@ -30,8 +30,16 @@
# define emacFULL_DUPLEX_ENABLED ( 0x0004 )
# define emac10BASE_T_MODE ( 0x0002 )
/* If no buffers are available, then wait this long before looking again.... */
# define emacBUFFER_WAIT_DELAY ( 3 / portTICK_RATE_MS )
/* ...and don't look more than this many times. */
# define emacBUFFER_WAIT_ATTEMPTS ( 30 )
# define emacTX_DESC_INDEX ( 0 )
/* The semaphore used to wake the uIP task when data arives. */
xSemaphoreHandle xEMACSemaphore = NULL ;
extern xSemaphoreHandle xEMACSemaphore ;
static unsigned short * rptr ;
static unsigned short * tptr ;
@ -40,6 +48,21 @@ static void prvInitDescriptors( void );
static void prvSetupEMACHardware ( void ) ;
static void prvConfigurePHY ( void ) ;
static long prvSetupLinkStatus ( void ) ;
static unsigned char * prvGetNextBuffer ( void ) ;
static void prvReturnBuffer ( unsigned char * pucBuffer ) ;
/* Each ucBufferInUse index corresponds to a position in the same index in the
ucMACBuffers array . If the index contains a 1 then the buffer within
ucMACBuffers is in use , if it contains a 0 then the buffer is free . */
static unsigned char ucBufferInUse [ ETH_NUM_BUFFERS ] = { pdFALSE } ;
/* The uip_buffer is not a fixed array, but instead gets pointed to the buffers
allocated within this file . */
unsigned char * uip_buf ;
/* Store the length of the data being sent so the data can be sent twice. The
value will be set back to 0 once the data has been sent twice . */
static unsigned short usSendLen = 0 ;
/*-----------------------------------------------------------*/
@ -74,7 +97,7 @@ long x;
}
/*-----------------------------------------------------------*/
unsigned short read_PHY ( unsigned char ucPhyReg , portBASE_TYPE * px )
unsigned short read_PHY ( unsigned char ucPhyReg , long * pl )
{
long x ;
const long lMaxTime = 10 ;
@ -97,23 +120,67 @@ const long lMaxTime = 10;
if ( x > = lMaxTime )
{
* p x Status = pdFAIL ;
* p l Status = pdFAIL ;
}
return ( MAC_MRDD ) ;
}
/*-----------------------------------------------------------*/
static void prvInitDescriptors ( void )
static unsigned char * prvGetNextBuffer ( void )
{
long x ;
unsigned char * pucReturn = NULL ;
unsigned long ulAttempts = 0 ;
while ( pucReturn = = NULL )
{
/* Look through the buffers to find one that is not in use by
anything else . */
for ( x = 0 ; x < ETH_NUM_BUFFERS ; x + + )
{
if ( ucBufferInUse [ x ] = = pdFALSE )
{
ucBufferInUse [ x ] = pdTRUE ;
pucReturn = ( unsigned char * ) ETH_BUF ( x ) ;
break ;
}
}
/* Was a buffer found? */
if ( pucReturn = = NULL )
{
ulAttempts + + ;
if ( ulAttempts > = emacBUFFER_WAIT_ATTEMPTS )
{
break ;
}
/* Wait then look again. */
vTaskDelay ( emacBUFFER_WAIT_DELAY ) ;
}
}
return pucReturn ;
}
/*-----------------------------------------------------------*/
static void prvInitDescriptors ( void )
{
long x , lNextBuffer = 0 ;
for ( x = 0 ; x < NUM_RX_FRAG ; x + + )
{
RX_DESC_PACKET ( x ) = RX_BUF ( x ) ;
/* Allocate the next Ethernet buffer to this descriptor. */
RX_DESC_PACKET ( x ) = ETH_BUF ( lNextBuffer ) ;
RX_DESC_CTRL ( x ) = RCTRL_INT | ( ETH_FRAG_SIZE - 1 ) ;
RX_STAT_INFO ( x ) = 0 ;
RX_STAT_HASHCRC ( x ) = 0 ;
/* The Ethernet buffer is now in use. */
ucBufferInUse [ lNextBuffer ] = pdTRUE ;
lNextBuffer + + ;
}
/* Set EMAC Receive Descriptor Registers. */
@ -124,9 +191,11 @@ long x;
/* Rx Descriptors Point to 0 */
MAC_RXCONSUMEINDEX = 0 ;
/* A buffer is not allocated to the Tx descriptors until they are actually
used . */
for ( x = 0 ; x < NUM_TX_FRAG ; x + + )
{
TX_DESC_PACKET ( x ) = TX_BUF ( x ) ;
TX_DESC_PACKET ( x ) = NULL ;
TX_DESC_CTRL ( x ) = 0 ;
TX_STAT_INFO ( x ) = 0 ;
}
@ -144,7 +213,7 @@ long x;
static void prvSetupEMACHardware ( void )
{
unsigned short us ;
long x
long x , lDummy ;
/* Enable P1 Ethernet Pins. */
PINSEL2 = emacPINSEL2_VALUE ;
@ -184,7 +253,7 @@ long x;
for ( x = 0 ; x < 100 ; x + + )
{
vTaskDelay ( emacSHORT_DELAY * 5 ) ;
us = read_PHY ( PHY_REG_BMCR , & us ) ;
us = read_PHY ( PHY_REG_BMCR , & lDummy ) ;
if ( ! ( us & MCFG_RES_MII ) )
{
/* Reset complete */
@ -197,7 +266,7 @@ long x;
static void prvConfigurePHY ( void )
{
unsigned short us ;
long x
long x , lDummy ;
/* Auto negotiate the configuration. */
if ( write_PHY ( PHY_REG_BMCR , PHY_AUTO_NEG ) )
@ -206,7 +275,7 @@ long x;
for ( x = 0 ; x < 10 ; x + + )
{
us = read_PHY ( PHY_REG_BMSR , & us ) ;
us = read_PHY ( PHY_REG_BMSR , & lDummy ) ;
if ( us & PHY_AUTO_NEG_COMPLETE )
{
@ -270,9 +339,9 @@ unsigned short usLinkStatus;
}
/*-----------------------------------------------------------*/
portBASE_TYPE Init_EMAC ( void )
long Init_EMAC ( void )
{
portBASE_TYPE x = pdPASS ;
long l = pdPASS ;
volatile unsigned long regv , tout ;
unsigned long ulID1 , ulID2 ;
@ -280,8 +349,8 @@ unsigned long ulID1, ulID2;
prvSetupEMACHardware ( ) ;
/* Check if connected to a DP83848C PHY. */
ulID1 = read_PHY ( PHY_REG_IDR1 , & x Return ) ;
ulID2 = read_PHY ( PHY_REG_IDR2 , & x Return ) ;
ulID1 = read_PHY ( PHY_REG_IDR1 , & l Return ) ;
ulID2 = read_PHY ( PHY_REG_IDR2 , & l Return ) ;
if ( ( ( ulID1 < < 16UL ) | ( ulID2 & 0xFFF0UL ) ) = = DP83848C_ID )
{
/* Set the Ethernet MAC Address registers */
@ -295,162 +364,169 @@ unsigned long ulID1, ulID2;
/* Receive Broadcast and Perfect Match Packets */
MAC_RXFILTERCTRL = RFC_UCAST_EN | RFC_BCAST_EN | RFC_PERFECT_EN ;
/* Create the semaphore used to wake the uIP task. */
vSemaphoreCreateBinary ( xEMACSemaphore ) ;
/* Setup the PHY. */
prvConfigurePHY ( ) ;
}
else
{
x Return = pdFAIL ;
l Return = pdFAIL ;
}
/* Check the link status. */
if ( x Return = = pdPASS )
if ( l Return = = pdPASS )
{
x Return = prvSetupLinkStatus ( ) ;
l Return = prvSetupLinkStatus ( ) ;
}
if ( x Return = = pdPASS )
if ( l Return = = pdPASS )
{
/* Initialise uip_buf to ensure it points somewhere valid. */
uip_buf = prvGetNextBuffer ( ) ;
/* Reset all interrupts */
MAC_INTCLEAR = 0xFFFF ;
MAC_INTCLEAR = ( INT_RX_OVERRUN | INT_RX_ERR | INT_RX_FIN | INT_RX_DONE | INT_TX_UNDERRUN | INT_TX_ERR | INT_TX_FIN | INT_TX_DONE | INT_SOFT_INT | INT_WAKEUP ) ;
/* Enable receive and transmit mode of MAC Ethernet core */
MAC_COMMAND | = ( CR_RX_EN | CR_TX_EN ) ;
MAC_MAC1 | = MAC1_REC_EN ;
}
return x Return;
return l Return;
}
/*-----------------------------------------------------------*/
// reads a word in little-endian byte order from RX_BUFFER
unsigned short ReadFrame_EMAC ( void )
static void prvReturnBuffer ( unsigned char * pucBuffer )
{
return ( * rptr + + ) ;
}
unsigned long ul ;
// copies bytes from frame port to MCU-memory
// NOTES: * an odd number of byte may only be transfered
// if the frame is read to the end!
// * MCU-memory MUST start at word-boundary
void CopyFromFrame_EMAC ( void * Dest , unsigned short Size )
{
unsigned short * piDest ; // Keil: Pointer added to correct expression
piDest = Dest ; // Keil: Line added
while ( Size > 1 )
/* Mark a buffer as free for use. */
for ( ul = 0 ; ul < ETH_NUM_BUFFERS ; ul + + )
{
if ( ETH_BUF ( ul ) = = ( unsigned long ) pucBuffer )
{
* piDest + + = ReadFrame_EMAC ( ) ;
Size - = 2 ;
ucBufferInUse [ ul ] = pdFALSE ;
break ;
}
}
if ( Size )
{ // check for leftover byte...
* ( unsigned char * ) piDest = ( char ) ReadFrame_EMAC ( ) ; // the LAN-Controller will return 0
} // for the highbyte
}
// Reads the length of the received ethernet frame and checks if the
// destination address is a broadcast message or not
// returns the frame length
unsigned short StartReadFrame ( void )
{
unsigned short RxLen ;
unsigned int idx ;
idx = MAC_RXCONSUMEINDEX ;
RxLen = ( RX_STAT_INFO ( idx ) & RINFO_SIZE ) - 3 ;
rptr = ( unsigned short * ) RX_DESC_PACKET ( idx ) ;
return ( RxLen ) ;
}
/*-----------------------------------------------------------*/
void EndReadFrame ( void )
unsigned long ulGetEMACRxData ( void )
{
unsigned int idx ;
unsigned long ulLen = 0 ;
long lIndex ;
/* DMA free packet. */
idx = MAC_RXCONSUMEINDEX ;
if ( + + idx = = NUM_RX_FRAG )
if ( MAC_RXPRODUCEINDEX ! = MAC_RXCONSUMEINDEX )
{
idx = 0 ;
}
/* Mark the current buffer as free as uip_buf is going to be set to
the buffer that contains the received data . */
prvReturnBuffer ( uip_buf ) ;
MAC_RXCONSUMEINDEX = idx ;
}
ulLen = ( RX_STAT_INFO ( MAC_RXCONSUMEINDEX ) & RINFO_SIZE ) - 3 ;
uip_buf = ( unsigned char * ) RX_DESC_PACKET ( MAC_RXCONSUMEINDEX ) ;
unsigned int uiGetEMACRxData ( unsigned char * ucBuffer )
{
unsigned int uiLen = 0 ;
/* Allocate a new buffer to the descriptor. */
RX_DESC_PACKET ( MAC_RXCONSUMEINDEX ) = ( unsigned long ) prvGetNextBuffer ( ) ;
if ( MAC_RXPRODUCEINDEX ! = MAC_RXCONSUMEINDEX )
/* Move the consume index onto the next position, ensuring it wraps to
the beginning at the appropriate place . */
lIndex = MAC_RXCONSUMEINDEX ;
lIndex + + ;
if ( lIndex > = NUM_RX_FRAG )
{
uiLen = StartReadFrame ( ) ;
CopyFromFrame_EMAC ( ucBuffer , uiLen ) ;
EndReadFrame ( ) ;
lIndex = 0 ;
}
return uiLen ;
}
// requests space in EMAC memory for storing an outgoing frame
void RequestSend ( void )
{
unsigned int idx ;
MAC_RXCONSUMEINDEX = lIndex ;
}
idx = MAC_TXPRODUCEINDEX ;
tptr = ( unsigned short * ) TX_DESC_PACKET ( idx ) ;
return ulLen ;
}
/*-----------------------------------------------------------*/
// writes a word in little-endian byte order to TX_BUFFER
void WriteFrame_EMAC ( unsigned short Data )
void vSendEMACTxData ( unsigned short usTxDataLen )
{
* tptr + + = Data ;
}
unsigned long ulAttempts = 0UL ;
// copies bytes from MCU-memory to frame port
// NOTES: * an odd number of byte may only be transfered
// if the frame is written to the end!
// * MCU-memory MUST start at word-boundary
void CopyToFrame_EMAC ( void * Source , unsigned int Size )
{
unsigned short * piSource ;
/* Check to see if the Tx descriptor is free, indicated by its buffer being
NULL . */
while ( TX_DESC_PACKET ( emacTX_DESC_INDEX ) ! = NULL )
{
/* Wait for the Tx descriptor to become available. */
vTaskDelay ( emacBUFFER_WAIT_DELAY ) ;
piSource = Source ;
Size = ( Size + 1 ) & 0xFFFE ; // round Size up to next even number
while ( Size > 0 )
ulAttempts + + ;
if ( ulAttempts > emacBUFFER_WAIT_ATTEMPTS )
{
WriteFrame_EMAC ( * piSource + + ) ;
Size - = 2 ;
/* Something has gone wrong as the Tx descriptor is still in use.
Clear it down manually , the data it was sending will probably be
lost . */
prvReturnBuffer ( ( unsigned char * ) TX_DESC_PACKET ( emacTX_DESC_INDEX ) ) ;
break ;
}
}
/* Setup the Tx descriptor for transmission. Remember the length of the
data being sent so the second descriptor can be used to send it again from
within the ISR . */
usSendLen = usTxDataLen ;
TX_DESC_PACKET ( emacTX_DESC_INDEX ) = ( unsigned long ) uip_buf ;
TX_DESC_CTRL ( emacTX_DESC_INDEX ) = ( usTxDataLen | TCTRL_LAST | TCTRL_INT ) ;
MAC_TXPRODUCEINDEX = ( emacTX_DESC_INDEX + 1 ) ;
/* uip_buf is being sent by the Tx descriptor. Allocate a new buffer. */
uip_buf = prvGetNextBuffer ( ) ;
}
/*-----------------------------------------------------------*/
void DoSend_EMAC ( unsigned short FrameSize )
{
unsigned int idx ;
idx = MAC_TXPRODUCEINDEX ;
TX_DESC_CTRL ( idx ) = FrameSize | TCTRL_LAST ;
if ( + + idx = = NUM_TX_FRAG )
{
idx = 0 ;
}
static char c [ 256 ] = { 0 } ;
static int i = 0 ;
MAC_TXPRODUCEINDEX = idx ;
}
void vEMAC_ISR ( void )
{
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE ;
unsigned long ulStatus ;
portBASE_TYPE xHigherPriorityTaskWoken = pdFALSE ;
ulStatus = MAC_INTSTATUS ;
/* Clear the interrupt. */
MAC_INTCLEAR = 0xffff ;
MAC_INTCLEAR = ulStatus ;
if ( ulStatus & INT_RX_DONE )
{
/* Ensure the uIP task is not blocked as data has arrived. */
xSemaphoreGiveFromISR ( xEMACSemaphore , & xHigherPriorityTaskWoken ) ;
}
if ( ulStatus & INT_TX_DONE )
{
if ( usSendLen > 0 )
{
if ( i < 255 )
c [ i + + ] = 1 ;
/* Send the data again, using the second descriptor. As there are
only two descriptors the index is set back to 0. */
TX_DESC_PACKET ( ( emacTX_DESC_INDEX + 1 ) ) = TX_DESC_PACKET ( emacTX_DESC_INDEX ) ;
TX_DESC_CTRL ( ( emacTX_DESC_INDEX + 1 ) ) = ( usSendLen | TCTRL_LAST | TCTRL_INT ) ;
MAC_TXPRODUCEINDEX = ( emacTX_DESC_INDEX ) ;
/* This is the second Tx so set usSendLen to 0 to indicate that the
Tx descriptors will be free again . */
usSendLen = 0UL ;
}
else
{
if ( i < 255 )
c [ i + + ] = 1 ;
/* The Tx buffer is no longer required. */
prvReturnBuffer ( ( unsigned char * ) TX_DESC_PACKET ( emacTX_DESC_INDEX ) ) ;
TX_DESC_PACKET ( emacTX_DESC_INDEX ) = NULL ;
}
}
portEND_SWITCHING_ISR ( xHigherPriorityTaskWoken ) ;
}
Richard Barry
16 years ago