be forwarded
3116                                         uiNodeId =
3117                                             AmiGetByteFromLe(&pFrame->
3118                                                              m_le_bDstNodeId);
3119                                         if ((uiNodeId ==
3120                                              EplDllkInstance_g.m_DllConfigParam.
3121                                              m_uiNodeId)
3122                                             || (uiNodeId == EPL_C_ADR_BROADCAST)) {     // ASnd frame is intended for us
3123                                                 // forward frame via async receive FIFO to userspace
3124                                                 Ret =
3125                                                     EplDllkCalAsyncFrameReceived
3126                                                     (&FrameInfo);
3127                                         }
3128                                 }
3129                         }
3130                         break;
3131                 }
3132
3133         default:
3134                 {
3135                         break;
3136                 }
3137         }
3138
3139         if (NmtEvent != kEplNmtEventNoEvent) {  // event for DLL and NMT state machine generated
3140                 Ret = EplDllkChangeState(NmtEvent, NmtState);
3141                 if (Ret != kEplSuccessful) {
3142                         goto Exit;
3143                 }
3144
3145                 if ((NmtEvent != kEplNmtEventDllCeAsnd)
3146                     && ((NmtState <= kEplNmtCsPreOperational1) || (NmtEvent != kEplNmtEventDllCePres))) {       // NMT state machine is not interested in ASnd frames and PRes frames when not CsNotActive or CsPreOp1
3147                         // inform NMT module
3148                         Event.m_EventSink = kEplEventSinkNmtk;
3149                         Event.m_EventType = kEplEventTypeNmtEvent;
3150                         Event.m_uiSize = sizeof(NmtEvent);
3151                         Event.m_pArg = &NmtEvent;
3152                         Ret = EplEventkPost(&Event);
3153                 }
3154         }
3155
3156       Exit:
3157         if (Ret != kEplSuccessful) {
3158                 DWORD dwArg;
3159
3160                 BENCHMARK_MOD_02_TOGGLE(9);
3161
3162                 dwArg = EplDllkInstance_g.m_DllState | (NmtEvent << 8);
3163
3164                 // Error event for API layer
3165                 Ret = EplEventkPostError(kEplEventSourceDllk,
3166                                          Ret, sizeof(dwArg), &dwArg);
3167         }
3168         BENCHMARK_MOD_02_RESET(3);
3169         return;
3170 }
3171
3172 //---------------------------------------------------------------------------
3173 //
3174 // Function:    EplDllkCbFrameTransmitted()
3175 //
3176 // Description: called from EdrvInterruptHandler().
3177 //              It signals
3178 //
3179 // Parameters:  pRxBuffer_p             = receive buffer structure
3180 //
3181 // Returns:     (none)
3182 //
3183 //
3184 // State:
3185 //
3186 //---------------------------------------------------------------------------
3187
3188 static void EplDllkCbFrameTransmitted(tEdrvTxBuffer * pTxBuffer_p)
3189 {
3190         tEplKernel Ret = kEplSuccessful;
3191         tEplEvent Event;
3192         tEplDllAsyncReqPriority Priority;
3193         tEplNmtState NmtState;
3194
3195 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0) \
3196     && (EPL_DLL_PRES_READY_AFTER_SOC == FALSE)
3197         tEplFrameInfo FrameInfo;
3198 #endif
3199
3200         NmtState = EplNmtkGetNmtState();
3201
3202         if (NmtState <= kEplNmtGsResetConfiguration) {
3203                 goto Exit;
3204         }
3205
3206         if ((pTxBuffer_p - EplDllkInstance_g.m_pTxBuffer) == EPL_DLLK_TXFRAME_NMTREQ) { // frame from NMT request FIFO sent
3207                 // mark Tx-buffer as empty
3208                 pTxBuffer_p->m_uiTxMsgLen = EPL_DLLK_BUFLEN_EMPTY;
3209
3210                 // post event to DLL
3211                 Priority = kEplDllAsyncReqPrioNmt;
3212                 Event.m_EventSink = kEplEventSinkDllk;
3213                 Event.m_EventType = kEplEventTypeDllkFillTx;
3214                 EPL_MEMSET(&Event.m_NetTime, 0x00, sizeof(Event.m_NetTime));
3215                 Event.m_pArg = &Priority;
3216                 Event.m_uiSize = sizeof(Priority);
3217                 Ret = EplEventkPost(&Event);
3218         } else if ((pTxBuffer_p - EplDllkInstance_g.m_pTxBuffer) == EPL_DLLK_TXFRAME_NONEPL) {  // frame from generic priority FIFO sent
3219                 // mark Tx-buffer as empty
3220                 pTxBuffer_p->m_uiTxMsgLen = EPL_DLLK_BUFLEN_EMPTY;
3221
3222                 // post event to DLL
3223                 Priority = kEplDllAsyncReqPrioGeneric;
3224                 Event.m_EventSink = kEplEventSinkDllk;
3225                 Event.m_EventType = kEplEventTypeDllkFillTx;
3226                 EPL_MEMSET(&Event.m_NetTime, 0x00, sizeof(Event.m_NetTime));
3227                 Event.m_pArg = &Priority;
3228                 Event.m_uiSize = sizeof(Priority);
3229                 Ret = EplEventkPost(&Event);
3230         }
3231 #if ((((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0) \
3232     && (EPL_DLL_PRES_READY_AFTER_SOC == FALSE)) \
3233     || (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
3234         else if ((pTxBuffer_p->m_EplMsgType == kEplMsgTypePreq)
3235                  || (pTxBuffer_p->m_EplMsgType == kEplMsgTypePres)) {   // PRes resp. PReq frame sent
3236
3237 #if ((((EPL_MODULE_INTEGRATION) & (EPL_MODULE_PDOK)) != 0) \
3238             && (EPL_DLL_PRES_READY_AFTER_SOC == FALSE))
3239                 {
3240                         // inform PDO module
3241                         FrameInfo.m_pFrame =
3242                             (tEplFrame *) pTxBuffer_p->m_pbBuffer;
3243                         FrameInfo.m_uiFrameSize = pTxBuffer_p->m_uiMaxBufferLen;
3244                         Ret = EplPdokCbPdoTransmitted(&FrameInfo);
3245                 }
3246 #endif
3247
3248 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
3249                 {
3250                         // if own Pres on MN, trigger SoA
3251                         if ((NmtState >= kEplNmtMsPreOperational2)
3252                             && (pTxBuffer_p ==
3253                                 &EplDllkInstance_g.
3254                                 m_pTxBuffer[EPL_DLLK_TXFRAME_PRES])) {
3255                                 Ret =
3256                                     EplDllkChangeState(kEplNmtEventDllMeSoaTrig,
3257                                                        NmtState);
3258                         }
3259                 }
3260 #endif
3261
3262 #if EPL_DLL_PRES_READY_AFTER_SOA != FALSE
3263                 goto Exit;
3264 #endif
3265         }
3266 #endif
3267 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
3268         else if (pTxBuffer_p->m_EplMsgType == kEplMsgTypeSoa) { // SoA frame sent
3269                 tEplNmtEvent NmtEvent = kEplNmtEventDllMeSoaSent;
3270
3271                 // check if we are invited
3272                 if (EplDllkInstance_g.m_uiLastTargetNodeId ==
3273                     EplDllkInstance_g.m_DllConfigParam.m_uiNodeId) {
3274                         tEplFrame *pTxFrame;
3275
3276                         if (EplDllkInstance_g.m_LastReqServiceId == kEplDllReqServiceStatus) {  // StatusRequest
3277                                 if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_STATUSRES].m_pbBuffer != NULL) {     // StatusRes does exist
3278
3279                                         pTxFrame =
3280                                             (tEplFrame *) EplDllkInstance_g.
3281                                             m_pTxBuffer
3282                                             [EPL_DLLK_TXFRAME_STATUSRES].
3283                                             m_pbBuffer;
3284                                         // update StatusRes frame (NMT state, EN, EC, RS, PR flags)
3285                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Asnd.
3286                                                        m_Payload.
3287                                                        m_StatusResponse.
3288                                                        m_le_bNmtStatus,
3289                                                        (BYTE) NmtState);
3290                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Asnd.
3291                                                        m_Payload.
3292                                                        m_StatusResponse.
3293                                                        m_le_bFlag1,
3294                                                        EplDllkInstance_g.
3295                                                        m_bFlag1);
3296                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Asnd.
3297                                                        m_Payload.
3298                                                        m_StatusResponse.
3299                                                        m_le_bFlag2,
3300                                                        EplDllkInstance_g.
3301                                                        m_bFlag2);
3302                                         // send StatusRes
3303                                         Ret =
3304                                             EdrvSendTxMsg(&EplDllkInstance_g.
3305                                                           m_pTxBuffer
3306                                                           [EPL_DLLK_TXFRAME_STATUSRES]);
3307                                         if (Ret != kEplSuccessful) {
3308                                                 goto Exit;
3309                                         }
3310                                         TGT_DBG_SIGNAL_TRACE_POINT(8);
3311
3312                                 }
3313                         } else if (EplDllkInstance_g.m_LastReqServiceId == kEplDllReqServiceIdent) {    // IdentRequest
3314                                 if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_IDENTRES].m_pbBuffer != NULL) {      // IdentRes does exist
3315                                         pTxFrame =
3316                                             (tEplFrame *) EplDllkInstance_g.
3317                                             m_pTxBuffer
3318                                             [EPL_DLLK_TXFRAME_IDENTRES].
3319                                             m_pbBuffer;
3320                                         // update IdentRes frame (NMT state, RS, PR flags)
3321                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Asnd.
3322                                                        m_Payload.
3323                                                        m_IdentResponse.
3324                                                        m_le_bNmtStatus,
3325                                                        (BYTE) NmtState);
3326                                         AmiSetByteToLe(&pTxFrame->m_Data.m_Asnd.
3327                                                        m_Payload.
3328                                                        m_IdentResponse.
3329                                                        m_le_bFlag2,
3330                                                        EplDllkInstance_g.
3331                                                        m_bFlag2);
3332                                         // send IdentRes
3333                                         Ret =
3334                                             EdrvSendTxMsg(&EplDllkInstance_g.
3335                                                           m_pTxBuffer
3336                                                           [EPL_DLLK_TXFRAME_IDENTRES]);
3337                                         if (Ret != kEplSuccessful) {
3338                                                 goto Exit;
3339                                         }
3340                                         TGT_DBG_SIGNAL_TRACE_POINT(7);
3341                                 }
3342                         } else if (EplDllkInstance_g.m_LastReqServiceId == kEplDllReqServiceNmtRequest) {       // NmtRequest
3343                                 if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NMTREQ].m_pbBuffer != NULL) {        // NmtRequest does exist
3344                                         // check if frame is not empty and not being filled
3345                                         if (EplDllkInstance_g.
3346                                             m_pTxBuffer
3347                                             [EPL_DLLK_TXFRAME_NMTREQ].
3348                                             m_uiTxMsgLen >
3349                                             EPL_DLLK_BUFLEN_FILLING) {
3350                                                 // check if this frame is a NMT command,
3351                                                 // then forward this frame back to NmtMnu module,
3352                                                 // because it needs the time, when this frame is
3353                                                 // actually sent, to start the timer for monitoring
3354                                                 // the NMT state change.
3355
3356                                                 pTxFrame =
3357                                                     (tEplFrame *)
3358                                                     EplDllkInstance_g.
3359                                                     m_pTxBuffer
3360                                                     [EPL_DLLK_TXFRAME_NMTREQ].
3361                                                     m_pbBuffer;
3362                                                 if ((AmiGetByteFromLe
3363                                                      (&pTxFrame->
3364                                                       m_le_bMessageType)
3365                                                      == (BYTE) kEplMsgTypeAsnd)
3366                                                     &&
3367                                                     (AmiGetByteFromLe
3368                                                      (&pTxFrame->m_Data.m_Asnd.
3369                                                       m_le_bServiceId)
3370                                                      == (BYTE) kEplDllAsndNmtCommand)) {        // post event directly to NmtMnu module
3371                                                         Event.m_EventSink =
3372                                                             kEplEventSinkNmtMnu;
3373                                                         Event.m_EventType =
3374                                                             kEplEventTypeNmtMnuNmtCmdSent;
3375                                                         Event.m_uiSize =
3376                                                             EplDllkInstance_g.
3377                                                             m_pTxBuffer
3378                                                             [EPL_DLLK_TXFRAME_NMTREQ].
3379                                                             m_uiTxMsgLen;
3380                                                         Event.m_pArg = pTxFrame;
3381                                                         Ret =
3382                                                             EplEventkPost
3383                                                             (&Event);
3384
3385                                                 }
3386                                                 // send NmtRequest
3387                                                 Ret =
3388                                                     EdrvSendTxMsg
3389                                                     (&EplDllkInstance_g.
3390                                                      m_pTxBuffer
3391                                                      [EPL_DLLK_TXFRAME_NMTREQ]);
3392                                                 if (Ret != kEplSuccessful) {
3393                                                         goto Exit;
3394                                                 }
3395
3396                                         }
3397                                 }
3398
3399                         } else if (EplDllkInstance_g.m_LastReqServiceId == kEplDllReqServiceUnspecified) {      // unspecified invite
3400                                 if (EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_NONEPL].m_pbBuffer != NULL) {        // non-EPL frame does exist
3401                                         // check if frame is not empty and not being filled
3402                                         if (EplDllkInstance_g.
3403                                             m_pTxBuffer
3404                                             [EPL_DLLK_TXFRAME_NONEPL].
3405                                             m_uiTxMsgLen >
3406                                             EPL_DLLK_BUFLEN_FILLING) {
3407                                                 // send non-EPL frame
3408                                                 Ret =
3409                                                     EdrvSendTxMsg
3410                                                     (&EplDllkInstance_g.
3411                                                      m_pTxBuffer
3412                                                      [EPL_DLLK_TXFRAME_NONEPL]);
3413                                                 if (Ret != kEplSuccessful) {
3414                                                         goto Exit;
3415                                                 }
3416
3417                                         }
3418                                 }
3419                         }
3420                         // ASnd frame was sent, remove the request
3421                         EplDllkInstance_g.m_LastReqServiceId =
3422                             kEplDllReqServiceNo;
3423                 }
3424                 // forward event to ErrorHandler and PDO module
3425                 Event.m_EventSink = kEplEventSinkNmtk;
3426                 Event.m_EventType = kEplEventTypeNmtEvent;
3427                 Event.m_uiSize = sizeof(NmtEvent);
3428                 Event.m_pArg = &NmtEvent;
3429                 Ret = EplEventkPost(&Event);
3430                 if (Ret != kEplSuccessful) {
3431                         goto Exit;
3432                 }
3433         }
3434 #endif
3435
3436 #if EPL_DLL_PRES_READY_AFTER_SOA != FALSE
3437         else {                  // d.k.: Why that else? on CN it is entered on IdentRes and StatusRes
3438                 goto Exit;
3439         }
3440
3441         // signal process function readiness of PRes frame
3442         Event.m_EventSink = kEplEventSinkDllk;
3443         Event.m_EventType = kEplEventTypeDllkPresReady;
3444         Event.m_uiSize = 0;
3445         Event.m_pArg = NULL;
3446         Ret = EplEventkPost(&Event);
3447
3448 #endif
3449
3450       Exit:
3451         if (Ret != kEplSuccessful) {
3452                 DWORD dwArg;
3453
3454                 BENCHMARK_MOD_02_TOGGLE(9);
3455
3456                 dwArg =
3457                     EplDllkInstance_g.m_DllState | (pTxBuffer_p->
3458                                                     m_EplMsgType << 16);
3459
3460                 // Error event for API layer
3461                 Ret = EplEventkPostError(kEplEventSourceDllk,
3462                                          Ret, sizeof(dwArg), &dwArg);
3463         }
3464
3465         return;
3466 }
3467
3468 //---------------------------------------------------------------------------
3469 //
3470 // Function:    EplDllkCheckFrame()
3471 //
3472 // Description: check frame and set missing information
3473 //
3474 // Parameters:  pFrame_p                = ethernet frame
3475 //              uiFrameSize_p           = size of frame
3476 //
3477 // Returns:     tEplKernel              = error code
3478 //
3479 //
3480 // State:
3481 //
3482 //---------------------------------------------------------------------------
3483
3484 static tEplKernel EplDllkCheckFrame(tEplFrame * pFrame_p,
3485                                     unsigned int uiFrameSize_p)
3486 {
3487         tEplMsgType MsgType;
3488         WORD wEtherType;
3489
3490         // check frame
3491         if (pFrame_p != NULL) {
3492                 // check SrcMAC
3493                 if (AmiGetQword48FromBe(pFrame_p->m_be_abSrcMac) == 0) {
3494                         // source MAC address
3495                         EPL_MEMCPY(&pFrame_p->m_be_abSrcMac[0],
3496                                    &EplDllkInstance_g.m_be_abSrcMac[0], 6);
3497                 }
3498                 // check ethertype
3499                 wEtherType = AmiGetWordFromBe(&pFrame_p->m_be_wEtherType);
3500                 if (wEtherType == 0) {
3501                         // assume EPL frame
3502                         wEtherType = EPL_C_DLL_ETHERTYPE_EPL;
3503                         AmiSetWordToBe(&pFrame_p->m_be_wEtherType, wEtherType);
3504                 }
3505
3506                 if (wEtherType == EPL_C_DLL_ETHERTYPE_EPL) {
3507                         // source node ID
3508                         AmiSetByteToLe(&pFrame_p->m_le_bSrcNodeId,
3509                                        (BYTE) EplDllkInstance_g.
3510                                        m_DllConfigParam.m_uiNodeId);
3511
3512                         // check message type
3513                         MsgType =
3514                             AmiGetByteFromLe(&pFrame_p->m_le_bMessageType);
3515                         if (MsgType == 0) {
3516                                 MsgType = kEplMsgTypeAsnd;
3517                                 AmiSetByteToLe(&pFrame_p->m_le_bMessageType,
3518                                                (BYTE) MsgType);
3519                         }
3520
3521                         if (MsgType == kEplMsgTypeAsnd) {
3522                                 // destination MAC address
3523                                 AmiSetQword48ToBe(&pFrame_p->m_be_abDstMac[0],
3524                                                   EPL_C_DLL_MULTICAST_ASND);
3525                         }
3526
3527                 }
3528         }
3529
3530         return kEplSuccessful;
3531 }
3532
3533 //---------------------------------------------------------------------------
3534 //
3535 // Function:    EplDllkCbCnTimer()
3536 //
3537 // Description: called by timer module. It monitors the EPL cycle when it is a CN.
3538 //
3539 // Parameters:  pEventArg_p             = timer event argument
3540 //
3541 // Returns:     tEplKernel              = error code
3542 //
3543 //
3544 // State:
3545 //
3546 //---------------------------------------------------------------------------
3547
3548 #if EPL_TIMER_USE_HIGHRES != FALSE
3549 static tEplKernel PUBLIC EplDllkCbCnTimer(tEplTimerEventArg * pEventArg_p)
3550 {
3551         tEplKernel Ret = kEplSuccessful;
3552         tEplNmtState NmtState;
3553
3554 #if EPL_TIMER_USE_HIGHRES != FALSE
3555         if (pEventArg_p->m_TimerHdl != EplDllkInstance_g.m_TimerHdlCycle) {     // zombie callback
3556                 // just exit
3557                 goto Exit;
3558         }
3559 #endif
3560
3561         NmtState = EplNmtkGetNmtState();
3562
3563         if (NmtState <= kEplNmtGsResetConfiguration) {
3564                 goto Exit;
3565         }
3566
3567         Ret = EplDllkChangeState(kEplNmtEventDllCeFrameTimeout, NmtState);
3568         if (Ret != kEplSuccessful) {
3569                 goto Exit;
3570         }
3571         // 2008/10/15 d.k. reprogramming of timer not necessary,
3572         // because it will be programmed, when SoC is received.
3573 /*
3574     // reprogram timer
3575 #if EPL_TIMER_USE_HIGHRES != FALSE
3576     if ((NmtState > kEplNmtCsPreOperational1)
3577         && (EplDllkInstance_g.m_ullFrameTimeout != 0))
3578     {
3579         Ret = EplTimerHighReskModifyTimerNs(&EplDllkInstance_g.m_TimerHdlCycle, EplDllkInstance_g.m_ullFrameTimeout, EplDllkCbCnTimer, 0L, FALSE);
3580     }
3581 #endif
3582 */
3583
3584       Exit:
3585         if (Ret != kEplSuccessful) {
3586                 DWORD dwArg;
3587
3588                 BENCHMARK_MOD_02_TOGGLE(9);
3589
3590                 dwArg =
3591                     EplDllkInstance_g.
3592                     m_DllState | (kEplNmtEventDllCeFrameTimeout << 8);
3593
3594                 // Error event for API layer
3595                 Ret = EplEventkPostError(kEplEventSourceDllk,
3596                                          Ret, sizeof(dwArg), &dwArg);
3597         }
3598
3599         return Ret;
3600 }
3601 #endif
3602
3603 #if (((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
3604
3605 //---------------------------------------------------------------------------
3606 //
3607 // Function:    EplDllkCbMnTimerCycle()
3608 //
3609 // Description: called by timer module. It triggers the SoC when it is a MN.
3610 //
3611 // Parameters:  pEventArg_p             = timer event argument
3612 //
3613 // Returns:     tEplKernel              = error code
3614 //
3615 //
3616 // State:
3617 //
3618 //---------------------------------------------------------------------------
3619
3620 static tEplKernel PUBLIC EplDllkCbMnTimerCycle(tEplTimerEventArg * pEventArg_p)
3621 {
3622         tEplKernel Ret = kEplSuccessful;
3623         tEplNmtState NmtState;
3624
3625 #if EPL_TIMER_USE_HIGHRES != FALSE
3626         if (pEventArg_p->m_TimerHdl != EplDllkInstance_g.m_TimerHdlCycle) {     // zombie callback
3627                 // just exit
3628                 goto Exit;
3629         }
3630 #endif
3631
3632         NmtState = EplNmtkGetNmtState();
3633
3634         if (NmtState <= kEplNmtGsResetConfiguration) {
3635                 goto Exit;
3636         }
3637
3638         Ret = EplDllkChangeState(kEplNmtEventDllMeSocTrig, NmtState);
3639
3640       Exit:
3641         if (Ret != kEplSuccessful) {
3642                 DWORD dwArg;
3643
3644                 BENCHMARK_MOD_02_TOGGLE(9);
3645
3646                 dwArg =
3647                     EplDllkInstance_g.
3648                     m_DllState | (kEplNmtEventDllMeSocTrig << 8);
3649
3650                 // Error event for API layer
3651                 Ret = EplEventkPostError(kEplEventSourceDllk,
3652                                          Ret, sizeof(dwArg), &dwArg);
3653         }
3654
3655         return Ret;
3656 }
3657
3658 //---------------------------------------------------------------------------
3659 //
3660 // Function:    EplDllkCbMnTimerResponse()
3661 //
3662 // Description: called by timer module. It monitors the PRes timeout.
3663 //
3664 // Parameters:  pEventArg_p             = timer event argument
3665 //
3666 // Returns:     tEplKernel              = error code
3667 //
3668 //
3669 // State:
3670 //
3671 //---------------------------------------------------------------------------
3672
3673 static tEplKernel PUBLIC EplDllkCbMnTimerResponse(tEplTimerEventArg *
3674                                                   pEventArg_p)
3675 {
3676         tEplKernel Ret = kEplSuccessful;
3677         tEplNmtState NmtState;
3678
3679 #if EPL_TIMER_USE_HIGHRES != FALSE
3680         if (pEventArg_p->m_TimerHdl != EplDllkInstance_g.m_TimerHdlResponse) {  // zombie callback
3681                 // just exit
3682                 goto Exit;
3683         }
3684 #endif
3685
3686         NmtState = EplNmtkGetNmtState();
3687
3688         if (NmtState <= kEplNmtGsResetConfiguration) {
3689                 goto Exit;
3690         }
3691
3692         Ret = EplDllkChangeState(kEplNmtEventDllMePresTimeout, NmtState);
3693
3694       Exit:
3695         if (Ret != kEplSuccessful) {
3696                 DWORD dwArg;
3697
3698                 BENCHMARK_MOD_02_TOGGLE(9);
3699
3700                 dwArg =
3701                     EplDllkInstance_g.
3702                     m_DllState | (kEplNmtEventDllMePresTimeout << 8);
3703
3704                 // Error event for API layer
3705                 Ret = EplEventkPostError(kEplEventSourceDllk,
3706                                          Ret, sizeof(dwArg), &dwArg);
3707         }
3708
3709         return Ret;
3710 }
3711
3712 //---------------------------------------------------------------------------
3713 //
3714 // Function:    EplDllkGetNodeInfo()
3715 //
3716 // Description: returns node info structure of the specified node.
3717 //
3718 // Parameters:  uiNodeId_p              = node ID
3719 //
3720 // Returns:     tEplDllkNodeInfo*       = pointer to internal node info structure
3721 //
3722 //
3723 // State:
3724 //
3725 //---------------------------------------------------------------------------
3726
3727 static tEplDllkNodeInfo *EplDllkGetNodeInfo(unsigned int uiNodeId_p)
3728 {
3729         // $$$ d.k.: use hash algorithm to retrieve the appropriate node info structure
3730         //           if size of array is less than 254.
3731         uiNodeId_p--;           // node ID starts at 1 but array at 0
3732         if (uiNodeId_p >= tabentries(EplDllkInstance_g.m_aNodeInfo)) {
3733                 return NULL;
3734         } else {
3735                 return &EplDllkInstance_g.m_aNodeInfo[uiNodeId_p];
3736         }
3737 }
3738
3739 //---------------------------------------------------------------------------
3740 //
3741 // Function:    EplDllkMnSendSoa()
3742 //
3743 // Description: it updates and transmits the SoA.
3744 //
3745 // Parameters:  NmtState_p              = current NMT state
3746 //              pDllStateProposed_p     = proposed DLL state
3747 //              fEnableInvitation_p     = enable invitation for asynchronous phase
3748 //                                        it will be disabled for EPL_C_DLL_PREOP1_START_CYCLES SoAs
3749 //
3750 // Returns:     tEplKernel              = error code
3751 //
3752 //
3753 // State:
3754 //
3755 //---------------------------------------------------------------------------
3756
3757 static tEplKernel EplDllkMnSendSoa(tEplNmtState NmtState_p,
3758                                    tEplDllState * pDllStateProposed_p,
3759                                    BOOL fEnableInvitation_p)
3760 {
3761         tEplKernel Ret = kEplSuccessful;
3762         tEdrvTxBuffer *pTxBuffer = NULL;
3763         tEplFrame *pTxFrame;
3764         tEplDllkNodeInfo *pNodeInfo;
3765
3766         *pDllStateProposed_p = kEplDllMsNonCyclic;
3767
3768         pTxBuffer = &EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_SOA];
3769         if (pTxBuffer->m_pbBuffer != NULL) {    // SoA does exist
3770                 pTxFrame = (tEplFrame *) pTxBuffer->m_pbBuffer;
3771
3772                 if (fEnableInvitation_p != FALSE) {     // fetch target of asynchronous phase
3773                         if (EplDllkInstance_g.m_bFlag2 == 0) {  // own queues are empty
3774                                 EplDllkInstance_g.m_LastReqServiceId =
3775                                     kEplDllReqServiceNo;
3776                         } else if (((tEplDllAsyncReqPriority) (EplDllkInstance_g.m_bFlag2 >> EPL_FRAME_FLAG2_PR_SHIFT)) == kEplDllAsyncReqPrioNmt) {    // frames in own NMT request queue available
3777                                 EplDllkInstance_g.m_LastReqServiceId =
3778                                     kEplDllReqServiceNmtRequest;
3779                         } else {
3780                                 EplDllkInstance_g.m_LastReqServiceId =
3781                                     kEplDllReqServiceUnspecified;
3782                         }
3783                         Ret =
3784                             EplDllkCalAsyncGetSoaRequest(&EplDllkInstance_g.
3785                                                          m_LastReqServiceId,
3786                                                          &EplDllkInstance_g.
3787                                                          m_uiLastTargetNodeId);
3788                         if (Ret != kEplSuccessful) {
3789                                 goto Exit;
3790                         }
3791                         if (EplDllkInstance_g.m_LastReqServiceId != kEplDllReqServiceNo) {      // asynchronous phase will be assigned to one node
3792                                 if (EplDllkInstance_g.m_uiLastTargetNodeId == EPL_C_ADR_INVALID) {      // exchange invalid node ID with local node ID
3793                                         EplDllkInstance_g.m_uiLastTargetNodeId =
3794                                             EplDllkInstance_g.m_DllConfigParam.
3795                                             m_uiNodeId;
3796                                         // d.k. DLL state WaitAsndTrig is not helpful;
3797                                         //      so just step over to WaitSocTrig,
3798                                         //      because own ASnd is sent automatically in CbFrameTransmitted() after SoA.
3799                                         //*pDllStateProposed_p = kEplDllMsWaitAsndTrig;
3800                                         *pDllStateProposed_p =
3801                                             kEplDllMsWaitSocTrig;
3802                                 } else {        // assignment to CN
3803                                         *pDllStateProposed_p =
3804                                             kEplDllMsWaitAsnd;
3805                                 }
3806
3807                                 pNodeInfo =
3808                                     EplDllkGetNodeInfo(EplDllkInstance_g.
3809                                                        m_uiLastTargetNodeId);
3810                                 if (pNodeInfo == NULL) {        // no node info structure available
3811                                         Ret = kEplDllNoNodeInfo;
3812                                         goto Exit;
3813                                 }
3814                                 // update frame (EA, ER flags)
3815                                 AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.
3816                                                m_le_bFlag1,
3817                                                pNodeInfo->
3818                                                m_bSoaFlag1 & (EPL_FRAME_FLAG1_EA
3819                                                               |
3820                                                               EPL_FRAME_FLAG1_ER));
3821                         } else {        // no assignment of asynchronous phase
3822                                 *pDllStateProposed_p = kEplDllMsWaitSocTrig;
3823                                 EplDllkInstance_g.m_uiLastTargetNodeId =
3824                                     EPL_C_ADR_INVALID;
3825                         }
3826
3827                         // update frame (target)
3828                         AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.
3829                                        m_le_bReqServiceId,
3830                                        (BYTE) EplDllkInstance_g.
3831                                        m_LastReqServiceId);
3832                         AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.
3833                                        m_le_bReqServiceTarget,
3834                                        (BYTE) EplDllkInstance_g.
3835                                        m_uiLastTargetNodeId);
3836
3837                 } else {        // invite nobody
3838                         // update frame (target)
3839                         AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.
3840                                        m_le_bReqServiceId, (BYTE) 0);
3841                         AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.
3842                                        m_le_bReqServiceTarget, (BYTE) 0);
3843                 }
3844
3845                 // update frame (NMT state)
3846                 AmiSetByteToLe(&pTxFrame->m_Data.m_Soa.m_le_bNmtStatus,
3847                                (BYTE) NmtState_p);
3848
3849                 // send SoA frame
3850                 Ret = EdrvSendTxMsg(pTxBuffer);
3851         }
3852
3853       Exit:
3854         return Ret;
3855 }
3856
3857 //---------------------------------------------------------------------------
3858 //
3859 // Function:    EplDllkMnSendSoc()
3860 //
3861 // Description: it updates and transmits the SoA.
3862 //
3863 // Parameters:  (none)
3864 //
3865 // Returns:     tEplKernel              = error code
3866 //
3867 //
3868 // State:
3869 //
3870 //---------------------------------------------------------------------------
3871
3872 static tEplKernel EplDllkMnSendSoc(void)
3873 {
3874         tEplKernel Ret = kEplSuccessful;
3875         tEdrvTxBuffer *pTxBuffer = NULL;
3876         tEplFrame *pTxFrame;
3877         tEplEvent Event;
3878
3879         pTxBuffer = &EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_SOC];
3880         if (pTxBuffer->m_pbBuffer != NULL) {    // SoC does exist
3881                 pTxFrame = (tEplFrame *) pTxBuffer->m_pbBuffer;
3882
3883                 // $$$ update NetTime
3884
3885                 // send SoC frame
3886                 Ret = EdrvSendTxMsg(pTxBuffer);
3887                 if (Ret != kEplSuccessful) {
3888                         goto Exit;
3889                 }
3890                 // trigger synchronous task
3891                 Event.m_EventSink = kEplEventSinkSync;
3892                 Event.m_EventType = kEplEventTypeSync;
3893                 Event.m_uiSize = 0;
3894                 Ret = EplEventkPost(&Event);
3895         }
3896
3897       Exit:
3898         return Ret;
3899 }
3900
3901 //---------------------------------------------------------------------------
3902 //
3903 // Function:    EplDllkMnSendPreq()
3904 //
3905 // Description: it updates and transmits the PReq for the next isochronous CN
3906 //              or own PRes if enabled.
3907 //
3908 // Parameters:  NmtState_p              = current NMT state
3909 //              pDllStateProposed_p     = proposed DLL state
3910 //
3911 // Returns:     tEplKernel              = error code
3912 //
3913 //
3914 // State:
3915 //
3916 //---------------------------------------------------------------------------
3917
3918 static tEplKernel EplDllkMnSendPreq(tEplNmtState NmtState_p,
3919                                     tEplDllState * pDllStateProposed_p)
3920 {
3921         tEplKernel Ret = kEplSuccessful;
3922         tEdrvTxBuffer *pTxBuffer = NULL;
3923         tEplFrame *pTxFrame;
3924         BYTE bFlag1 = 0;
3925
3926         if (EplDllkInstance_g.m_pCurNodeInfo == NULL) { // start with first isochronous CN
3927                 EplDllkInstance_g.m_pCurNodeInfo =
3928                     EplDllkInstance_g.m_pFirstNodeInfo;
3929         } else {                // iterate to next isochronous CN
3930                 EplDllkInstance_g.m_pCurNodeInfo =
3931                     EplDllkInstance_g.m_pCurNodeInfo->m_pNextNodeInfo;
3932         }
3933
3934         if (EplDllkInstance_g.m_pCurNodeInfo == NULL) { // last isochronous CN reached
3935                 Ret = EplDllkMnSendSoa(NmtState_p, pDllStateProposed_p, TRUE);
3936                 goto Exit;
3937         } else {
3938                 pTxBuffer = EplDllkInstance_g.m_pCurNodeInfo->m_pPreqTxBuffer;
3939                 bFlag1 =
3940                     EplDllkInstance_g.m_pCurNodeInfo->
3941                     m_bSoaFlag1 & EPL_FRAME_FLAG1_EA;
3942                 *pDllStateProposed_p = kEplDllMsWaitPres;
3943
3944                 // start PRes Timer
3945                 // $$$ d.k.: maybe move this call to CbFrameTransmitted(), because the time should run from there
3946 #if EPL_TIMER_USE_HIGHRES != FALSE
3947                 Ret =
3948                     EplTimerHighReskModifyTimerNs(&EplDllkInstance_g.
3949                                                   m_TimerHdlResponse,
3950                                                   EplDllkInstance_g.
3951                                                   m_pCurNodeInfo->
3952                                                   m_dwPresTimeout,
3953                                                   EplDllkCbMnTimerResponse, 0L,
3954                                                   FALSE);
3955 #endif
3956         }
3957
3958         if (pTxBuffer == NULL) {        // PReq does not exist
3959                 Ret = kEplDllTxBufNotReady;
3960                 goto Exit;
3961         }
3962
3963         pTxFrame = (tEplFrame *) pTxBuffer->m_pbBuffer;
3964
3965         if (pTxFrame != NULL) { // PReq does exist
3966                 if (NmtState_p == kEplNmtMsOperational) {       // leave RD flag untouched
3967                         bFlag1 |=
3968                             AmiGetByteFromLe(&pTxFrame->m_Data.m_Preq.
3969                                              m_le_bFlag1) & EPL_FRAME_FLAG1_RD;
3970                 }
3971
3972                 if (pTxBuffer == &EplDllkInstance_g.m_pTxBuffer[EPL_DLLK_TXFRAME_PRES]) {       // PRes of MN will be sent
3973                         // update NMT state
3974                         AmiSetByteToLe(&pTxFrame->m_Data.m_Pres.m_le_bNmtStatus,
3975                                        (BYTE) NmtState_p);
3976                         *pDllStateProposed_p = kEplDllMsWaitSoaTrig;
3977                 }
3978                 // $$$ d.k. set EPL_FRAME_FLAG1_MS if necessary
3979                 // update frame (Flag1)
3980                 AmiSetByteToLe(&pTxFrame->m_Data.m_Preq.m_le_bFlag1, bFlag1);
3981
3982                 // calculate frame size from payload size
3983                 pTxBuffer->m_uiTxMsgLen =
3984                     AmiGetWordFromLe(&pTxFrame->m_Data.m_Preq.m_le_wSize) + 24;
3985
3986                 // send PReq frame
3987                 Ret = EdrvSendTxMsg(pTxBuffer);
3988         } else {
3989                 Ret = kEplDllTxFrameInvalid;
3990         }
3991
3992       Exit:
3993         return Ret;
3994 }
3995
3996 //---------------------------------------------------------------------------
3997 //
3998 // Function:    EplDllkAsyncFrameNotReceived()
3999 //
4000 // Description: passes empty ASnd frame to receive FIFO.
4001 //              It will be called only for frames with registered AsndServiceIds
4002 //              (only kEplDllAsndFilterAny).
4003 //
4004 // Parameters:  none
4005 //
4006 // Returns:     tEplKernel              = error code
4007 //
4008 //
4009 // State:
4010 //
4011 //---------------------------------------------------------------------------
4012
4013 static tEplKernel EplDllkAsyncFrameNotReceived(tEplDllReqServiceId
4014                                                ReqServiceId_p,
4015                                                unsigned int uiNodeId_p)
4016 {
4017         tEplKernel Ret = kEplSuccessful;
4018         BYTE abBuffer[18];
4019         tEplFrame *pFrame = (tEplFrame *) abBuffer;
4020         tEplFrameInfo FrameInfo;
4021
4022         // check if previous SoA invitation was not answered
4023         switch (ReqServiceId_p) {
4024         case kEplDllReqServiceIdent:
4025         case kEplDllReqServiceStatus:
4026                 // ASnd service registered?
4027                 if (EplDllkInstance_g.m_aAsndFilter[ReqServiceId_p] == kEplDllAsndFilterAny) {  // ASnd service ID is registered
4028                         AmiSetByteToLe(&pFrame->m_le_bSrcNodeId,
4029                                        (BYTE) uiNodeId_p);
4030                         // EPL MsgType ASnd
4031                         AmiSetByteToLe(&pFrame->m_le_bMessageType,
4032                                        (BYTE) kEplMsgTypeAsnd);
4033                         // ASnd Service ID
4034                         AmiSetByteToLe(&pFrame->m_Data.m_Asnd.m_le_bServiceId,
4035                                        (BYTE) ReqServiceId_p);
4036                         // create frame info structure
4037                         FrameInfo.m_pFrame = pFrame;
4038                         FrameInfo.m_uiFrameSize = 18;   // empty non existing ASnd frame
4039                         // forward frame via async receive FIFO to userspace
4040                         Ret = EplDllkCalAsyncFrameReceived(&FrameInfo);
4041                 }
4042                 break;
4043         default:
4044                 // no invitation issued or it was successfully answered or it is uninteresting
4045                 break;
4046         }
4047
4048         return Ret;
4049 }
4050
4051 #endif //(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_NMT_MN)) != 0)
4052
4053 #endif // #if(((EPL_MODULE_INTEGRATION) & (EPL_MODULE_DLLK)) != 0)
4054 // EOF