C++ (Cpp) gtBspMiiInit Exemples

Langage de programmation: C++ (Cpp)

Méthode/Fonction: gtBspMiiInit

Exemples au hotexamples.com: 2

C++ (Cpp) gtBspMiiInit - 2 exemples trouvés. Ce sont les exemples réels les mieux notés de gtBspMiiInit extraits de projets open source. Vous pouvez noter les exemples pour nous aider à en améliorer la qualité.

Exemple #1

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Fichier : mv88e6161_lr20xx.c Projet : sevennothing/lros

//#define MULTI_ADDR_MODE 1 GT_STATUS qdStart(int cpuPort) { GT_STATUS status; /* * Register all the required functions to QuarterDeck Driver. * */ memset((char*)&cfg,0,sizeof(GT_SYS_CONFIG)); memset((char*)&diagDev,0,sizeof(GT_QD_DEV)); dev = &diagDev; cfg.BSPFunctions.readMii = switchReadReg; cfg.BSPFunctions.writeMii = switchWriteReg; #ifdef GT_RMGMT_ACCESS cfg.BSPFunctions.hwAccess = gtBspHwAccess; #endif #ifdef USE_SEMAPHORE cfg.BSPFunctions.semCreate = osSemCreate; cfg.BSPFunctions.semDelete = osSemDelete; cfg.BSPFunctions.semTake = osSemWait; cfg.BSPFunctions.semGive = osSemSignal; #else cfg.BSPFunctions.semCreate = NULL; cfg.BSPFunctions.semDelete = NULL; cfg.BSPFunctions.semTake = NULL; cfg.BSPFunctions.semGive = NULL; #endif gtBspMiiInit(dev); cfg.initPorts = GT_TRUE; /* Set switch ports to Forwarding mode. If GT_FALSE, use Default Setting. */ cfg.cpuPortNum = cpuPort; #ifdef MANUAL_MODE /* not defined. this is only for sample */ /* user may want to use this mode when there are two QD switchs on the same MII bus. */ cfg.mode.scanMode = SMI_MANUAL_MODE; /* Use QD located at manually defined base addr */ cfg.mode.baseAddr = 0x10; /* valid value in this case is either 0 or 0x10 */ #else #ifdef MULTI_ADDR_MODE cfg.mode.scanMode = SMI_MULTI_ADDR_MODE; /* find a QD in indirect access mode */ cfg.mode.baseAddr = 1; /* this is the phyAddr used by QD family device. Valid value are 1 ~ 31.*/ #else cfg.mode.scanMode = SMI_AUTO_SCAN_MODE; /* Scan 0 or 0x10 base address to find the QD */ cfg.mode.baseAddr = 0; #endif #endif if((status=qdLoadDriver(&cfg, dev)) != GT_OK) { ERROR(GLOBAL_OUT_GROUP, "qdLoadDriver return Failed\n"); return status; } INFO(GLOBAL_OUT_GROUP,"Device ID : 0x%x\n",dev->deviceId); INFO(GLOBAL_OUT_GROUP,"Base Reg Addr : 0x%x\n",dev->baseRegAddr); INFO(GLOBAL_OUT_GROUP,"No of Ports : %d\n",(int)dev->numOfPorts); INFO(GLOBAL_OUT_GROUP,"CPU Ports : %d\n",(int)dev->cpuPortNum); /* * * start the QuarterDeck * */ if((status=sysEnable(dev)) != GT_OK) { ERROR(GLOBAL_OUT_GROUP,"sysConfig return Failed\n"); return status; } INFO(GLOBAL_OUT_GROUP,"QuarterDeck has been started.\n"); return GT_OK; }

Exemple #2

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Fichier : msApiInit.c Projet : HuxyUK/xpenology-3.x

GT_STATUS qdStart(int cpuPort, int useQdSim, int devId) /* devId is used for simulator only */ { GT_STATUS status; /* * Register all the required functions to QuarterDeck Driver. */ memset((char*)&cfg,0,sizeof(GT_SYS_CONFIG)); memset((char*)&diagDev,0,sizeof(GT_QD_DEV)); if(useQdSim == 0) /* use EV-96122 */ { cfg.BSPFunctions.readMii = gtBspReadMii; cfg.BSPFunctions.writeMii = gtBspWriteMii; #ifdef GT_RMGMT_ACCESS cfg.BSPFunctions.hwAccess = gtBspHwAccess; #endif #ifdef USE_SEMAPHORE cfg.BSPFunctions.semCreate = osSemCreate; cfg.BSPFunctions.semDelete = osSemDelete; cfg.BSPFunctions.semTake = osSemWait; cfg.BSPFunctions.semGive = osSemSignal; #else cfg.BSPFunctions.semCreate = NULL; cfg.BSPFunctions.semDelete = NULL; cfg.BSPFunctions.semTake = NULL; cfg.BSPFunctions.semGive = NULL; #endif gtBspMiiInit(dev); } else /* use QuaterDeck Simulator (No QD Device Required.) */ { cfg.BSPFunctions.readMii = qdSimRead; cfg.BSPFunctions.writeMii = qdSimWrite; #ifdef USE_SEMAPHORE cfg.BSPFunctions.semCreate = osSemCreate; cfg.BSPFunctions.semDelete = osSemDelete; cfg.BSPFunctions.semTake = osSemWait; cfg.BSPFunctions.semGive = osSemSignal; #else cfg.BSPFunctions.semCreate = NULL; cfg.BSPFunctions.semDelete = NULL; cfg.BSPFunctions.semTake = NULL; cfg.BSPFunctions.semGive = NULL; #endif qdSimInit(devId,0); } cfg.initPorts = GT_TRUE; /* Set switch ports to Forwarding mode. If GT_FALSE, use Default Setting. */ cfg.cpuPortNum = cpuPort; #ifdef MANUAL_MODE /* not defined. this is only for sample */ /* user may want to use this mode when there are two QD switchs on the same MII bus. */ cfg.mode.scanMode = SMI_MANUAL_MODE; /* Use QD located at manually defined base addr */ cfg.mode.baseAddr = 0x10; /* valid value in this case is either 0 or 0x10 */ #else #ifdef MULTI_ADDR_MODE cfg.mode.scanMode = SMI_MULTI_ADDR_MODE; /* find a QD in indirect access mode */ cfg.mode.baseAddr = 1; /* this is the phyAddr used by QD family device. Valid value are 1 ~ 31.*/ #else cfg.mode.scanMode = SMI_AUTO_SCAN_MODE; /* Scan 0 or 0x10 base address to find the QD */ cfg.mode.baseAddr = 0; #endif #endif if((status=qdLoadDriver(&cfg, dev)) != GT_OK) { MSG_PRINT(("qdLoadDriver return Failed\n")); return status; } MSG_PRINT(("Device ID : 0x%x\n",dev->deviceId)); MSG_PRINT(("Base Reg Addr : 0x%x\n",dev->baseRegAddr)); MSG_PRINT(("No of Ports : %d\n",dev->numOfPorts)); MSG_PRINT(("CPU Ports : %d\n",dev->cpuPortNum)); /* * start the QuarterDeck */ if((status=sysEnable(dev)) != GT_OK) { MSG_PRINT(("sysConfig return Failed\n")); return status; } MSG_PRINT(("QuarterDeck has been started.\n")); return GT_OK; }