DSP/ADSP21569/StaticDSP569.git

			@@ -13,32 +13,28 @@
			#include "protocol_internal.h"
			#include "IModule.h"
			#include "f2f.h"
			#include "var_state.h"
			#include "../drv/memory.h"



			//#define DEBUG
			#ifdef DEBUG
			#define dbg_printf printf
			#else
			#define dbg_printf
			#endif

			static ToB* tob = NULL;

			ToB* ToB::GetInstance()
			{
			return tob;
			}
			//static ToB* tob = NULL;

			//ToB* ToB::GetInstance()
			//{
			// return tob;
			//}

			ToB::ToB(ubool dualDsp, u32 dspIndex )
			: dual_dsp(dualDsp), dsp_index(dspIndex),mList(32)
			: dual_dsp(dualDsp), dsp_index(dspIndex)
			{
			if(tob != NULL) {
			delete tob;
			}
			tob = this;
			frames = NULL;
			// if(tob != NULL) {
			// delete tob;
			// }
			// tob = this;
			frames = nullptr;
			processed = ufalse;
			mModuleNum =0;
			mModuleIndex.resize(0);
			@@ -48,7 +44,7 @@
			ToB::~ToB()
			{
			toClear();
			tob = NULL;
			// tob = NULL;
			delete paramset;
			}

			@@ -59,16 +55,23 @@
			ErrStatus ToB::toClear()
			{
			processed = ufalse;
			int i = 0;

			for (std::vector<IModule*>::iterator iter = mList.begin();
			iter != mList.end() ;iter++) {
			delete *iter;
			// for (std::vector<IModule*>::iterator iter = mList.begin(); iter != mList.end(); iter++, ++i) {
			// delete *iter;
			// *iter = nullptr;
			// }
			for (auto iter : mList) {
			delete iter;
			iter = nullptr;
			}

			mList.clear();
			mModuleIndex.clear();

			if(frames != NULL) {
			delete frames;
			frames = nullptr;
			}
			mModuleNum = 0;

			@@ -123,14 +126,14 @@

			if (pmod->mDsp != dsp_index) continue;

			#ifdef DEBUG
			#if DEBUG
			dbg_printf("Module ID %d type %d rxnum %d txnum %d. \n",pmod->mID ,pmod->mType, pmod->mRxNum,pmod->mTxNum);
			#endif
			// if(pmod->mID == 394) {
			// int ddr = sram_free_space(SRAM_DDR);
			// int ccm = sram_free_space(SRAM_CCM);
			// int l1 = sram_free_space(SRAM_L1);
			// printf("ddr %d ccm %d l1 %d.\n",ddr, ccm ,l1);
			// dbg_printf("ddr %d ccm %d l1 %d.\n",ddr, ccm ,l1);
			// }
			IModule* m = CreateBaseModule(pmod->mType,pmod->mTag, pmod->mRxNum,pmod->mTxNum);
			if(!m) {
			@@ -193,7 +196,7 @@
			return ErrStatus::SUCCESS;
			}

			#if 1//DEBUG
			#ifdef DEBUG
			const s8* type_string[ModuleType::PROC_COUNT] = {
			"none"
			,"input"
			@@ -243,7 +246,7 @@
			const Module* pmod = (Module*)(bin+ size); size += sizeof(Module);
			const u16* mRxbufID = (u16)(bin + size); size += pmod->mRxNum sizeof(u16);
			const u16* mTxbufID = (u16)(bin + size); size += pmod->mTxNum sizeof(u16);
			PhyPort* mPhyID ;
			PhyPort* mPhyID;
			ubool bInput=ufalse,bOutput=ufalse;
			u16 mRxNum = pmod->mRxNum, mTxNum = pmod->mTxNum;

			@@ -264,7 +267,9 @@
			if (pmod->mDsp != dsp_index) continue;

			#ifdef DEBUG
			printf("Module ID %d type %d %s rxnum %d txnum %d tag %d. \n",pmod->mID ,pmod->mType, type_string[pmod->mType], pmod->mRxNum,pmod->mTxNum,pmod->mTag);
			// if (300 == pmod->mID)
			if (PROC_FEEDBACK == pmod->mType)
			dbg_printf("Module ID %d type %d %s rxnum %d txnum %d tag %d. \n",pmod->mID ,pmod->mType, type_string[pmod->mType], pmod->mRxNum,pmod->mTxNum,pmod->mTag);
			#endif

			IModule* m = CreateBaseModule(pmod->mType, pmod->mTag, mRxNum, mTxNum);
			@@ -272,11 +277,6 @@
			dbg_printf("Module ID Create fail.\n", pmod->mID);
			continue;
			}

			// int ddr = sram_free_space(SRAM_DDR,mem_any);
			// int ccm = sram_free_space(SRAM_L2,mem_any);
			// int l1 = sram_free_space(SRAM_L1,mem_heap);
			// printf("ddr %d ccm %d l1 %d.\n",ddr, ccm ,l1);

			m->SetModuleInfo(pmod->mID ,pmod->mType, pmod->mTag);
			mList.push_back(m);
			@@ -286,9 +286,9 @@
			}
			mModuleIndex[pmod->mID] = ++mModuleNum;

			// printf("Module id:%d, Tx buffer id:", pmod->mID);
			// dbg_printf("Module id:%d, Tx buffer id:", pmod->mID);
			for (size_t i = 0; i < mTxNum && !bOutput; i++){
			printf("bid %d, ", mTxbufID[i]);
			// dbg_printf("bid %d, ", mTxbufID[i]);
			if (mTxbufID[i] > 0) {
			Frame* pcm = frames->GetFrame(mTxbufID[i]-1);
			m->SetOutputChannelDataPtr(i, pcm);
			@@ -298,16 +298,16 @@
			nPhyInput[mPhyID[i].mIntType] = mPhyID[i].mPhyID;
			m->SetInputChannelDataPtr(i, pcm);
			SetRxChannelPtr(static_cast<IntDataType>(mPhyID[i].mIntType), mPhyID[i].mPhyID-1, pcm->Data());
			printf("phy_id %d\n", mPhyID[i].mPhyID);
			// dbg_printf("phy_id %d\n", mPhyID[i].mPhyID);
			}
			}
			else {
			m->SetOutputChannelDataPtr(i, 0);
			}
			}
			// printf(";Rx buffer id:");
			// dbg_printf(";Rx buffer id:");
			for (size_t i = 0; i < mRxNum && !bInput; i++) {
			// printf("bid %d", mRxbufID[i]);
			// printf("mID %d,bid %d\n", pmod->mID, mRxbufID[i]);
			if (mRxbufID[i] > 0) {
			Frame* pcm = frames->GetFrame(mRxbufID[i]-1 );
			m->SetInputChannelDataPtr(i, pcm);
			@@ -316,30 +316,41 @@
			if(nPhyOutput[mPhyID[i].mIntType] < mPhyID[i].mPhyID)
			nPhyOutput[mPhyID[i].mIntType] = mPhyID[i].mPhyID;

			pcm = frames->AllocFrame();
			pcm = frames->AllocFrame(); // It is not necessary to be compatible with the AXE1208 series here, because the TOP architecture is different.
			m->SetOutputChannelDataPtr(i, pcm);
			SetTxChannelPtr(static_cast<IntDataType>(mPhyID[i].mIntType), mPhyID[i].mPhyID-1, pcm->Data());
			// printf("phy_id %d", mPhyID[i].mPhyID);
			// dbg_printf("mID %d,bid %d\n", pmod->mID, mPhyID[i].mPhyID-1);
			// dbg_printf("phy_type %d, _id %d\n", mPhyID[i].mIntType, mPhyID[i].mPhyID);
			}
			}
			else {
			m->SetInputChannelDataPtr(i, 0);
			}
			}
			// printf("\n");
			// dbg_printf("\n");

			m->Init();
			// paramset->GetParamEntry(m->GetModuleType())(m, (uvoid*)pmod->mParamaddr, len);
			// 获取模块类型
			u32 moduleType = m->GetModuleType();

			// 从 paramset 中获取对应的参数控制函数指针
			ParamCtrl_fn paramEntry = paramset->GetParamEntry(moduleType);
			// 获取模块参数地址
			void* paramAddr = (uvoid*)pmod->mParamaddr;
			ParamCtrl_fn paramEntry = paramset->GetParamEntry( m->GetModuleType());
			if(paramEntry == NULL) {
			dbg_printf("paramEntry is NULL!\n");
			}
			// 调用参数控制函数
			u32 result = paramEntry(m, paramAddr, len);
			u32 result = paramEntry(m, (uvoid*)pmod->mParamaddr, len);

			} while (size < nbytes);

			// int ddr = sram_free_space(SRAM_DDR,mem_any);
			// int ccm = sram_free_space(SRAM_L2,mem_any);
			// int l1 = sram_free_space(SRAM_L1,mem_heap);
			// dbg_printf("mListAdd:0x%x, ddr %d ccm %d l1 %d.\n", &mList, ddr, ccm ,l1);

			//for (auto pl : mList) {
			// delete pl;
			// int l2mem = sram_free_space(SRAM_L2, mem_any);
			// dbg_printf("L2mem %d\n", l2mem);
			//}

			if (size != nbytes) {
			dbg_printf("check flowchart some error!\n");
			@@ -352,7 +363,7 @@
			/*for (auto pt = mList.begin(); pt < mList.end(); pt++) {
			IModule p = pt._Myptr;
			static int i = 0;
			printf("%d, id %d, type %d\n",i++, p->GetModuleID(), p->GetModuleType());
			dbg_printf("%d, id %d, type %d\n",i++, p->GetModuleID(), p->GetModuleType());
			}*/

			return ErrStatus::SUCCESS;
			@@ -367,7 +378,7 @@
			head->crc = 0;
			tmp_crc = CRC::crc32(bin, nbytes);
			if (tmp_crc != crc) {
			printf("flowchar crc check fail.\n");
			dbg_printf("flowchar crc check fail.\n");
			return ErrStatus::ERR_PARAM;
			}
			processed = ufalse;
			@@ -384,13 +395,14 @@
			ErrStatus ToB::toProc()
			{
			if(processed) {
			for (auto iter = mList.begin(); iter < mList.end(); iter++) {
			// if(((iter)->GetModuleType() >= 9) && ((iter)->GetModuleType() <= 9)) {
			for (auto iter : mList) {// = mList.begin(); iter < mList.end(); iter++) {
			// if(((iter)->GetModuleType() >= PROC_COMPRESS) && ((iter)->GetModuleType() <= PROC_COMPRESS)) {
			// printf("%d ", (*iter)->GetModuleID());
			(*iter)->Proc();
			// int ii = 2;
			// }
			iter->Proc();
			}
			// printf("\n");
			// dbg_printf("\n");
			}
			else {
			MuteOutput();
			@@ -398,30 +410,55 @@
			return ErrStatus::SUCCESS;
			}

			u32 ToB::GetModuleType(u32 mID)
			IModule* ToB::GetModule(u32 mID)
			{
			if(mID >= mModuleIndex.size() \|\| mModuleIndex[mID] == 0) {
			return ErrStatus::ERR_PARAM;
			return NULL;
			}
			IModule* m = mList[mModuleIndex[mID]-1];
			if( m != NULL) {
			return m->GetModuleType();
			return m;
			}
			return 0;
			return NULL;
			}

			/ErrStatus ToB::toCtrl(u32 mID, u32 pID, const s16 val, u32 num)
			{
			if(mID >= mModuleIndex.size() \|\| mModuleIndex[mID] == 0) {
			dbg_printf("ToB::toCtrl mID Error!\n");
			return ErrStatus::ERR_PARAM;
			}

			IModule* m = mList[mModuleIndex[mID]-1];
			if(!m) {
			dbg_printf("ToB::toCtrl m Error!\n");
			return ErrStatus::ERR_PARAM;
			}

			auto entries = paramset->GetEntries(m->GetModuleType());
			if(!entries.second) {
			dbg_printf("ToB::toCtrl entries Error!\n");
			return ErrStatus::ERR_METHOD;
			}

			entries.second(m, pID, const_cast<s16*>(val), num);
			return ErrStatus::SUCCESS;
			}*/
			ErrStatus ToB::toCtrl(u32 mID, u32 pID, const s16* val, u32 num)
			{
			if(mID >= mModuleIndex.size() \|\| mModuleIndex[mID] == 0) {
			return ErrStatus::ERR_PARAM;
			}
			// VarState& var = VarState::GetInstance();
			// printf("mID:%d\n", mID);
			void *paramPtr = VarState::GetInstance().pscene->get_param(mID);

			IModule* m = mList[mModuleIndex[mID]-1];
			if( m != NULL) {
			//m->Ctrl(pID, val, num);
			paramset->GetCtrlEntry(m->GetModuleType())(m, pID, (s16*)val);
			// m->Ctrl(pID, val, num);
			paramset->GetCtrlEntry(m->GetModuleType())(m, pID, (s16*)val, num, paramPtr);
			}

			// dbg_printf("mID:%d pID:%d val[0]:%d val[1]:%d\n",mID, pID, val[0], val[1]);
			return ErrStatus::SUCCESS;
			}

			@@ -458,17 +495,17 @@
			}


			u32 ToB::GetLevels(s16* buffer)
			u32 ToB::GetLevels(s16* buffer, u32 level_max_len)
			{
			u32 n =0,size =0;

			u32 n=0, size =0;
			u32 remain_len;
			if( !processed ) {
			return 0;
			}
			for (std::vector<IModule*>::iterator iter = mList.begin();
			iter != mList.end() ; iter++) {
			size = (*iter)->GetLevel(buffer + n );
			// printf("proc %s level num:%d\n",type_string[(*iter)->GetModuleType()],size);
			for (std::vector<IModule*>::iterator iter = mList.begin(); iter != mList.end(); iter++) {
			remain_len = level_max_len - n;
			size = (*iter)->GetLevel(buffer + n, remain_len);
			// dbg_printf("proc:%s level num:%d remain:%d\n", type_string[(*iter)->GetModuleType()], size, remain_len);
			n += size;
			}