mirror of
https://github.com/AsahiLinux/u-boot
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d3f871482f
The environment is the canonical storage location of the mac address, so we're killing off the global data location and moving everything to querying the env directly. The drivers that get converted here: 3c589 4xx_enet dc2114x dm9000x enc28j60 fsl_mcdmafec ks8695eth mcffec rtl8019 rtl8169 s3c4510b_eth xilinx_emac xilinx_emaclite Signed-off-by: Mike Frysinger <vapier@gentoo.org> CC: Ben Warren <biggerbadderben@gmail.com> CC: Rolf Offermanns <rof@sysgo.de> CC: Stefan Roese <sr@denx.de> CC: Sascha Hauer <saschahauer@web.de> CC: TsiChung Liew <Tsi-Chung.Liew@freescale.com> CC: Greg Ungerer <greg.ungerer@opengear.com> CC: Xue Ligong <lgxue@hotmail.com> CC: Masami Komiya <mkomiya@sonare.it> CC: Curt Brune <curt@cucy.com> CC: Michal SIMEK <monstr@monstr.eu>
464 lines
15 KiB
C
464 lines
15 KiB
C
/******************************************************************************
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*
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* XILINX IS PROVIDING THIS DESIGN, CODE, OR INFORMATION "AS IS"
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* AS A COURTESY TO YOU, SOLELY FOR USE IN DEVELOPING PROGRAMS AND
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* SOLUTIONS FOR XILINX DEVICES. BY PROVIDING THIS DESIGN, CODE,
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* OR INFORMATION AS ONE POSSIBLE IMPLEMENTATION OF THIS FEATURE,
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* APPLICATION OR STANDARD, XILINX IS MAKING NO REPRESENTATION
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* THAT THIS IMPLEMENTATION IS FREE FROM ANY CLAIMS OF INFRINGEMENT,
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* AND YOU ARE RESPONSIBLE FOR OBTAINING ANY RIGHTS YOU MAY REQUIRE
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* FOR YOUR IMPLEMENTATION. XILINX EXPRESSLY DISCLAIMS ANY
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* WARRANTY WHATSOEVER WITH RESPECT TO THE ADEQUACY OF THE
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* IMPLEMENTATION, INCLUDING BUT NOT LIMITED TO ANY WARRANTIES OR
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* REPRESENTATIONS THAT THIS IMPLEMENTATION IS FREE FROM CLAIMS OF
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* INFRINGEMENT, IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS
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* FOR A PARTICULAR PURPOSE.
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*
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* (C) Copyright 2007-2008 Michal Simek
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* Michal SIMEK <monstr@monstr.eu>
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*
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* (c) Copyright 2003 Xilinx Inc.
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* All rights reserved.
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*
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******************************************************************************/
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#include <config.h>
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#include <common.h>
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#include <net.h>
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#include <asm/io.h>
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#include <asm/asm.h>
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#undef DEBUG
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typedef struct {
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u32 regbaseaddress; /* Base address of registers */
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u32 databaseaddress; /* Base address of data for FIFOs */
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} xpacketfifov100b;
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typedef struct {
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u32 baseaddress; /* Base address (of IPIF) */
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u32 isstarted; /* Device is currently started 0-no, 1-yes */
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xpacketfifov100b recvfifo; /* FIFO used to receive frames */
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xpacketfifov100b sendfifo; /* FIFO used to send frames */
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} xemac;
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#define XIIF_V123B_IISR_OFFSET 32UL /* IP interrupt status register */
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#define XIIF_V123B_RESET_MASK 0xAUL
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#define XIIF_V123B_RESETR_OFFSET 64UL /* reset register */
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/* This constant is used with the Reset Register */
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#define XPF_RESET_FIFO_MASK 0x0000000A
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#define XPF_COUNT_STATUS_REG_OFFSET 4UL
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/* These constants are used with the Occupancy/Vacancy Count Register. This
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* register also contains FIFO status */
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#define XPF_COUNT_MASK 0x0000FFFF
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#define XPF_DEADLOCK_MASK 0x20000000
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/* Offset of the MAC registers from the IPIF base address */
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#define XEM_REG_OFFSET 0x1100UL
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/*
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* Register offsets for the Ethernet MAC. Each register is 32 bits.
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*/
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#define XEM_ECR_OFFSET (XEM_REG_OFFSET + 0x4) /* MAC Control */
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#define XEM_SAH_OFFSET (XEM_REG_OFFSET + 0xC) /* Station addr, high */
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#define XEM_SAL_OFFSET (XEM_REG_OFFSET + 0x10) /* Station addr, low */
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#define XEM_RPLR_OFFSET (XEM_REG_OFFSET + 0x1C) /* Rx packet length */
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#define XEM_TPLR_OFFSET (XEM_REG_OFFSET + 0x20) /* Tx packet length */
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#define XEM_TSR_OFFSET (XEM_REG_OFFSET + 0x24) /* Tx status */
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#define XEM_PFIFO_OFFSET 0x2000UL
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/* Tx registers */
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#define XEM_PFIFO_TXREG_OFFSET (XEM_PFIFO_OFFSET + 0x0)
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/* Rx registers */
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#define XEM_PFIFO_RXREG_OFFSET (XEM_PFIFO_OFFSET + 0x10)
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/* Tx keyhole */
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#define XEM_PFIFO_TXDATA_OFFSET (XEM_PFIFO_OFFSET + 0x100)
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/* Rx keyhole */
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#define XEM_PFIFO_RXDATA_OFFSET (XEM_PFIFO_OFFSET + 0x200)
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/*
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* EMAC Interrupt Registers (Status and Enable) masks. These registers are
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* part of the IPIF IP Interrupt registers
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*/
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/* A mask for all transmit interrupts, used in polled mode */
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#define XEM_EIR_XMIT_ALL_MASK (XEM_EIR_XMIT_DONE_MASK |\
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XEM_EIR_XMIT_ERROR_MASK | \
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XEM_EIR_XMIT_SFIFO_EMPTY_MASK |\
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XEM_EIR_XMIT_LFIFO_FULL_MASK)
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/* Xmit complete */
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#define XEM_EIR_XMIT_DONE_MASK 0x00000001UL
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/* Recv complete */
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#define XEM_EIR_RECV_DONE_MASK 0x00000002UL
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/* Xmit error */
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#define XEM_EIR_XMIT_ERROR_MASK 0x00000004UL
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/* Recv error */
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#define XEM_EIR_RECV_ERROR_MASK 0x00000008UL
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/* Xmit status fifo empty */
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#define XEM_EIR_XMIT_SFIFO_EMPTY_MASK 0x00000010UL
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/* Recv length fifo empty */
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#define XEM_EIR_RECV_LFIFO_EMPTY_MASK 0x00000020UL
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/* Xmit length fifo full */
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#define XEM_EIR_XMIT_LFIFO_FULL_MASK 0x00000040UL
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/* Recv length fifo overrun */
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#define XEM_EIR_RECV_LFIFO_OVER_MASK 0x00000080UL
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/* Recv length fifo underrun */
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#define XEM_EIR_RECV_LFIFO_UNDER_MASK 0x00000100UL
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/* Xmit status fifo overrun */
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#define XEM_EIR_XMIT_SFIFO_OVER_MASK 0x00000200UL
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/* Transmit status fifo underrun */
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#define XEM_EIR_XMIT_SFIFO_UNDER_MASK 0x00000400UL
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/* Transmit length fifo overrun */
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#define XEM_EIR_XMIT_LFIFO_OVER_MASK 0x00000800UL
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/* Transmit length fifo underrun */
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#define XEM_EIR_XMIT_LFIFO_UNDER_MASK 0x00001000UL
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/* Transmit pause pkt received */
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#define XEM_EIR_XMIT_PAUSE_MASK 0x00002000UL
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/*
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* EMAC Control Register (ECR)
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*/
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/* Full duplex mode */
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#define XEM_ECR_FULL_DUPLEX_MASK 0x80000000UL
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/* Reset transmitter */
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#define XEM_ECR_XMIT_RESET_MASK 0x40000000UL
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/* Enable transmitter */
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#define XEM_ECR_XMIT_ENABLE_MASK 0x20000000UL
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/* Reset receiver */
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#define XEM_ECR_RECV_RESET_MASK 0x10000000UL
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/* Enable receiver */
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#define XEM_ECR_RECV_ENABLE_MASK 0x08000000UL
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/* Enable PHY */
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#define XEM_ECR_PHY_ENABLE_MASK 0x04000000UL
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/* Enable xmit pad insert */
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#define XEM_ECR_XMIT_PAD_ENABLE_MASK 0x02000000UL
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/* Enable xmit FCS insert */
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#define XEM_ECR_XMIT_FCS_ENABLE_MASK 0x01000000UL
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/* Enable unicast addr */
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#define XEM_ECR_UNICAST_ENABLE_MASK 0x00020000UL
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/* Enable broadcast addr */
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#define XEM_ECR_BROAD_ENABLE_MASK 0x00008000UL
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/*
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* Transmit Status Register (TSR)
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*/
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/* Transmit excess deferral */
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#define XEM_TSR_EXCESS_DEFERRAL_MASK 0x80000000UL
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/* Transmit late collision */
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#define XEM_TSR_LATE_COLLISION_MASK 0x01000000UL
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#define ENET_MAX_MTU PKTSIZE
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#define ENET_ADDR_LENGTH 6
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static unsigned int etherrxbuff[PKTSIZE_ALIGN/4]; /* Receive buffer */
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static u8 emacaddr[ENET_ADDR_LENGTH] = { 0x00, 0x0a, 0x35, 0x00, 0x22, 0x01 };
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static xemac emac;
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void eth_halt(void)
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{
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debug ("eth_halt\n");
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}
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int eth_init(bd_t * bis)
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{
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uchar enetaddr[6];
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u32 helpreg;
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debug ("EMAC Initialization Started\n\r");
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if (emac.isstarted) {
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puts("Emac is started\n");
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return 0;
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}
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memset (&emac, 0, sizeof (xemac));
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emac.baseaddress = XILINX_EMAC_BASEADDR;
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/* Setting up FIFOs */
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emac.recvfifo.regbaseaddress = emac.baseaddress +
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XEM_PFIFO_RXREG_OFFSET;
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emac.recvfifo.databaseaddress = emac.baseaddress +
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XEM_PFIFO_RXDATA_OFFSET;
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out_be32 (emac.recvfifo.regbaseaddress, XPF_RESET_FIFO_MASK);
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emac.sendfifo.regbaseaddress = emac.baseaddress +
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XEM_PFIFO_TXREG_OFFSET;
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emac.sendfifo.databaseaddress = emac.baseaddress +
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XEM_PFIFO_TXDATA_OFFSET;
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out_be32 (emac.sendfifo.regbaseaddress, XPF_RESET_FIFO_MASK);
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/* Reset the entire IPIF */
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out_be32 (emac.baseaddress + XIIF_V123B_RESETR_OFFSET,
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XIIF_V123B_RESET_MASK);
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/* Stopping EMAC for setting up MAC */
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helpreg = in_be32 (emac.baseaddress + XEM_ECR_OFFSET);
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helpreg &= ~(XEM_ECR_XMIT_ENABLE_MASK | XEM_ECR_RECV_ENABLE_MASK);
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out_be32 (emac.baseaddress + XEM_ECR_OFFSET, helpreg);
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if (!eth_getenv_enetaddr("ethaddr", enetaddr)) {
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memcpy(enetaddr, emacaddr, ENET_ADDR_LENGTH);
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eth_setenv_enetaddr("ethaddr", enetaddr);
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}
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/* Set the device station address high and low registers */
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helpreg = (enetaddr[0] << 8) | enetaddr[1];
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out_be32 (emac.baseaddress + XEM_SAH_OFFSET, helpreg);
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helpreg = (enetaddr[2] << 24) | (enetaddr[3] << 16) |
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(enetaddr[4] << 8) | enetaddr[5];
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out_be32 (emac.baseaddress + XEM_SAL_OFFSET, helpreg);
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helpreg = XEM_ECR_UNICAST_ENABLE_MASK | XEM_ECR_BROAD_ENABLE_MASK |
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XEM_ECR_FULL_DUPLEX_MASK | XEM_ECR_XMIT_FCS_ENABLE_MASK |
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XEM_ECR_XMIT_PAD_ENABLE_MASK | XEM_ECR_PHY_ENABLE_MASK;
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out_be32 (emac.baseaddress + XEM_ECR_OFFSET, helpreg);
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emac.isstarted = 1;
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/* Enable the transmitter, and receiver */
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helpreg = in_be32 (emac.baseaddress + XEM_ECR_OFFSET);
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helpreg &= ~(XEM_ECR_XMIT_RESET_MASK | XEM_ECR_RECV_RESET_MASK);
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helpreg |= (XEM_ECR_XMIT_ENABLE_MASK | XEM_ECR_RECV_ENABLE_MASK);
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out_be32 (emac.baseaddress + XEM_ECR_OFFSET, helpreg);
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printf("EMAC Initialization complete\n\r");
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return 0;
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}
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int eth_send(volatile void *ptr, int len)
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{
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u32 intrstatus;
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u32 xmitstatus;
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u32 fifocount;
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u32 wordcount;
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u32 extrabytecount;
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u32 *wordbuffer = (u32 *) ptr;
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if (len > ENET_MAX_MTU)
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len = ENET_MAX_MTU;
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/*
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* Check for overruns and underruns for the transmit status and length
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* FIFOs and make sure the send packet FIFO is not deadlocked.
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* Any of these conditions is bad enough that we do not want to
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* continue. The upper layer software should reset the device to resolve
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* the error.
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*/
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intrstatus = in_be32 ((emac.baseaddress) + XIIF_V123B_IISR_OFFSET);
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if (intrstatus & (XEM_EIR_XMIT_SFIFO_OVER_MASK |
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XEM_EIR_XMIT_LFIFO_OVER_MASK)) {
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debug ("Transmitting overrun error\n");
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return 0;
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} else if (intrstatus & (XEM_EIR_XMIT_SFIFO_UNDER_MASK |
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XEM_EIR_XMIT_LFIFO_UNDER_MASK)) {
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debug ("Transmitting underrun error\n");
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return 0;
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} else if (in_be32 (emac.sendfifo.regbaseaddress +
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XPF_COUNT_STATUS_REG_OFFSET) & XPF_DEADLOCK_MASK) {
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debug ("Transmitting fifo error\n");
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return 0;
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}
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/*
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* Before writing to the data FIFO, make sure the length FIFO is not
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* full. The data FIFO might not be full yet even though the length FIFO
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* is. This avoids an overrun condition on the length FIFO and keeps the
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* FIFOs in sync.
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*
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* Clear the latched LFIFO_FULL bit so next time around the most
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* current status is represented
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*/
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if (intrstatus & XEM_EIR_XMIT_LFIFO_FULL_MASK) {
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out_be32 ((emac.baseaddress) + XIIF_V123B_IISR_OFFSET,
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intrstatus & XEM_EIR_XMIT_LFIFO_FULL_MASK);
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debug ("Fifo is full\n");
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return 0;
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}
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/* get the count of how many words may be inserted into the FIFO */
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fifocount = in_be32 (emac.sendfifo.regbaseaddress +
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XPF_COUNT_STATUS_REG_OFFSET) & XPF_COUNT_MASK;
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wordcount = len >> 2;
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extrabytecount = len & 0x3;
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if (fifocount < wordcount) {
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debug ("Sending packet is larger then size of FIFO\n");
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return 0;
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}
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for (fifocount = 0; fifocount < wordcount; fifocount++) {
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out_be32 (emac.sendfifo.databaseaddress, wordbuffer[fifocount]);
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}
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if (extrabytecount > 0) {
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u32 lastword = 0;
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u8 *extrabytesbuffer = (u8 *) (wordbuffer + wordcount);
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if (extrabytecount == 1) {
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lastword = extrabytesbuffer[0] << 24;
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} else if (extrabytecount == 2) {
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lastword = extrabytesbuffer[0] << 24 |
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extrabytesbuffer[1] << 16;
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} else if (extrabytecount == 3) {
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lastword = extrabytesbuffer[0] << 24 |
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extrabytesbuffer[1] << 16 |
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extrabytesbuffer[2] << 8;
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}
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out_be32 (emac.sendfifo.databaseaddress, lastword);
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}
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/* Loop on the MAC's status to wait for any pause to complete */
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intrstatus = in_be32 ((emac.baseaddress) + XIIF_V123B_IISR_OFFSET);
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while ((intrstatus & XEM_EIR_XMIT_PAUSE_MASK) != 0) {
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intrstatus = in_be32 ((emac.baseaddress) +
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XIIF_V123B_IISR_OFFSET);
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/* Clear the pause status from the transmit status register */
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out_be32 ((emac.baseaddress) + XIIF_V123B_IISR_OFFSET,
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intrstatus & XEM_EIR_XMIT_PAUSE_MASK);
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}
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/*
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* Set the MAC's transmit packet length register to tell it to transmit
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*/
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out_be32 (emac.baseaddress + XEM_TPLR_OFFSET, len);
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/*
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* Loop on the MAC's status to wait for the transmit to complete.
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* The transmit status is in the FIFO when the XMIT_DONE bit is set.
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*/
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do {
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intrstatus = in_be32 ((emac.baseaddress) +
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XIIF_V123B_IISR_OFFSET);
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}
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while ((intrstatus & XEM_EIR_XMIT_DONE_MASK) == 0);
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xmitstatus = in_be32 (emac.baseaddress + XEM_TSR_OFFSET);
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if (intrstatus & (XEM_EIR_XMIT_SFIFO_OVER_MASK |
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XEM_EIR_XMIT_LFIFO_OVER_MASK)) {
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debug ("Transmitting overrun error\n");
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return 0;
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} else if (intrstatus & (XEM_EIR_XMIT_SFIFO_UNDER_MASK |
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XEM_EIR_XMIT_LFIFO_UNDER_MASK)) {
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debug ("Transmitting underrun error\n");
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return 0;
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}
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/* Clear the interrupt status register of transmit statuses */
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out_be32 ((emac.baseaddress) + XIIF_V123B_IISR_OFFSET,
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intrstatus & XEM_EIR_XMIT_ALL_MASK);
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/*
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* Collision errors are stored in the transmit status register
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* instead of the interrupt status register
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*/
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if ((xmitstatus & XEM_TSR_EXCESS_DEFERRAL_MASK) ||
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(xmitstatus & XEM_TSR_LATE_COLLISION_MASK)) {
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debug ("Transmitting collision error\n");
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return 0;
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}
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return 1;
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}
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int eth_rx(void)
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{
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u32 pktlength;
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u32 intrstatus;
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u32 fifocount;
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u32 wordcount;
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u32 extrabytecount;
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u32 lastword;
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u8 *extrabytesbuffer;
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if (in_be32 (emac.recvfifo.regbaseaddress + XPF_COUNT_STATUS_REG_OFFSET)
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& XPF_DEADLOCK_MASK) {
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out_be32 (emac.recvfifo.regbaseaddress, XPF_RESET_FIFO_MASK);
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debug ("Receiving FIFO deadlock\n");
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return 0;
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}
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/*
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* Get the interrupt status to know what happened (whether an error
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* occurred and/or whether frames have been received successfully).
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* When clearing the intr status register, clear only statuses that
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* pertain to receive.
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*/
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intrstatus = in_be32 ((emac.baseaddress) + XIIF_V123B_IISR_OFFSET);
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/*
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* Before reading from the length FIFO, make sure the length FIFO is not
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* empty. We could cause an underrun error if we try to read from an
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* empty FIFO.
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*/
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if (!(intrstatus & XEM_EIR_RECV_DONE_MASK)) {
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/* debug ("Receiving FIFO is empty\n"); */
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return 0;
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}
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/*
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* Determine, from the MAC, the length of the next packet available
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* in the data FIFO (there should be a non-zero length here)
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*/
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pktlength = in_be32 (emac.baseaddress + XEM_RPLR_OFFSET);
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if (!pktlength) {
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return 0;
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}
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/*
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* Write the RECV_DONE bit in the status register to clear it. This bit
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* indicates the RPLR is non-empty, and we know it's set at this point.
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* We clear it so that subsequent entry into this routine will reflect
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* the current status. This is done because the non-empty bit is latched
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* in the IPIF, which means it may indicate a non-empty condition even
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* though there is something in the FIFO.
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*/
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out_be32 ((emac.baseaddress) + XIIF_V123B_IISR_OFFSET,
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XEM_EIR_RECV_DONE_MASK);
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fifocount = in_be32 (emac.recvfifo.regbaseaddress +
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XPF_COUNT_STATUS_REG_OFFSET) & XPF_COUNT_MASK;
|
|
|
|
if ((fifocount * 4) < pktlength) {
|
|
debug ("Receiving FIFO is smaller than packet size.\n");
|
|
return 0;
|
|
}
|
|
|
|
wordcount = pktlength >> 2;
|
|
extrabytecount = pktlength & 0x3;
|
|
|
|
for (fifocount = 0; fifocount < wordcount; fifocount++) {
|
|
etherrxbuff[fifocount] =
|
|
in_be32 (emac.recvfifo.databaseaddress);
|
|
}
|
|
|
|
/*
|
|
* if there are extra bytes to handle, read the last word from the FIFO
|
|
* and insert the extra bytes into the buffer
|
|
*/
|
|
if (extrabytecount > 0) {
|
|
extrabytesbuffer = (u8 *) (etherrxbuff + wordcount);
|
|
|
|
lastword = in_be32 (emac.recvfifo.databaseaddress);
|
|
|
|
/*
|
|
* one extra byte in the last word, put the byte into the next
|
|
* location of the buffer, bytes in a word of the FIFO are
|
|
* ordered from most significant byte to least
|
|
*/
|
|
if (extrabytecount == 1) {
|
|
extrabytesbuffer[0] = (u8) (lastword >> 24);
|
|
} else if (extrabytecount == 2) {
|
|
extrabytesbuffer[0] = (u8) (lastword >> 24);
|
|
extrabytesbuffer[1] = (u8) (lastword >> 16);
|
|
} else if (extrabytecount == 3) {
|
|
extrabytesbuffer[0] = (u8) (lastword >> 24);
|
|
extrabytesbuffer[1] = (u8) (lastword >> 16);
|
|
extrabytesbuffer[2] = (u8) (lastword >> 8);
|
|
}
|
|
}
|
|
NetReceive((uchar *)etherrxbuff, pktlength);
|
|
return 1;
|
|
}
|