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/*
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* Copyright ( c ) 2006 - 2023 , RT - Thread Development Team
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*
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* SPDX - License - Identifier : Apache - 2.0
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*
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* Email : opensource_embedded @ phytium . com . cn
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*
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* Change Logs :
* Date Author Notes
* 2022 - 07 - 07 liuzhihong first commit
* 2023 - 07 - 14 liuzhihong support RT - Smart
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* 2023 - 12 - 01 liuzhihong support initialisation of multiple mac
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*/
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# include "rtconfig.h"
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# ifdef BSP_USING_ETH
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# include "board.h"
# define LOG_TAG "xmac_drv"
# include "drv_log.h"
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# include "mm_aspace.h"
# ifdef RT_USING_SMART
# include "ioremap.h"
# endif
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# include "eth_board.h"
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# include "drv_xmac.h"
# define FXMAC_BD_TO_INDEX(ringptr, bdptr) \
( ( ( uintptr ) bdptr - ( uintptr ) ( ringptr ) - > base_bd_addr ) / ( ringptr ) - > separation )
static void FXmacInitOnError ( FXmacOs * instance_p ) ;
static void FXmacSetupIsr ( FXmacOs * instance_p ) ;
static FXmacOs fxmac_os_instace [ FXMAC_NUM ] =
{
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[ FXMAC0_ID ] =
{
. config = ( 0 ) ,
. hwaddr = { 0x98 , 0x0e , 0x24 , 0x00 , 0x11 , 0x0 } ,
} ,
[ FXMAC1_ID ] =
{
. config = ( 0 ) ,
. hwaddr = { 0x98 , 0x0e , 0x24 , 0x00 , 0x11 , 0x1 } ,
} ,
[ FXMAC2_ID ] =
{
. config = ( 0 ) ,
. hwaddr = { 0x98 , 0x0e , 0x24 , 0x00 , 0x11 , 0x2 } ,
} ,
[ FXMAC3_ID ] =
{
. config = ( 0 ) ,
. hwaddr = { 0x98 , 0x0e , 0x24 , 0x00 , 0x11 , 0x3 } ,
} ,
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} ;
int isr_calling_flg = 0 ;
/* queue */
void FXmacQueueInit ( PqQueue * q )
{
FASSERT ( q ! = NULL ) ;
q - > head = q - > tail = q - > len = 0 ;
}
int FXmacPqEnqueue ( PqQueue * q , void * p )
{
if ( q - > len = = PQ_QUEUE_SIZE )
{
return - 1 ;
}
q - > data [ q - > head ] = ( uintptr ) p ;
q - > head = ( q - > head + 1 ) % PQ_QUEUE_SIZE ;
q - > len + + ;
return 0 ;
}
void * FXmacPqDequeue ( PqQueue * q )
{
int ptail ;
if ( q - > len = = 0 )
{
return NULL ;
}
ptail = q - > tail ;
q - > tail = ( q - > tail + 1 ) % PQ_QUEUE_SIZE ;
q - > len - - ;
return ( void * ) q - > data [ ptail ] ;
}
int FXmacPqQlength ( PqQueue * q )
{
return q - > len ;
}
/* dma */
/**
* @ name : IsTxSpaceAvailable
* @ msg : Get the number of free BDs in the Bdrings
* @ param { ethernetif } * ethernetif_p
* @ return { * }
*/
static u32 IsTxSpaceAvailable ( FXmacOs * instance_p )
{
FXmacBdRing * txring ;
u32 freecnt ;
FASSERT ( instance_p ! = NULL ) ;
txring = & ( FXMAC_GET_TXRING ( instance_p - > instance ) ) ;
/* tx space is available as long as there are valid BD's */
freecnt = FXMAC_BD_RING_GET_FREE_CNT ( txring ) ;
return freecnt ;
}
/**
* @ name : FXmacProcessSentBds
* @ msg : Free up memory space of pbuf on the send queue
* @ return { * }
* @ param { ethernetif } * ethernetif_p
* @ param { FXmacBdRing } * txring
*/
void FXmacProcessSentBds ( FXmacOs * instance_p , FXmacBdRing * txring )
{
FXmacBd * txbdset ;
FXmacBd * curbdpntr ;
u32 n_bds ;
FError status ;
u32 n_pbufs_freed ;
u32 bdindex ;
struct pbuf * p ;
u32 * temp ;
while ( 1 )
{
/* obtain processed BD's */
n_bds = FXmacBdRingFromHwTx ( txring , FXMAX_TX_PBUFS_LENGTH , & txbdset ) ;
if ( n_bds = = 0 )
{
return ;
}
/* free the processed BD's */
n_pbufs_freed = n_bds ;
curbdpntr = txbdset ;
while ( n_pbufs_freed > 0 )
{
bdindex = FXMAC_BD_TO_INDEX ( txring , curbdpntr ) ;
temp = ( u32 * ) curbdpntr ;
* temp = 0 ; /* Word 0 */
temp + + ;
if ( bdindex = = ( FXMAX_TX_PBUFS_LENGTH - 1 ) )
{
* temp = 0xC0000000 ; /* Word 1 ,used/Wrap – marks last descriptor in transmit buffer descriptor list.*/
}
else
{
* temp = 0x80000000 ; /* Word 1 , Used – must be zero for GEM to read data to the transmit buffer.*/
}
p = ( struct pbuf * ) instance_p - > buffer . tx_pbufs_storage [ bdindex ] ;
if ( p ! = NULL )
{
pbuf_free ( p ) ;
}
instance_p - > buffer . tx_pbufs_storage [ bdindex ] = ( uintptr ) NULL ;
curbdpntr = FXMAC_BD_RING_NEXT ( txring , curbdpntr ) ;
n_pbufs_freed - - ;
}
status = FXmacBdRingFree ( txring , n_bds , txbdset ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_I ( " Failure while freeing in Tx Done ISR. " ) ;
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}
}
return ;
}
FError FXmacSgsend ( FXmacOs * instance_p , struct pbuf * p )
{
struct pbuf * q ;
u32 n_pbufs ;
FXmacBd * txbdset , * txbd , * last_txbd = NULL ;
FXmacBd * temp_txbd ;
FError status ;
FXmacBdRing * txring ;
u32 bdindex ;
uintptr tx_payload ;
u32 max_fr_size ;
txring = & ( FXMAC_GET_TXRING ( instance_p - > instance ) ) ;
/* first count the number of pbufs */
for ( q = p , n_pbufs = 0 ; q ! = NULL ; q = q - > next )
{
n_pbufs + + ;
}
/* obtain as many BD's */
status = FXmacBdRingAlloc ( txring , n_pbufs , & txbdset ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_I ( " sgsend: Error allocating TxBD. " ) ;
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return ERR_GENERAL ;
}
for ( q = p , txbd = txbdset ; q ! = NULL ; q = q - > next )
{
bdindex = FXMAC_BD_TO_INDEX ( txring , txbd ) ;
if ( instance_p - > buffer . tx_pbufs_storage [ bdindex ] )
{
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LOG_I ( " txbd %p, txring->base_bd_addr %p " , txbd , txring - > base_bd_addr ) ;
LOG_I ( " PBUFS not available bdindex is %d " , bdindex ) ;
LOG_I ( " instance_p->buffer.tx_pbufs_storage[bdindex] %p " , instance_p - > buffer . tx_pbufs_storage [ bdindex ] ) ;
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return ERR_GENERAL ;
}
/* Send the data from the pbuf to the interface, one pbuf at a
time . The size of the data in each pbuf is kept in the - > len
variable . */
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tx_payload = ( uintptr ) q - > payload ;
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# ifdef RT_USING_SMART
tx_payload + = PV_OFFSET ;
# endif
FXMAC_BD_SET_ADDRESS_TX ( txbd , ( uintptr ) tx_payload ) ;
if ( instance_p - > config & FXMAC_OS_CONFIG_JUMBO )
{
max_fr_size = FXMAC_MAX_FRAME_SIZE_JUMBO ;
}
else
{
max_fr_size = FXMAC_MAX_FRAME_SIZE ;
}
if ( q - > len > max_fr_size )
{
FXMAC_BD_SET_LENGTH ( txbd , max_fr_size & 0x3FFF ) ;
}
else
{
FXMAC_BD_SET_LENGTH ( txbd , q - > len & 0x3FFF ) ;
}
instance_p - > buffer . tx_pbufs_storage [ bdindex ] = ( uintptr ) q ;
pbuf_ref ( q ) ;
last_txbd = txbd ;
FXMAC_BD_CLEAR_LAST ( txbd ) ;
txbd = FXMAC_BD_RING_NEXT ( txring , txbd ) ;
}
FXMAC_BD_SET_LAST ( last_txbd ) ;
/* For fragmented packets, remember the 1st BD allocated for the 1st
packet fragment . The used bit for this BD should be cleared at the end
after clearing out used bits for other fragments . For packets without
just remember the allocated BD . */
temp_txbd = txbdset ;
txbd = txbdset ;
txbd = FXMAC_BD_RING_NEXT ( txring , txbd ) ;
q = p - > next ;
for ( ; q ! = NULL ; q = q - > next )
{
FXMAC_BD_CLEAR_TX_USED ( txbd ) ;
txbd = FXMAC_BD_RING_NEXT ( txring , txbd ) ;
}
FXMAC_BD_CLEAR_TX_USED ( temp_txbd ) ;
status = FXmacBdRingToHw ( txring , n_pbufs , txbdset ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_I ( " sgsend: Error submitting TxBD. " ) ;
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return ERR_GENERAL ;
}
/* Start transmit */
FXMAC_WRITEREG32 ( ( instance_p - > instance ) . config . base_address ,
FXMAC_NWCTRL_OFFSET ,
( FXMAC_READREG32 ( instance_p - > instance . config . base_address ,
FXMAC_NWCTRL_OFFSET ) |
FXMAC_NWCTRL_STARTTX_MASK ) ) ;
return status ;
}
void SetupRxBds ( FXmacOs * instance_p , FXmacBdRing * rxring )
{
FXmacBd * rxbd ;
FError status ;
struct pbuf * p ;
u32 freebds ;
u32 bdindex ;
u32 * temp ;
uintptr_t pl_paddr ;
freebds = FXMAC_BD_RING_GET_FREE_CNT ( rxring ) ;
while ( freebds > 0 )
{
freebds - - ;
if ( instance_p - > config & FXMAC_OS_CONFIG_JUMBO )
{
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p = pbuf_alloc ( PBUF_RAW , FXMAC_MAX_FRAME_SIZE_JUMBO , PBUF_RAM ) ;
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}
else
{
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p = pbuf_alloc ( PBUF_RAW , FXMAC_MAX_FRAME_SIZE , PBUF_RAM ) ;
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}
if ( ! p )
{
# if LINK_STATS
lwip_stats . link . memerr + + ;
lwip_stats . link . drop + + ;
# endif
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LOG_I ( " Unable to alloc pbuf in recv_handler. " ) ;
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return ;
}
status = FXmacBdRingAlloc ( rxring , 1 , & rxbd ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_I ( " SetupRxBds: Error allocating RxBD. " ) ;
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pbuf_free ( p ) ;
return ;
}
status = FXmacBdRingToHw ( rxring , 1 , rxbd ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_I ( " Error committing RxBD to hardware: " ) ;
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if ( status = = FXMAC_ERR_SG_LIST )
{
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LOG_I ( " XST_DMA_SG_LIST_ERROR: this function was called out of sequence with FXmacBdRingAlloc(). " ) ;
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}
else
{
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LOG_I ( " Set of BDs was rejected because the first BD did not have its start-of-packet bit set, or the last BD did not have its end-of-packet bit set, or any one of the BD set has 0 as length value. " ) ;
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}
pbuf_free ( p ) ;
FXmacBdRingUnAlloc ( rxring , 1 , rxbd ) ;
return ;
}
bdindex = FXMAC_BD_TO_INDEX ( rxring , rxbd ) ;
temp = ( u32 * ) rxbd ;
if ( bdindex = = ( FXMAX_RX_PBUFS_LENGTH - 1 ) )
{
* temp = 0x00000002 ;
}
else
{
* temp = 0 ;
}
temp + + ;
* temp = 0 ;
pl_paddr = ( uintptr ) p - > payload ;
# ifdef RT_USING_SMART
pl_paddr + = PV_OFFSET ;
# endif
FXMAC_BD_SET_ADDRESS_RX ( rxbd , ( uintptr ) pl_paddr ) ;
instance_p - > buffer . rx_pbufs_storage [ bdindex ] = ( uintptr ) p ;
}
}
void FXmacRecvSemaphoreHandler ( void * arg )
{
FXmacOs * instance_p ;
rt_err_t result ;
if ( RT_NULL = = arg )
{
LOG_E ( " Args is NULL " ) ;
return ;
}
instance_p = ( FXmacOs * ) arg ;
result = eth_device_ready ( & ( instance_p - > parent ) ) ;
if ( result ! = RT_EOK )
{
LOG_I ( " RxCpltCallback err = %d " , result ) ;
}
}
void FXmacRecvHandler ( void * arg )
{
struct pbuf * p ;
FXmacBd * rxbdset , * curbdptr ;
FXmacBdRing * rxring ;
volatile u32 bd_processed ;
u32 rx_bytes , k ;
u32 bdindex ;
u32 regval ;
FXmacOs * instance_p ;
FASSERT ( arg ! = NULL ) ;
instance_p = ( FXmacOs * ) arg ;
rxring = & FXMAC_GET_RXRING ( instance_p - > instance ) ;
/* If Reception done interrupt is asserted, call RX call back function
to handle the processed BDs and then raise the according flag . */
regval = FXMAC_READREG32 ( instance_p - > instance . config . base_address , FXMAC_RXSR_OFFSET ) ;
FXMAC_WRITEREG32 ( instance_p - > instance . config . base_address , FXMAC_RXSR_OFFSET , regval ) ;
while ( 1 )
{
bd_processed = FXmacBdRingFromHwRx ( rxring , FXMAX_RX_PBUFS_LENGTH , & rxbdset ) ;
if ( bd_processed < = 0 )
{
break ;
}
for ( k = 0 , curbdptr = rxbdset ; k < bd_processed ; k + + )
{
bdindex = FXMAC_BD_TO_INDEX ( rxring , curbdptr ) ;
p = ( struct pbuf * ) instance_p - > buffer . rx_pbufs_storage [ bdindex ] ;
/*
* Adjust the buffer size to the actual number of bytes received .
*/
if ( instance_p - > config & FXMAC_OS_CONFIG_JUMBO )
{
rx_bytes = FXMAC_GET_RX_FRAME_SIZE ( curbdptr ) ;
}
else
{
rx_bytes = FXMAC_BD_GET_LENGTH ( curbdptr ) ;
}
pbuf_realloc ( p , rx_bytes ) ;
/* Invalidate RX frame before queuing to handle
* L1 cache prefetch conditions on any architecture .
*/
// FCacheDCacheInvalidateRange((uintptr)p->payload, rx_bytes);
/* store it in the receive queue,
* where it ' ll be processed by a different handler
*/
if ( FXmacPqEnqueue ( & instance_p - > recv_q , ( void * ) p ) < 0 )
{
# if LINK_STATS
lwip_stats . link . memerr + + ;
lwip_stats . link . drop + + ;
# endif
pbuf_free ( p ) ;
}
instance_p - > buffer . rx_pbufs_storage [ bdindex ] = ( uintptr ) NULL ;
curbdptr = FXMAC_BD_RING_NEXT ( rxring , curbdptr ) ;
}
/* free up the BD's */
FXmacBdRingFree ( rxring , bd_processed , rxbdset ) ;
SetupRxBds ( instance_p , rxring ) ;
}
return ;
}
void CleanDmaTxdescs ( FXmacOs * instance_p )
{
FXmacBd bdtemplate ;
FXmacBdRing * txringptr ;
txringptr = & FXMAC_GET_TXRING ( ( instance_p - > instance ) ) ;
FXMAC_BD_CLEAR ( & bdtemplate ) ;
FXMAC_BD_SET_STATUS ( & bdtemplate , FXMAC_TXBUF_USED_MASK ) ;
FXmacBdRingCreate ( txringptr , ( uintptr ) instance_p - > buffer . tx_bdspace ,
( uintptr ) instance_p - > buffer . tx_bdspace , BD_ALIGNMENT ,
sizeof ( instance_p - > buffer . tx_bdspace ) ) ;
FXmacBdRingClone ( txringptr , & bdtemplate , FXMAC_SEND ) ;
}
FError FXmacInitDma ( FXmacOs * instance_p )
{
FXmacBd bdtemplate ;
FXmacBdRing * rxringptr , * txringptr ;
FXmacBd * rxbd ;
struct pbuf * p ;
FError status ;
int i ;
u32 bdindex ;
u32 * temp ;
uintptr rx_paddr ;
uintptr tx_paddr ;
uintptr pl_paddr ;
/*
* The BDs need to be allocated in uncached memory . Hence the 1 MB
* address range allocated for Bd_Space is made uncached
* by setting appropriate attributes in the translation table .
* The Bd_Space is aligned to 1 MB and has a size of 1 MB . This ensures
* a reserved uncached area used only for BDs .
*/
rxringptr = & FXMAC_GET_RXRING ( instance_p - > instance ) ;
txringptr = & FXMAC_GET_TXRING ( instance_p - > instance ) ;
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LOG_I ( " rxringptr: 0x%08x " , rxringptr ) ;
LOG_I ( " txringptr: 0x%08x " , txringptr ) ;
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LOG_I ( " rx_bdspace: %p " , instance_p - > buffer . rx_bdspace ) ;
LOG_I ( " tx_bdspace: %p " , instance_p - > buffer . tx_bdspace ) ;
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/* Setup RxBD space. */
FXMAC_BD_CLEAR ( & bdtemplate ) ;
rx_paddr = ( uintptr ) instance_p - > buffer . rx_bdspace ;
# ifdef RT_USING_SMART
rx_paddr + = PV_OFFSET ;
# endif
/* Create the RxBD ring */
status = FXmacBdRingCreate ( rxringptr , ( uintptr ) rx_paddr ,
( uintptr ) instance_p - > buffer . rx_bdspace , BD_ALIGNMENT ,
FXMAX_RX_PBUFS_LENGTH ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_I ( " Error setting up RxBD space. " ) ;
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return ERR_IF ;
}
status = FXmacBdRingClone ( rxringptr , & bdtemplate , FXMAC_RECV ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_I ( " Error initializing RxBD space. " ) ;
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return ERR_IF ;
}
FXMAC_BD_CLEAR ( & bdtemplate ) ;
FXMAC_BD_SET_STATUS ( & bdtemplate , FXMAC_TXBUF_USED_MASK ) ;
tx_paddr = ( uintptr ) instance_p - > buffer . tx_bdspace ;
# ifdef RT_USING_SMART
tx_paddr + = PV_OFFSET ;
# endif
/* Create the TxBD ring */
status = FXmacBdRingCreate ( txringptr , ( uintptr ) tx_paddr ,
( uintptr ) instance_p - > buffer . tx_bdspace , BD_ALIGNMENT ,
FXMAX_TX_PBUFS_LENGTH ) ;
if ( status ! = FT_SUCCESS )
{
return ERR_IF ;
}
/* We reuse the bd template, as the same one will work for both rx and tx. */
status = FXmacBdRingClone ( txringptr , & bdtemplate , FXMAC_SEND ) ;
if ( status ! = FT_SUCCESS )
{
return ERR_IF ;
}
/*
* Allocate RX descriptors , 1 RxBD at a time .
*/
for ( i = 0 ; i < FXMAX_RX_PBUFS_LENGTH ; i + + )
{
if ( instance_p - > config & FXMAC_OS_CONFIG_JUMBO )
{
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p = pbuf_alloc ( PBUF_RAW , FXMAC_MAX_FRAME_SIZE_JUMBO , PBUF_RAM ) ;
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}
else
{
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p = pbuf_alloc ( PBUF_RAW , FXMAC_MAX_FRAME_SIZE , PBUF_RAM ) ;
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}
if ( ! p )
{
# if LINK_STATS
lwip_stats . link . memerr + + ;
lwip_stats . link . drop + + ;
# endif
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LOG_E ( " Unable to alloc pbuf in InitDma. " ) ;
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return ERR_IF ;
}
status = FXmacBdRingAlloc ( rxringptr , 1 , & rxbd ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_E ( " InitDma: Error allocating RxBD. " ) ;
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pbuf_free ( p ) ;
return ERR_IF ;
}
/* Enqueue to HW */
status = FXmacBdRingToHw ( rxringptr , 1 , rxbd ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_E ( " Error: committing RxBD to HW. " ) ;
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pbuf_free ( p ) ;
FXmacBdRingUnAlloc ( rxringptr , 1 , rxbd ) ;
return ERR_IF ;
}
bdindex = FXMAC_BD_TO_INDEX ( rxringptr , rxbd ) ;
temp = ( u32 * ) rxbd ;
* temp = 0 ;
if ( bdindex = = ( FXMAX_RX_PBUFS_LENGTH - 1 ) )
{
* temp = 0x00000002 ;
}
temp + + ;
* temp = 0 ;
pl_paddr = ( uintptr ) p - > payload ;
# ifdef RT_USING_SMART
pl_paddr + = PV_OFFSET ;
# endif
FXMAC_BD_SET_ADDRESS_RX ( rxbd , ( uintptr ) pl_paddr ) ;
instance_p - > buffer . rx_pbufs_storage [ bdindex ] = ( uintptr ) p ;
}
FXmacSetQueuePtr ( & ( instance_p - > instance ) , instance_p - > instance . tx_bd_queue . bdring . phys_base_addr , 0 , ( u16 ) FXMAC_SEND ) ;
FXmacSetQueuePtr ( & ( instance_p - > instance ) , instance_p - > instance . rx_bd_queue . bdring . phys_base_addr , 0 , ( u16 ) FXMAC_RECV ) ;
return 0 ;
}
static void FreeOnlyTxPbufs ( FXmacOs * instance_p )
{
u32 index ;
struct pbuf * p ;
for ( index = 0 ; index < ( FXMAX_TX_PBUFS_LENGTH ) ; index + + )
{
if ( instance_p - > buffer . tx_pbufs_storage [ index ] ! = 0 )
{
p = ( struct pbuf * ) instance_p - > buffer . tx_pbufs_storage [ index ] ;
pbuf_free ( p ) ;
instance_p - > buffer . tx_pbufs_storage [ index ] = ( uintptr ) NULL ;
}
instance_p - > buffer . tx_pbufs_storage [ index ] = ( uintptr ) 0 ;
}
}
static void FreeOnlyRxPbufs ( FXmacOs * instance_p )
{
u32 index ;
struct pbuf * p ;
for ( index = 0 ; index < ( FXMAX_RX_PBUFS_LENGTH ) ; index + + )
{
if ( instance_p - > buffer . rx_pbufs_storage [ index ] ! = 0 )
{
p = ( struct pbuf * ) instance_p - > buffer . rx_pbufs_storage [ index ] ;
pbuf_free ( p ) ;
instance_p - > buffer . rx_pbufs_storage [ index ] = ( uintptr ) 0 ;
}
}
}
static void FreeTxRxPbufs ( FXmacOs * instance_p )
{
u32 rx_queue_len ;
struct pbuf * p ;
/* first :free PqQueue data */
rx_queue_len = FXmacPqQlength ( & instance_p - > recv_q ) ;
while ( rx_queue_len )
{
/* return one packet from receive q */
p = ( struct pbuf * ) FXmacPqDequeue ( & instance_p - > recv_q ) ;
pbuf_free ( p ) ;
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LOG_E ( " Delete queue %p " , p ) ;
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rx_queue_len - - ;
}
FreeOnlyTxPbufs ( instance_p ) ;
FreeOnlyRxPbufs ( instance_p ) ;
}
/* interrupt */
static void FXmacHandleDmaTxError ( FXmacOs * instance_p )
{
s32_t status = FT_SUCCESS ;
u32 dmacrreg ;
FreeTxRxPbufs ( instance_p ) ;
status = FXmacCfgInitialize ( & instance_p - > instance , & instance_p - > instance . config ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_E ( " In %s:EmacPs Configuration Failed.... " , __func__ ) ;
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}
/* initialize the mac */
FXmacInitOnError ( instance_p ) ; /* need to set mac filter address */
dmacrreg = FXMAC_READREG32 ( instance_p - > instance . config . base_address , FXMAC_DMACR_OFFSET ) ;
dmacrreg = dmacrreg | ( FXMAC_DMACR_ORCE_DISCARD_ON_ERR_MASK ) ; /* force_discard_on_err */
FXMAC_WRITEREG32 ( instance_p - > instance . config . base_address , FXMAC_DMACR_OFFSET , dmacrreg ) ;
FXmacSetupIsr ( instance_p ) ;
FXmacInitDma ( instance_p ) ;
FXmacStart ( & instance_p - > instance ) ;
}
void FXmacHandleTxErrors ( FXmacOs * instance_p )
{
u32 netctrlreg ;
netctrlreg = FXMAC_READREG32 ( instance_p - > instance . config . base_address ,
FXMAC_NWCTRL_OFFSET ) ;
netctrlreg = netctrlreg & ( ~ FXMAC_NWCTRL_TXEN_MASK ) ;
FXMAC_WRITEREG32 ( instance_p - > instance . config . base_address ,
FXMAC_NWCTRL_OFFSET , netctrlreg ) ;
FreeOnlyTxPbufs ( instance_p ) ;
CleanDmaTxdescs ( instance_p ) ;
netctrlreg = FXMAC_READREG32 ( instance_p - > instance . config . base_address , FXMAC_NWCTRL_OFFSET ) ;
netctrlreg = netctrlreg | ( FXMAC_NWCTRL_TXEN_MASK ) ;
FXMAC_WRITEREG32 ( instance_p - > instance . config . base_address , FXMAC_NWCTRL_OFFSET , netctrlreg ) ;
}
void FXmacErrorHandler ( void * arg , u8 direction , u32 error_word )
{
FXmacBdRing * rxring ;
FXmacBdRing * txring ;
FXmacOs * instance_p ;
instance_p = ( FXmacOs * ) arg ;
rxring = & FXMAC_GET_RXRING ( instance_p - > instance ) ;
txring = & FXMAC_GET_TXRING ( instance_p - > instance ) ;
if ( error_word ! = 0 )
{
switch ( direction )
{
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case FXMAC_RECV :
if ( error_word & FXMAC_RXSR_HRESPNOK_MASK )
{
LOG_I ( " Receive DMA error. " ) ;
FXmacHandleDmaTxError ( instance_p ) ;
}
if ( error_word & FXMAC_RXSR_RXOVR_MASK )
{
LOG_I ( " Receive over run. " ) ;
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FXmacRecvHandler ( arg ) ;
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}
if ( error_word & FXMAC_RXSR_BUFFNA_MASK )
{
LOG_I ( " Receive buffer not available. " ) ;
FXmacRecvHandler ( arg ) ;
}
break ;
case FXMAC_SEND :
if ( error_word & FXMAC_TXSR_HRESPNOK_MASK )
{
LOG_I ( " Transmit DMA error. " ) ;
FXmacHandleDmaTxError ( instance_p ) ;
}
if ( error_word & FXMAC_TXSR_URUN_MASK )
{
LOG_I ( " Transmit under run. " ) ;
FXmacHandleTxErrors ( instance_p ) ;
}
if ( error_word & FXMAC_TXSR_BUFEXH_MASK )
{
LOG_I ( " Transmit buffer exhausted. " ) ;
FXmacHandleTxErrors ( instance_p ) ;
}
if ( error_word & FXMAC_TXSR_RXOVR_MASK )
{
LOG_I ( " Transmit retry excessed limits. " ) ;
FXmacHandleTxErrors ( instance_p ) ;
}
if ( error_word & FXMAC_TXSR_FRAMERX_MASK )
{
LOG_I ( " Transmit collision. " ) ;
FXmacProcessSentBds ( instance_p , txring ) ;
}
break ;
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}
}
}
void FXmacLinkChange ( void * arg )
{
u32 ctrl ;
u32 link , link_status ;
FXmac * xmac_p ;
FXmacOs * instance_p ;
instance_p = ( FXmacOs * ) arg ;
xmac_p = & instance_p - > instance ;
if ( xmac_p - > config . interface = = FXMAC_PHY_INTERFACE_MODE_SGMII )
{
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LOG_I ( " xmac_p->config.base_address is %p " , xmac_p - > config . base_address ) ;
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ctrl = FXMAC_READREG32 ( xmac_p - > config . base_address , FXMAC_PCS_AN_LP_OFFSET ) ;
link = ( ctrl & FXMAC_PCS_LINK_PARTNER_NEXT_PAGE_STATUS ) > > 15 ;
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switch ( link )
{
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case 0 :
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LOG_I ( " Link status is down " ) ;
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link_status = FXMAC_LINKDOWN ;
break ;
case 1 :
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LOG_I ( " Link status is up " ) ;
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link_status = FXMAC_LINKUP ;
break ;
default :
LOG_E ( " Link status is error 0x%x " , link ) ;
return ;
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}
if ( link_status = = FXMAC_LINKUP )
{
if ( link_status ! = xmac_p - > link_status )
{
xmac_p - > link_status = FXMAC_NEGOTIATING ;
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LOG_I ( " Need NEGOTIATING. " ) ;
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}
}
else
{
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xmac_p - > link_status = FXMAC_LINKDOWN ;
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}
}
}
/* phy */
/**
* @ name : FXmacPhyLinkDetect
* @ msg : Get current link status
* @ note :
* @ param { FXmac } * fxmac_p
* @ param { u32 } phy_addr
* @ return { * } 1 is link up , 0 is link down
*/
static u32 FXmacPhyLinkDetect ( FXmac * xmac_p , u32 phy_addr )
{
u16 status ;
/* Read Phy Status register twice to get the confirmation of the current
* link status .
*/
FXmacPhyRead ( xmac_p , phy_addr , PHY_STATUS_REG_OFFSET , & status ) ;
if ( status & PHY_STAT_LINK_STATUS )
{
return 1 ;
}
return 0 ;
}
static u32 FXmacPhyAutonegStatus ( FXmac * xmac_p , u32 phy_addr )
{
u16 status ;
/* Read Phy Status register twice to get the confirmation of the current
* link status .
*/
FXmacPhyRead ( xmac_p , phy_addr , PHY_STATUS_REG_OFFSET , & status ) ;
if ( status & PHY_STATUS_AUTONEGOTIATE_COMPLETE )
{
return 1 ;
}
return 0 ;
}
enum lwip_port_link_status FXmacLwipPortLinkDetect ( FXmacOs * instance_p )
{
u32 phy_link_status ;
FXmac * xmac_p = & instance_p - > instance ;
if ( xmac_p - > is_ready ! = ( u32 ) FT_COMPONENT_IS_READY )
{
return ETH_LINK_UNDEFINED ;
}
phy_link_status = FXmacPhyLinkDetect ( xmac_p , xmac_p - > phy_address ) ;
if ( ( xmac_p - > link_status = = FXMAC_LINKUP ) & & ( ! phy_link_status ) )
{
xmac_p - > link_status = FXMAC_LINKDOWN ;
}
switch ( xmac_p - > link_status )
{
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case FXMAC_LINKUP :
return ETH_LINK_UP ;
case FXMAC_LINKDOWN :
xmac_p - > link_status = FXMAC_NEGOTIATING ;
LOG_D ( " Ethernet Link down. " ) ;
return ETH_LINK_DOWN ;
case FXMAC_NEGOTIATING :
if ( ( phy_link_status = = FXMAC_LINKUP ) & & FXmacPhyAutonegStatus ( xmac_p , xmac_p - > phy_address ) )
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{
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err_t phy_ret ;
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phy_ret = FXmacPhyInit ( xmac_p , xmac_p - > config . speed , xmac_p - > config . duplex , xmac_p - > config . auto_neg , XMAC_PHY_RESET_DISABLE ) ;
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if ( phy_ret ! = FT_SUCCESS )
{
LOG_E ( " FXmacPhyInit is error. " ) ;
return ETH_LINK_DOWN ;
}
FXmacSelectClk ( xmac_p ) ;
FXmacInitInterface ( xmac_p ) ;
/* Initiate Phy setup to get link speed */
xmac_p - > link_status = FXMAC_LINKUP ;
LOG_D ( " Ethernet Link up. " ) ;
return ETH_LINK_UP ;
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}
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return ETH_LINK_DOWN ;
default :
return ETH_LINK_DOWN ;
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}
}
enum lwip_port_link_status FXmacPhyReconnect ( FXmacOs * instance_p )
{
FXmac * xmac_p ;
xmac_p = & instance_p - > instance ;
if ( xmac_p - > config . interface = = FXMAC_PHY_INTERFACE_MODE_SGMII )
{
rt_hw_interrupt_mask ( xmac_p - > config . queue_irq_num [ 0 ] ) ;
if ( xmac_p - > link_status = = FXMAC_NEGOTIATING )
{
/* auto negotiation again*/
err_t phy_ret ;
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phy_ret = FXmacPhyInit ( xmac_p , xmac_p - > config . speed , xmac_p - > config . duplex , xmac_p - > config . auto_neg , XMAC_PHY_RESET_DISABLE ) ;
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if ( phy_ret ! = FT_SUCCESS )
{
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LOG_I ( " FXmacPhyInit is error. " ) ;
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rt_hw_interrupt_umask ( xmac_p - > config . queue_irq_num [ 0 ] ) ;
return ETH_LINK_DOWN ;
}
FXmacSelectClk ( xmac_p ) ;
FXmacInitInterface ( xmac_p ) ;
xmac_p - > link_status = FXMAC_LINKUP ;
}
rt_hw_interrupt_umask ( xmac_p - > config . queue_irq_num [ 0 ] ) ;
switch ( xmac_p - > link_status )
{
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case FXMAC_LINKDOWN :
return ETH_LINK_DOWN ;
case FXMAC_LINKUP :
return ETH_LINK_UP ;
default :
return ETH_LINK_DOWN ;
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}
}
else if ( ( xmac_p - > config . interface = = FXMAC_PHY_INTERFACE_MODE_RMII ) | | ( xmac_p - > config . interface = = FXMAC_PHY_INTERFACE_MODE_RGMII ) )
{
return FXmacLwipPortLinkDetect ( instance_p ) ;
}
else
{
switch ( xmac_p - > link_status )
{
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case FXMAC_LINKDOWN :
return ETH_LINK_DOWN ;
case FXMAC_LINKUP :
return ETH_LINK_UP ;
default :
return ETH_LINK_DOWN ;
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}
}
}
static void FxmacOsIntrHandler ( s32 vector , void * args )
{
isr_calling_flg + + ;
FXmacIntrHandler ( vector , args ) ;
isr_calling_flg - - ;
}
static void FXmacSetupIsr ( FXmacOs * instance_p )
{
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/* Setup callbacks */
FXmacSetHandler ( & instance_p - > instance , FXMAC_HANDLER_DMARECV , FXmacRecvSemaphoreHandler , instance_p ) ;
FXmacSetHandler ( & instance_p - > instance , FXMAC_HANDLER_ERROR , FXmacErrorHandler , instance_p ) ;
FXmacSetHandler ( & instance_p - > instance , FXMAC_HANDLER_LINKCHANGE , FXmacLinkChange , instance_p ) ;
rt_hw_interrupt_install ( instance_p - > instance . config . queue_irq_num [ 0 ] , FxmacOsIntrHandler , & instance_p - > instance , " fxmac " ) ;
rt_hw_interrupt_umask ( instance_p - > instance . config . queue_irq_num [ 0 ] ) ;
}
/* init fxmac instance */
static void FXmacInitOnError ( FXmacOs * instance_p )
{
FXmac * xmac_p ;
u32 status = FT_SUCCESS ;
xmac_p = & instance_p - > instance ;
/* set mac address */
status = FXmacSetMacAddress ( xmac_p , ( void * ) ( instance_p - > hwaddr ) , 1 ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_E ( " In %s:Emac Mac Address set failed... " , __func__ ) ;
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}
}
/* step 1: initialize instance */
/* step 2: depend on config set some options : JUMBO / IGMP */
/* step 3: FXmacSelectClk */
/* step 4: FXmacInitInterface */
/* step 5: initialize phy */
/* step 6: initialize dma */
/* step 7: initialize interrupt */
/* step 8: start mac */
FError FXmacOsInit ( FXmacOs * instance_p )
{
FXmacConfig mac_config ;
FXmacConfig * mac_config_p ;
FXmacPhyInterface interface = FXMAC_PHY_INTERFACE_MODE_SGMII ;
FXmac * xmac_p ;
u32 dmacrreg ;
FError status ;
FASSERT ( instance_p ! = NULL ) ;
FASSERT ( instance_p - > mac_config . instance_id < FXMAC_NUM ) ;
xmac_p = & instance_p - > instance ;
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LOG_I ( " instance_id IS %d " , instance_p - > mac_config . instance_id ) ;
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mac_config_p = FXmacLookupConfig ( instance_p - > mac_config . instance_id ) ;
if ( mac_config_p = = NULL )
{
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LOG_E ( " FXmacLookupConfig is error , instance_id is %d " , instance_p - > mac_config . instance_id ) ;
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return FREERTOS_XMAC_INIT_ERROR ;
}
# ifdef RT_USING_SMART
mac_config_p - > base_address = ( uintptr ) rt_ioremap ( ( void * ) mac_config_p - > base_address , 0x2000 ) ;
# endif
mac_config = * mac_config_p ;
switch ( instance_p - > mac_config . interface )
{
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case FXMAC_OS_INTERFACE_SGMII :
interface = FXMAC_PHY_INTERFACE_MODE_SGMII ;
LOG_I ( " SGMII select. " ) ;
break ;
case FXMAC_OS_INTERFACE_RMII :
interface = FXMAC_PHY_INTERFACE_MODE_RMII ;
LOG_I ( " RMII select. " ) ;
break ;
case FXMAC_OS_INTERFACE_RGMII :
LOG_I ( " RGMII select. " ) ;
interface = FXMAC_PHY_INTERFACE_MODE_RGMII ;
break ;
default :
LOG_E ( " Update interface is error , interface is %d " , instance_p - > mac_config . instance_id ) ;
return FREERTOS_XMAC_INIT_ERROR ;
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}
mac_config . interface = interface ;
if ( instance_p - > mac_config . autonegotiation )
{
mac_config . auto_neg = 1 ;
}
else
{
mac_config . auto_neg = 0 ;
}
switch ( instance_p - > mac_config . phy_speed )
{
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case FXMAC_PHY_SPEED_10M :
mac_config . speed = FXMAC_SPEED_10 ;
break ;
case FXMAC_PHY_SPEED_100M :
mac_config . speed = FXMAC_SPEED_100 ;
break ;
case FXMAC_PHY_SPEED_1000M :
mac_config . speed = FXMAC_SPEED_1000 ;
break ;
default :
LOG_E ( " Setting speed is not valid , speed is %d " , instance_p - > mac_config . phy_speed ) ;
return FREERTOS_XMAC_INIT_ERROR ;
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}
switch ( instance_p - > mac_config . phy_duplex )
{
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case FXMAC_PHY_HALF_DUPLEX :
mac_config . duplex = 0 ;
break ;
case FXMAC_PHY_FULL_DUPLEX :
mac_config . duplex = 1 ;
break ;
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}
status = FXmacCfgInitialize ( xmac_p , & mac_config ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_E ( " In %s:EmacPs Configuration Failed.... " , __func__ ) ;
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}
if ( instance_p - > config & FXMAC_OS_CONFIG_JUMBO )
{
FXmacSetOptions ( xmac_p , FXMAC_JUMBO_ENABLE_OPTION , 0 ) ;
}
if ( instance_p - > config & FXMAC_OS_CONFIG_MULTICAST_ADDRESS_FILITER )
{
FXmacSetOptions ( xmac_p , FXMAC_MULTICAST_OPTION , 0 ) ;
}
/* enable copy all frames */
if ( instance_p - > config & FXMAC_OS_CONFIG_COPY_ALL_FRAMES )
{
FXmacSetOptions ( xmac_p , FXMAC_PROMISC_OPTION , 0 ) ;
}
status = FXmacSetMacAddress ( xmac_p , ( void * ) ( instance_p - > hwaddr ) , 0 ) ;
if ( status ! = FT_SUCCESS )
{
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LOG_E ( " In %s:Emac Mac Address set failed... " , __func__ ) ;
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}
/* close fcs check */
if ( instance_p - > config & FXMAC_OS_CONFIG_CLOSE_FCS_CHECK )
{
FXmacSetOptions ( xmac_p , FXMAC_FCS_STRIP_OPTION , 0 ) ;
}
/* initialize phy */
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status = FXmacPhyInit ( xmac_p , xmac_p - > config . speed , xmac_p - > config . duplex , xmac_p - > config . auto_neg , XMAC_PHY_RESET_ENABLE ) ;
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if ( status ! = FT_SUCCESS )
{
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LOG_W ( " FXmacPhyInit is error. " ) ;
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}
FXmacSelectClk ( xmac_p ) ;
FXmacInitInterface ( xmac_p ) ;
/* initialize dma */
dmacrreg = FXMAC_READREG32 ( xmac_p - > config . base_address , FXMAC_DMACR_OFFSET ) ;
dmacrreg & = ( ~ ( FXMAC_DMACR_BLENGTH_MASK ) ) ;
dmacrreg | = ( FXMAC_DMACR_INCR16_AHB_AXI_BURST ) ; /* Attempt to use bursts of up to 16. */
FXMAC_WRITEREG32 ( xmac_p - > config . base_address , FXMAC_DMACR_OFFSET , dmacrreg ) ;
FXmacInitDma ( instance_p ) ;
/* initialize interrupt */
FXmacSetupIsr ( instance_p ) ;
return FT_SUCCESS ;
}
/**
* @ name : FXmacOsRx
* @ msg : struct pbuf * FXmacOsRx ( FXmacOs * instance_p )
* @ return { * }
* @ note :
* @ param { FXmacOs } * instance_p
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*/
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struct pbuf * FXmacOsRx ( FXmacOs * instance_p )
{
FASSERT ( instance_p ! = NULL ) ;
struct pbuf * p ;
/* see if there is data to process */
if ( FXmacPqQlength ( & instance_p - > recv_q ) = = 0 )
{
return NULL ;
}
/* return one packet from receive q */
p = ( struct pbuf * ) FXmacPqDequeue ( & instance_p - > recv_q ) ;
return p ;
}
static FError FXmacOsOutput ( FXmacOs * instance_p , struct pbuf * p )
{
FError status ;
status = FXmacSgsend ( instance_p , p ) ;
if ( status ! = FT_SUCCESS )
{
# if LINK_STATS
lwip_stats . link . drop + + ;
# endif
}
# if LINK_STATS
lwip_stats . link . xmit + + ;
# endif /* LINK_STATS */
return status ;
}
FError FXmacOsTx ( FXmacOs * instance_p , void * tx_buf )
{
FXmacBdRing * txring ;
FError ret ;
struct pbuf * p ;
FASSERT ( instance_p ! = NULL ) ;
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FASSERT ( tx_buf ! = NULL ) ;
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p = tx_buf ;
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txring = & ( FXMAC_GET_TXRING ( instance_p - > instance ) ) ;
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FXmacProcessSentBds ( instance_p , txring ) ;
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/* check if space is available to send */
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if ( IsTxSpaceAvailable ( instance_p ) )
{
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ret = FXmacOsOutput ( instance_p , p ) ;
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}
else
{
# if LINK_STATS
lwip_stats . link . drop + + ;
# endif
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LOG_E ( " Pack dropped, no space. " ) ;
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ret = FREERTOS_XMAC_NO_VALID_SPACE ;
}
return ret ;
}
FXmacOs * FXmacOsGetInstancePointer ( FXmacOsControl * config_p )
{
FXmacOs * instance_p ;
FASSERT ( config_p ! = NULL ) ;
FASSERT ( config_p - > instance_id < FXMAC_NUM ) ;
FASSERT_MSG ( config_p - > interface < FXMAC_OS_INTERFACE_LENGTH , " config_p->interface %d is over %d " , config_p - > interface , FXMAC_OS_INTERFACE_LENGTH ) ;
FASSERT_MSG ( config_p - > autonegotiation < = 1 , " config_p->autonegotiation %d is over 1 " , config_p - > autonegotiation ) ;
FASSERT_MSG ( config_p - > phy_speed < = FXMAC_PHY_SPEED_1000M , " config_p->phy_speed %d is over 1000 " , config_p - > phy_speed ) ;
FASSERT_MSG ( config_p - > phy_duplex < = FXMAC_PHY_FULL_DUPLEX , " config_p->phy_duplex %d is over FXMAC_PHY_FULL_DUPLEX " , config_p - > phy_duplex ) ;
instance_p = & fxmac_os_instace [ config_p - > instance_id ] ;
memcpy ( & instance_p - > mac_config , config_p , sizeof ( FXmacOsControl ) ) ;
return instance_p ;
}
void FXmacOsStart ( FXmacOs * instance_p )
{
FASSERT ( instance_p ! = NULL ) ;
/* start mac */
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instance_p - > instance . mask & = ( ~ FXMAC_IXR_TXCOMPL_MASK ) ;
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FXmacStart ( & instance_p - > instance ) ;
}
static rt_err_t rt_xmac_init ( rt_device_t dev )
{
struct eth_device * pXmacParent ;
FXmacOs * pOsMac ;
FError ret ;
pXmacParent = rt_container_of ( dev , struct eth_device , parent ) ;
if ( NULL = = pXmacParent )
{
return - RT_ENOMEM ;
}
pOsMac = rt_container_of ( pXmacParent , FXmacOs , parent ) ;
if ( NULL = = pOsMac )
{
return - RT_ENOMEM ;
}
ret = FXmacOsInit ( pOsMac ) ;
if ( ret ! = FT_SUCCESS )
{
LOG_E ( " FXmacOsInit is error \r \n " ) ;
return - RT_ERROR ;
}
rt_kprintf ( " FXMAC OS Init Success! \n " ) ;
return RT_EOK ;
}
static rt_err_t rt_xmac_open ( rt_device_t dev , rt_uint16_t oflag )
{
LOG_D ( " xmac open " ) ;
return RT_EOK ;
}
static rt_err_t rt_xmac_close ( rt_device_t dev )
{
LOG_D ( " xmac close " ) ;
return RT_EOK ;
}
static rt_ssize_t rt_xmac_read ( rt_device_t dev , rt_off_t pos , void * buffer , rt_size_t size )
{
LOG_D ( " xmac read " ) ;
rt_set_errno ( - RT_ENOSYS ) ;
return 0 ;
}
static rt_ssize_t rt_xmac_write ( rt_device_t dev , rt_off_t pos , const void * buffer , rt_size_t size )
{
LOG_D ( " xmac write " ) ;
rt_set_errno ( - RT_ENOSYS ) ;
return 0 ;
}
static rt_err_t rt_xmac_control ( rt_device_t dev , int cmd , void * args )
{
FXmacOs * pOsMac ;
struct eth_device * pXmacParent ;
pXmacParent = rt_container_of ( dev , struct eth_device , parent ) ;
if ( NULL = = pXmacParent )
{
return - RT_ENOMEM ;
}
pOsMac = rt_container_of ( pXmacParent , FXmacOs , parent ) ;
if ( NULL = = pOsMac )
{
return - RT_ENOMEM ;
}
switch ( cmd )
{
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case NIOCTL_GADDR :
/* get mac address */
if ( args )
{
rt_memcpy ( args , pOsMac - > hwaddr , 6 ) ;
}
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else
{
return - RT_ERROR ;
}
break ;
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default :
break ;
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}
return RT_EOK ;
}
rt_err_t rt_xmac_tx ( rt_device_t dev , struct pbuf * p )
{
FXmacOs * pOsMac ;
struct eth_device * pXmacParent ;
FError ret ;
pXmacParent = rt_container_of ( dev , struct eth_device , parent ) ;
if ( NULL = = pXmacParent )
{
return - RT_ENOMEM ;
}
pOsMac = rt_container_of ( pXmacParent , FXmacOs , parent ) ;
if ( NULL = = pOsMac )
{
return - RT_ENOMEM ;
}
# if RT_LWIP_ETH_PAD_SIZE
pbuf_header ( p , - RT_LWIP_ETH_PAD_SIZE ) ; /* reclaim the padding word */
# endif
ret = FXmacOsTx ( pOsMac , p ) ;
# if RT_LWIP_ETH_PAD_SIZE
pbuf_header ( p , ETH_PAD_SIZE ) ; /* reclaim the padding word */
# endif
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if ( ret ! = FT_SUCCESS )
{
return ERR_MEM ;
}
return RT_EOK ;
}
struct pbuf * rt_xmac_rx ( rt_device_t dev )
{
FXmacOs * pOsMac ;
struct eth_device * pXmacParent ;
struct pbuf * p ;
pXmacParent = rt_container_of ( dev , struct eth_device , parent ) ;
if ( NULL = = pXmacParent )
{
return RT_NULL ;
}
pOsMac = rt_container_of ( pXmacParent , FXmacOs , parent ) ;
if ( NULL = = pOsMac )
{
return RT_NULL ;
}
FXmacRecvHandler ( pOsMac ) ;
p = FXmacOsRx ( pOsMac ) ;
return p ;
}
enum lwip_port_link_status eth_link_detect ( FXmacOs * instance_p )
{
if ( instance_p - > instance . is_ready ! = FT_COMPONENT_IS_READY )
{
return ETH_LINK_UNDEFINED ;
}
return FXmacPhyReconnect ( instance_p ) ;
}
static void ethernet_link_thread ( void * Args )
{
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if ( RT_NULL = = Args )
{
return ;
}
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FXmacOs * pOsMac ;
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pOsMac = ( FXmacOs * ) Args ;
while ( 1 )
{
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/* Call eth_link_detect() every 500ms to detect Ethernet link
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* change .
*/
switch ( eth_link_detect ( pOsMac ) )
{
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case ETH_LINK_UP :
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if ( pOsMac - > is_link_up = = 0 )
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{
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LOG_I ( " netif flag is link_up \n " ) ;
pOsMac - > is_link_up = 1 ;
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eth_device_linkchange ( & pOsMac - > parent , RT_TRUE ) ;
}
break ;
case ETH_LINK_DOWN :
default :
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if ( pOsMac - > is_link_up = = 1 )
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{
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LOG_I ( " netif flag is link_down \n " ) ;
pOsMac - > is_link_up = 0 ;
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eth_device_linkchange ( & pOsMac - > parent , RT_FALSE ) ;
}
break ;
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}
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rt_thread_mdelay ( 500 ) ;
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}
}
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# ifdef RT_USING_DEVICE_OPS
const struct rt_device_ops net_ops =
{
rt_xmac_init ,
rt_xmac_open ,
rt_xmac_close ,
rt_xmac_read ,
rt_xmac_write ,
rt_xmac_control
} ;
# endif
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static int rt_hw_xmac_init ( FXmacOs * pOsMac , const char * name , const char * link_thread_name )
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{
rt_err_t state = RT_EOK ;
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# ifdef RT_USING_DEVICE_OPS
pOsMac - > parent . parent . ops = & net_ops ;
# else
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pOsMac - > parent . parent . init = rt_xmac_init ;
pOsMac - > parent . parent . open = rt_xmac_open ;
pOsMac - > parent . parent . close = rt_xmac_close ;
pOsMac - > parent . parent . read = rt_xmac_read ;
pOsMac - > parent . parent . write = rt_xmac_write ;
pOsMac - > parent . parent . control = rt_xmac_control ;
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# endif
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pOsMac - > parent . parent . user_data = RT_NULL ;
pOsMac - > parent . eth_rx = rt_xmac_rx ;
pOsMac - > parent . eth_tx = rt_xmac_tx ;
/* register eth device */
state = eth_device_init ( & ( pOsMac - > parent ) , name ) ;
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if ( RT_EOK ! = state )
{
LOG_E ( " xmac device init faild: %d " , state ) ;
return - RT_ERROR ;
}
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rt_kprintf ( " Xmac %s Initiailized! \n " , name ) ;
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state = rt_thread_init ( & pOsMac - > _link_thread ,
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link_thread_name ,
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ethernet_link_thread ,
pOsMac ,
& pOsMac - > _link_thread_stack [ 0 ] ,
sizeof ( pOsMac - > _link_thread_stack ) ,
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12 , 2 ) ;
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if ( RT_EOK = = state )
{
rt_thread_startup ( & pOsMac - > _link_thread ) ;
}
else
{
LOG_E ( " rt_thread_init is error " ) ;
return - RT_ERROR ;
}
return RT_EOK ;
}
static int rt_hw_xmac_eth_init ( void )
{
rt_err_t state = RT_EOK ;
FXmacOsControl os_config ;
FXmacOs * pOsMac ;
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# if defined(MAC_NUM0)
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/* os_config initialize, need to be set manually here */
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os_config . instance_id = MAC_NUM0_CONTROLLER ;
os_config . interface = MAC_NUM0_MII_INTERFACE ;
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os_config . autonegotiation = 1 ; /* 1 is autonegotiation ,0 is manually set */
os_config . phy_speed = FXMAC_PHY_SPEED_1000M ; /* FXMAC_PHY_SPEED_XXX */
os_config . phy_duplex = FXMAC_PHY_FULL_DUPLEX ; /* FXMAC_PHY_XXX_DUPLEX */
pOsMac = FXmacOsGetInstancePointer ( & os_config ) ;
if ( pOsMac = = NULL )
{
LOG_E ( " FXmacOsGetInstancePointer is error \r \n " ) ;
return - RT_ERROR ;
}
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const char * os_drv_xmac0_name = " e0 " ;
const char * e0_thread_name = " e0_link_detect " ;
state = rt_hw_xmac_init ( pOsMac , os_drv_xmac0_name , e0_thread_name ) ;
extern void set_if ( const char * netif_name , const char * ip_addr , const char * gw_addr , const char * nm_addr ) ;
rt_kprintf ( " Set netif %s ip addr! \n " , os_drv_xmac0_name ) ;
set_if ( os_drv_xmac0_name , " 192.168.4.10 " , " 192.168.4.1 " , " 255.255.255.0 " ) ;
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if ( RT_EOK ! = state )
{
goto __exit ;
}
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# endif
# if defined(MAC_NUM1)
os_config . instance_id = MAC_NUM1_CONTROLLER ;
os_config . interface = MAC_NUM1_MII_INTERFACE ;
os_config . autonegotiation = 1 ; /* 1 is autonegotiation ,0 is manually set */
os_config . phy_speed = FXMAC_PHY_SPEED_1000M ; /* FXMAC_PHY_SPEED_XXX */
os_config . phy_duplex = FXMAC_PHY_FULL_DUPLEX ; /* FXMAC_PHY_XXX_DUPLEX */
pOsMac = FXmacOsGetInstancePointer ( & os_config ) ;
if ( pOsMac = = NULL )
{
LOG_E ( " FXmacOsGetInstancePointer is error \r \n " ) ;
return - RT_ERROR ;
}
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const char * os_drv_xmac1_name = " e1 " ;
const char * e1_thread_name = " e1_link_detect " ;
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state = rt_hw_xmac_init ( pOsMac , os_drv_xmac1_name , e1_thread_name ) ;
rt_kprintf ( " Set Xmac %s ip addr! \n " , os_drv_xmac1_name ) ;
set_if ( os_drv_xmac1_name , " 192.168.4.11 " , " 192.168.4.1 " , " 255.255.255.0 " ) ;
if ( RT_EOK ! = state )
{
goto __exit ;
}
# endif
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# if defined(MAC_NUM0)
rt_kprintf ( " Start Xmac NUM0 \n " ) ;
FXmacOsStart ( & fxmac_os_instace [ MAC_NUM0_CONTROLLER ] ) ;
# endif
# if defined(MAC_NUM1)
rt_kprintf ( " Start Xmac NUM1 \n " ) ;
FXmacOsStart ( & fxmac_os_instace [ MAC_NUM1_CONTROLLER ] ) ;
# endif
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__exit :
return state ;
}
INIT_DEVICE_EXPORT ( rt_hw_xmac_eth_init ) ;
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# endif