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nest-open-source / nest-detect / 1.0.2 / freertos / refs/heads/master / . / FreeRTOS / Demo / ARM9_STR91X_IAR / Library / source / 91x_enet.c
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/********************
* Original work (C) COPYRIGHT 2006 STMicroelectronics **************************
* Modifications (C) CopyRight 2006 Richard barry
* File Name : 91x_enet.c
* Author : MCD Application Team
* Date First Issued : May 2006
* Description : ENET library functions
********************************************************************************
* History:
* May 2006: v1.0
********************************************************************************
* THE PRESENT SOFTWARE WHICH IS FOR GUIDANCE ONLY AIMS AT PROVIDING CUSTOMERS
* WITH CODING INFORMATION REGARDING THEIR PRODUCTS IN ORDER FOR THEM TO SAVE TIME.
* AS A RESULT, STMICROELECTRONICS SHALL NOT BE HELD LIABLE FOR ANY DIRECT,
* INDIRECT OR CONSEQUENTIAL DAMAGES WITH RESPECT TO ANY CLAIMS ARISING FROM THE
* CONTENT OF SUCH SOFTWARE AND/OR THE USE MADE BY CUSTOMERS OF THE CODING
* INFORMATION CONTAINED HEREIN IN CONNECTION WITH THEIR PRODUCTS.
*******************************************************************************/
/* Includes ------------------------------------------------------------------*/
#include "FreeRTOS.h"
#include "task.h"
#include "91x_lib.h"
#include "string.h" //include when using memcpy function
/* Include of other module interface headers ---------------------------------*/
/* Local includes ------------------------------------------------------------*/
/* Private typedef -----------------------------------------------------------*/
/* Private define ------------------------------------------------------------*/
#ifndef NULL
#define NULL (0)
#endif
/* Function return values */
#define ENET_OK (1)
#define ENET_NOK (0)
/* PHY interface constants. */
#define STE100P_STATUS_REG 0x01
#define STE100P_CONTROL_REG 0x00
#define STE100P_LINK_ABILITY 0x05
#define STE100P_STATUS_LINKED 0x0004
#define STE100P_AUTO_NEGOTIATE_ABILITY 0x1000
#define STE100P_AUTO_NEGOTIATE_COMPLETE 0x20
#define STE100P_10HALF 0x0020
#define STE100P_10FULL 0x0040
#define STE100P_100HALF 0x0080
#define STE100P_100FULL 0x0100
#define STE100P_CTRL_FULL 0x0100
/* Private macro -------------------------------------------------------------*/
/* Private variables ---------------------------------------------------------*/
#define ENET_NUM_RX_BUFFERS 8
static ENET_DMADSCRBase dmaTxDscrBase, dmaRxDscrBase[ ENET_NUM_RX_BUFFERS ];
static u8 RxBuff[ ENET_NUM_RX_BUFFERS ][ENET_BUFFER_SIZE];
u8 TxBuff[ENET_BUFFER_SIZE];
/* Interface functions -------------------------------------------------------*/
/* Private functions ---------------------------------------------------------*/
/*******************************************************************************
* Function Name : ENET_SetMACConfig(ENET_MACConfig * MAC_Config)
* Description : MAC Control Register Configuration
* Input : MAC_Config structure
* Output : None
* Return : None
*******************************************************************************/
void ENET_MACControlConfig(ENET_MACConfig *MAC_Config)
{
/* ReceiveALL bit */
if (MAC_Config->ReceiveALL==ENABLE) ENET_MAC->MCR |= MAC_MCR_RA;
else ENET_MAC->MCR &=~MAC_MCR_RA;
/* MIIPrescaler */
ENET_MAC->MCR &=~(0x3<<24);
if ((MAC_Config->MIIPrescaler) == MIIPrescaler_2)
ENET_MAC->MCR |=0x1<<24;
/* Loopback mode */
if (MAC_Config->LoopbackMode==ENABLE)
{
ENET_MAC->MCR &=~MAC_MCR_LM;
ENET_MAC->MCR |=0x1<<21;
ENET_MAC->MCR &=~MAC_MCR_DRO; /*enable frame reception during transmission*/
}
/* Address filtering mode */
ENET_MAC->MCR &=~MAC_MCR_AFM;
ENET_MAC->MCR |= MAC_Config->AddressFilteringMode;
/* VLAN Filtering Mode */
ENET_MAC->MCR |= (MAC_Config->VLANFilteringMode)<<15;
/*Wrong Frame Pass */
if (MAC_Config->PassWrongFrame == ENABLE) ENET_MAC->MCR |=MAC_MCR_PWF;
else ENET_MAC->MCR &=~MAC_MCR_PWF;
/* Late Collision Retransmission*/
if (MAC_Config->LateCollision == ENABLE) ENET_MAC->MCR |=MAC_MCR_ELC;
else ENET_MAC->MCR &=~MAC_MCR_ELC;
/* Broadcast Frame Reception */
if (MAC_Config->BroadcastFrameReception == ENABLE) ENET_MAC->MCR &=~MAC_MCR_DBF;
else ENET_MAC->MCR |=MAC_MCR_DBF;
/* PacketRetry */
if (MAC_Config->PacketRetry == ENABLE) ENET_MAC->MCR &=~MAC_MCR_DPR;
else ENET_MAC->MCR |=MAC_MCR_DPR;
/* RxFrameFiltering */
if (MAC_Config->RxFrameFiltering == ENABLE) ENET_MAC->MCR |=MAC_MCR_RVFF;
else ENET_MAC->MCR &=~MAC_MCR_RVFF;
/* AutomaticPadRemoval */
if (MAC_Config->AutomaticPadRemoval == ENABLE) ENET_MAC->MCR |=MAC_MCR_APR;
else ENET_MAC->MCR &=~MAC_MCR_APR;
/* DefferalCheck */
if (MAC_Config->DeferralCheck == ENABLE) ENET_MAC->MCR |=MAC_MCR_DCE;
else ENET_MAC->MCR &=~MAC_MCR_DCE;
}
/*******************************************************************************
* Function Name : ENET_SetOperatingMode
* Description : Sets the Operating mode
* Input : ENET_OperatingMode:(see ENET_OperatingMode in 91x_enet.h)
* Output : None
* Return : None
*******************************************************************************/
portBASE_TYPE ENET_SetOperatingMode( void )
{
unsigned long ulStatusReg, ulControlReg, ulLinkAbilityReg;
/* Link status is latched, so read twice to get current value */
ulStatusReg = ENET_MIIReadReg(0, STE100P_STATUS_REG);
ulStatusReg = ENET_MIIReadReg(0, STE100P_STATUS_REG);
if( !( ulStatusReg & STE100P_STATUS_LINKED ) )
{
/* No Link. */
return pdFAIL;
}
ulControlReg = ENET_MIIReadReg(0, STE100P_CONTROL_REG);
if (ulControlReg & STE100P_AUTO_NEGOTIATE_ABILITY)
{
/* AutoNegotiation is enabled. */
if (!(ulStatusReg & STE100P_AUTO_NEGOTIATE_COMPLETE))
{
/* Auto-negotiation in progress. */
return pdFAIL;
}
ulLinkAbilityReg = ENET_MIIReadReg(0, STE100P_LINK_ABILITY);
if( ( ulLinkAbilityReg & STE100P_100FULL ) || ( ulLinkAbilityReg & STE100P_10FULL ) )
{
ENET_MAC->MCR |=MAC_MCR_FDM; /* full duplex mode */
ENET_MAC->MCR &=~MAC_MCR_DRO; /* enable frame reception during transmission */
}
else
{
ENET_MAC->MCR &=~MAC_MCR_FDM; /* half duplex mode */
ENET_MAC->MCR |=MAC_MCR_DRO; /* disable frame reception during transmission */
}
}
else
{
if( ulStatusReg & STE100P_CTRL_FULL )
{
ENET_MAC->MCR |=MAC_MCR_FDM; /* full duplex mode */
ENET_MAC->MCR &=~MAC_MCR_DRO; /* enable frame reception during transmission */
}
else
{
ENET_MAC->MCR &=~MAC_MCR_FDM; /* half duplex mode */
ENET_MAC->MCR |=MAC_MCR_DRO; /* disable frame reception during transmission */
}
}
return pdPASS;
}
/*******************************************************************************
* Function Name : ENET_MIIWriteReg
* Description : Writes a value on the PHY registers
* Input : phyDev PHY device address
: phyReg PHY register to be written
* : phyVal PHY register value
* Output : None
* Return : None
*******************************************************************************/
void ENET_MIIWriteReg (u8 phyDev, u8 phyReg, u32 phyVal)
{
volatile u32 addr;
volatile u32 res; /* temporary result for address register status */
volatile u32 timeout;
/* Prepare the MII register address */
addr = 0;
addr |= ((phyDev<<11) & MAC_MII_ADDR_PHY_ADDR); /* set the PHY address */
addr |= ((phyReg<<6) & MAC_MII_ADDR_MII_REG); /* select the corresponding register */
addr |= MAC_MII_ADDR_MII_WRITE; /* in write mode */
addr |= MAC_MII_ADDR_MII_BUSY;
/* Check for the Busy flag */
timeout=0;
do
{
timeout++;
res = ENET_MAC->MIIA;
} while ((res & MAC_MII_ADDR_MII_BUSY) && (timeout < (u32 )MII_WRITE_TO));
/* Give the value to the MII data register */
ENET_MAC->MIID = (phyVal & 0xFFFF);
/* write the result value into the MII Address register */
ENET_MAC->MIIA =addr;
/* Check for the Busy flag */
timeout=0;
do
{
timeout++;
res = ENET_MAC->MIIA;
} while ((res & MAC_MII_ADDR_MII_BUSY) && (timeout < (u32 )MII_WRITE_TO));
}
/*******************************************************************************
* Function Name : ENET_MIIReadReg
* Description : Writes a value on the PHY
* Input : phyDev PHY device address
* : phyReg PHY register to be read
* Output : None
* Return : The read value (16 bits)
*******************************************************************************/
u32 ENET_MIIReadReg (u8 phyDev, u32 phyReg )
{
u32 rValue;
u32 addr;
u32 res; /* temporary result for address register status */
u32 timeout; /* timeout value for read process */
/* prepare the MII register address */
addr = 0;
addr |= ((phyDev<<11) & MAC_MII_ADDR_PHY_ADDR); /* set the PHY address */
addr |= ((phyReg<<6) & MAC_MII_ADDR_MII_REG); /* select the corresponding register */
addr &= ~(MAC_MII_ADDR_MII_WRITE); /* ... in read mode */
addr |= MAC_MII_ADDR_MII_BUSY;
/* Check for the Busy flag */
timeout = 0;
do
{
timeout++;
res = ENET_MAC->MIIA;
} while ((res & MAC_MII_ADDR_MII_BUSY) && (timeout < (u32 )MII_READ_TO));
/* write the result value into the MII Address register */
ENET_MAC->MIIA = addr;
/* Check for the Busy flag */
timeout = 0;
do
{
timeout++;
res = ENET_MAC->MIIA;
} while ((res & MAC_MII_ADDR_MII_BUSY) && (timeout < (u32 )MII_READ_TO));
/* read the result value from data register*/
rValue = ENET_MAC->MIID;
return (rValue & 0x0000FFFF);
}
/*******************************************************************************
* Function Name : ENET_RxDscrInit
* Description : Initializes the Rx ENET descriptor chain. Single Descriptor
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void ENET_RxDscrInit(void)
{
int i;
for( i = 0; i < ENET_NUM_RX_BUFFERS; i++ )
{
/* Assign temp Rx array to the ENET buffer */
dmaRxDscrBase[ i ].dmaAddr = (u32)&(RxBuff[ i ][ 0 ]);
/* Initialize RX ENET Status and control */
dmaRxDscrBase[ i ].dmaStatCntl = 0x4000;
/* Initialize the next descriptor- In our case its single descriptor */
dmaRxDscrBase[ i ].dmaNext = (u32)&(dmaRxDscrBase[i+1]) | 0x01;
/* Set the max packet size */
dmaRxDscrBase[ i ].dmaStatCntl = ENET_MAX_PACKET_SIZE | ENET_NEXT_ENABLE;
/* Setting the VALID bit */
dmaRxDscrBase[ i ].dmaPackStatus = DMA_DSCR_RX_STATUS_VALID_MSK;
}
dmaRxDscrBase[ ENET_NUM_RX_BUFFERS - 1 ].dmaNext = (u32)&(dmaRxDscrBase[ 0 ]);
/* Setting the RX NEXT Descriptor Register inside the ENET */
ENET_DMA->RXNDAR = (u32)&(dmaRxDscrBase) | 0x01;
}
/*******************************************************************************
* Function Name : ENET_TxDscrInit
* Description : Initializes the Tx ENET descriptor chain with single descriptor
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void ENET_TxDscrInit(void)
{
/* ENET Start Address */
dmaTxDscrBase.dmaAddr = (u32)TxBuff;
/* Next Descriptor Address */
dmaTxDscrBase.dmaNext = (u32)&(dmaTxDscrBase);
/* Initialize ENET status and control */
dmaTxDscrBase.dmaStatCntl = 0;
/* Tx next set to Tx decriptor base */
ENET_DMA->TXNDAR = (u32)&(dmaTxDscrBase);
/* Enable next enable */
ENET_DMA->TXNDAR |= DMA_DSCR_NXT_NPOL_EN;
}
/*******************************************************************************
* Function Name : ENET_Init
* Description : ENET MAC, PHY and DMA initializations
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void ENET_Init ()
{
vu32 regValue;
ENET_MACConfig *MAC_Config;
ENET_MACConfig config;
/* De-assert the SRESET bit of ENET + MAC devices */
ENET_DMA->SCR &=~DMA_SCR_SRESET;
MAC_Config =&config;
/* Initialize MAC control register with common values */
MAC_Config->ReceiveALL = DISABLE;
if (SCU_GetHCLKFreqValue() > 50000)
MAC_Config->MIIPrescaler = MIIPrescaler_2;
MAC_Config->LoopbackMode = DISABLE;
MAC_Config->AddressFilteringMode = MAC_Perfect_Multicast_Perfect;
MAC_Config->VLANFilteringMode = VLANfilter_VLTAG;
MAC_Config->PassWrongFrame = DISABLE;
MAC_Config->LateCollision = DISABLE;
MAC_Config->BroadcastFrameReception = ENABLE;
MAC_Config->PacketRetry = ENABLE;
MAC_Config->RxFrameFiltering = ENABLE;
MAC_Config->AutomaticPadRemoval = ENABLE;
MAC_Config->DeferralCheck = ENABLE;
/* Configure MAC control register */
ENET_MACControlConfig(MAC_Config);
/* DMA initialization */
/* Read the ENET DMA Status and Control Register */
regValue = ENET_DMA->SCR;
/* Setup Tx Max burst size */
regValue &= ~(u32)DMA_SCR_TX_MAX_BURST_SZ;
regValue |= (u32)DMA_SCR_TX_MAX_BURST_SZ_VAL;
/* Setup Rx Max Burst size */
regValue &= ~(u32)DMA_SCR_RX_MAX_BURST_SZ;
regValue |= (u32)DMA_SCR_RX_MAX_BURST_SZ_VAL;
/* Write Tx & Rx burst size to the ENET status and control register */
ENET_DMA->SCR = regValue;
/* Put the PHY in reset mode */
ENET_MIIWriteReg(0x0,MAC_MII_REG_XCR, 0x8000);
/* Delay to assure PHY reset */
vTaskDelay( 3000 / portTICK_PERIOD_MS );
/* initialize the opearting mode */
while( ENET_SetOperatingMode() == pdFAIL )
{
vTaskDelay( 3000 / portTICK_PERIOD_MS );
}
/*set MAC physical*/
//ENET_MAC->MAH = (MAC_ADDR5<<8) + MAC_ADDR4;
//ENET_MAC->MAL = (MAC_ADDR3<<24) + (MAC_ADDR2<<16) + (MAC_ADDR1<<8) + MAC_ADDR0;
/* Initialize Rx and Tx descriptors in memory */
ENET_TxDscrInit();
ENET_RxDscrInit();
// What's happening ???
#ifdef DEBUG
//int pippo = 1; // Do NOT remove!!!
#endif
}
/********************************************************************************
* Function Name : ENET_HandleRxPkt
* Description : receive a packet and copy it to memory pointed by ppkt.
* Input : ppkt: pointer on application receive buffer.
* Output : None
* Return : ENET_NOK - If there is no packet
* : ENET_OK - If there is a packet
*******************************************************************************/
u32 ENET_HandleRxPkt ( void *ppkt)
{
ENET_DMADSCRBase *pDescr;
u16 size;
static int iNextRx = 0;
if( dmaRxDscrBase[ iNextRx ].dmaPackStatus & DMA_DSCR_RX_STATUS_VALID_MSK )
{
return 0;
}
pDescr = &dmaRxDscrBase[ iNextRx ];
/*Get the size of the packet*/
size = ((pDescr->dmaPackStatus & 0x7ff) - 4);
//MEMCOPY_L2S_BY4((u8*)ppkt, RxBuff, size); /*optimized memcopy function*/
memcpy(ppkt, RxBuff[iNextRx], size); //string.h library*/
/* Give the buffer back to ENET */
pDescr->dmaPackStatus = DMA_DSCR_RX_STATUS_VALID_MSK;
iNextRx++;
if( iNextRx >= ENET_NUM_RX_BUFFERS )
{
iNextRx = 0;
}
/* Return no error */
return size;
}
/*******************************************************************************
* Function Name : ENET_TxPkt
* Description : Transmit a packet
* Input : ppkt: pointer to application packet Buffer
* : size: Tx Packet size
* Output : None
* Return : None
*******************************************************************************/
u8 *pcGetNextBuffer( void )
{
if( dmaTxDscrBase.dmaPackStatus & DMA_DSCR_TX_STATUS_VALID_MSK )
{
return NULL;
}
else
{
return ( unsigned char * ) TxBuff;
}
}
void ENET_TxPkt(void *ppkt, u16 size)
{
/* Setting the Frame Length*/
dmaTxDscrBase.dmaStatCntl = (size&0xFFF);
/* Start the ENET by setting the VALID bit in dmaPackStatus of current descr*/
dmaTxDscrBase.dmaPackStatus = DMA_DSCR_TX_STATUS_VALID_MSK;
/* Start the transmit operation */
ENET_DMA->TXSTR|= DMA_TX_START_FETCH;
}
/*******************************************************************************
* Function Name : ENET_Start
* Description : Enables ENET MAC reception / transmission & starts DMA fetch
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void ENET_Start ( void)
{
u32 value;
/* Force a ENET abort by software for the receive block */
ENET_DMA->RXSTR &=~ DMA_RX_START_DMA_EN;
/* Force a ENET abort by software for the transmit block */
ENET_DMA->TXSTR &=~DMA_TX_START_DMA_EN;
/* Reset all interrupts */
ENET_DMA->ISR = 0xFFFFFFFF;
/* Setup Descriptor Fetch ENET_PhyDelay for Receive Block */
value = ENET_DMA->RXSTR;
value &= ~( DMA_RX_START_DFETCH_DLY );
value |= DMA_RX_START_DFETCH_DEFAULT;
ENET_DMA->RXSTR= value;
/* Setup Descriptor Fetch ENET_PhyDelay for Transmit Block */
value = ENET_DMA->TXSTR;
value &= ~( DMA_TX_START_DFETCH_DLY );
value |= DMA_TX_START_DFETCH_DEFAULT;
ENET_DMA->TXSTR= value;
/* Set Tx underrun bit */
value &= ~( DMA_TX_START_URUN );
value |= DMA_TX_START_URUN;
ENET_DMA->TXSTR = value;
/* Clear the interrupts */
ENET_DMA->IER = 0x0;
/* MAC TX enable */
ENET_MAC->MCR|= MAC_MCR_TE;
/* MAC RX enable */
ENET_MAC->MCR|= MAC_MCR_RE;
/* Start the DMA Fetch */
ENET_DMA->RXSTR|= DMA_RX_START_FETCH;
}
/*******************************************************************************
* Function Name : ENET_InitClocksGPIO
* Description : Reset, clocks & GPIO Ethernet Pin initializations
* Input : None
* Output : None
* Return : None
*******************************************************************************/
void ENET_InitClocksGPIO(void)
{
GPIO_InitTypeDef GPIO_Struct;
SCU_AHBPeriphClockConfig(__ENET, ENABLE);
SCU_AHBPeriphReset(__ENET,DISABLE);
SCU_PHYCLKConfig(ENABLE);
GPIO_DeInit(GPIO1);
GPIO_Struct.GPIO_Pin = GPIO_Pin_1 | GPIO_Pin_2 |GPIO_Pin_3 |GPIO_Pin_4 |GPIO_Pin_7 ;
GPIO_Struct.GPIO_Type = GPIO_Type_PushPull;
GPIO_Struct.GPIO_Direction = GPIO_PinOutput;
GPIO_Struct.GPIO_IPConnected = GPIO_IPConnected_Disable;
GPIO_Struct.GPIO_Alternate=GPIO_OutputAlt2;
GPIO_Init(GPIO1, &GPIO_Struct);
GPIO_DeInit(GPIO5);
GPIO_Struct.GPIO_Pin = GPIO_Pin_2 | GPIO_Pin_3;
GPIO_Struct.GPIO_Type = GPIO_Type_PushPull;
GPIO_Struct.GPIO_Direction = GPIO_PinOutput;
GPIO_Struct.GPIO_IPConnected = GPIO_IPConnected_Disable;
GPIO_Struct.GPIO_Alternate=GPIO_OutputAlt2;
GPIO_Init(GPIO5, &GPIO_Struct);
}
/******************** (C) COPYRIGHT 2006 STMicroelectronics *******************/