upstream u-boot with additional patches for our devices/boards:
https://lists.denx.de/pipermail/u-boot/2017-March/282789.html (AXP crashes) ;
Gbit ethernet patch for some LIME2 revisions ;
with SPI flash support
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278 lines
7.2 KiB
278 lines
7.2 KiB
/*
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* (C) Copyright 2008
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* Gary Jennejohn, DENX Software Engineering GmbH, garyj@denx.de.
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*
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* Based in part on arch/powerpc/cpu/mpc8xx/scc.c.
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*
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* See file CREDITS for list of people who contributed to this
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* project.
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*
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* This program is free software; you can redistribute it and/or
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* modify it under the terms of the GNU General Public License as
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* published by the Free Software Foundation; either version 2 of
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* the License, or (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 59 Temple Place, Suite 330, Boston,
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* MA 02111-1307 USA
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*/
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#include <common.h> /* commproc.h is included here */
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#include <malloc.h>
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#include <net.h>
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#ifdef CONFIG_KEYMILE_HDLC_ENET
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#include "../common/keymile_hdlc_enet.h"
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char keymile_slot; /* our slot number in the backplane */
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/*
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* Since, except during initialization, ethact is always HDLC ETHERNET
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* while we're in the driver, just use serial_printf() everywhere for
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* output. This avoids possible conflicts when netconsole is being
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* used.
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*/
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#define dprintf(fmt, args...) serial_printf(fmt, ##args)
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static int already_inited;
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/*
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* SCC Ethernet Tx and Rx buffer descriptors allocated at the
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* immr->udata_bd address on Dual-Port RAM
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* Provide for Double Buffering
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*/
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typedef volatile struct CommonBufferDescriptor {
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cbd_t txbd; /* Tx BD */
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cbd_t rxbd[HDLC_PKTBUFSRX]; /* Rx BD */
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} RTXBD;
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static RTXBD *rtx;
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int keymile_hdlc_enet_init(struct eth_device *, bd_t *);
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void keymile_hdlc_enet_halt(struct eth_device *);
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extern void keymile_hdlc_enet_init_bds(RTXBD *);
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extern void initCachedNumbers(int);
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/* Use SCC4 */
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#define MGS_CPM_CR_HDLC CPM_CR_CH_SCC4
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#define MGS_PROFF_HDLC PROFF_SCC4
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#define MGS_SCC_HDLC 3 /* Index, not number! */
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int keymile_hdlc_enet_init(struct eth_device *dev, bd_t *bis)
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{
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/* int i; */
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/* volatile cbd_t *bdp; */
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volatile cpm8xx_t *cp;
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volatile scc_t *sccp;
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volatile hdlc_pram_t *hpr;
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volatile iop8xx_t *iop;
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if (already_inited)
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return 0;
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cp = (cpm8xx_t *)&(((volatile immap_t *)CONFIG_SYS_IMMR)->im_cpm);
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hpr = (hdlc_pram_t *)(&cp->cp_dparam[MGS_PROFF_HDLC]);
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sccp = (volatile scc_t *)(&cp->cp_scc[MGS_SCC_HDLC]);
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iop = (iop8xx_t *)&(((volatile immap_t *)CONFIG_SYS_IMMR)->im_ioport);
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/*
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* Disable receive and transmit just in case.
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*/
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sccp->scc_gsmrl &= ~(SCC_GSMRL_ENR | SCC_GSMRL_ENT);
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#ifndef CONFIG_SYS_ALLOC_DPRAM
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#error "CONFIG_SYS_ALLOC_DPRAM must be defined"
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#else
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/*
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* Avoid exhausting DPRAM, which would cause a panic.
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* Actually this isn't really necessary, but leave it here
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* for safety's sake.
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*/
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if (rtx == NULL) {
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rtx = (RTXBD *) (cp->cp_dpmem +
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dpram_alloc_align(sizeof(RTXBD), 8));
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if (rtx == (RTXBD *)CPM_DP_NOSPACE)
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return -1;
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memset((void *)rtx, 0, sizeof(RTXBD));
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}
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#endif /* !CONFIG_SYS_ALLOC_DPRAM */
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/* We need the slot number for addressing. */
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keymile_slot = *(char *)(CONFIG_SYS_SLOT_ID_BASE +
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CONFIG_SYS_SLOT_ID_OFF) & CONFIG_SYS_SLOT_ID_MASK;
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/*
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* Be consistent with the Linux driver and set
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* only enetaddr[0].
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*
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* Always add 1 to the slot number so that
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* there are no problems with an ethaddr which
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* is all 0s. This should be acceptable because
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* a board should never have a slot number of 255,
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* which is the broadcast address. The HDLC addressing
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* uses only the slot number.
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*/
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dev->enetaddr[0] = keymile_slot + 1;
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#ifdef TEST_IT
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dprintf("slot %d\n", keymile_slot);
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#endif
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/* use pa8, pa9 pins for TXD4, RXD4 respectively */
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iop->iop_papar |= ((0x8000 >> 8) | (0x8000 >> 9));
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iop->iop_padir &= ~((0x8000 >> 8) | (0x8000 >> 9));
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iop->iop_paodr &= ~((0x8000 >> 8) | (0x8000 >> 9));
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/* also use pa0 as CLK8 */
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iop->iop_papar |= 0x8000;
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iop->iop_padir &= ~0x8000;
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iop->iop_paodr &= ~0x8000;
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/* use pc5 as CTS4 */
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iop->iop_pcpar &= ~(0x8000 >> 5);
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iop->iop_pcdir &= ~(0x8000 >> 5);
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iop->iop_pcso |= (0x8000 >> 5);
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/*
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* SI clock routing
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* use CLK8
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* this also connects SCC4 to NMSI
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*/
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cp->cp_sicr = (cp->cp_sicr & ~0xff000000) | 0x3f000000;
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/* keymile_rxIdx = 0; */
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/*
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* Initialize function code registers for big-endian.
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*/
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hpr->rfcr = SCC_EB;
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hpr->tfcr = SCC_EB;
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/*
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* Set maximum bytes per receive buffer.
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*/
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hpr->mrblr = MAX_FRAME_LENGTH;
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/* Setup CRC generator values for HDLC */
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hpr->c_mask = 0x0000F0B8;
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hpr->c_pres = 0x0000FFFF;
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/* Initialize all error counters to 0 */
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hpr->disfc = 0;
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hpr->crcec = 0;
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hpr->abtsc = 0;
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hpr->nmarc = 0;
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hpr->retrc = 0;
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/* Set maximum frame length size */
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hpr->mflr = MAX_FRAME_LENGTH;
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/* set to 1 for per frame processing change later if needed */
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hpr->rfthr = 1;
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hpr->hmask = 0xff;
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hpr->haddr2 = SET_HDLC_UUA(keymile_slot);
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hpr->haddr3 = hpr->haddr2;
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hpr->haddr4 = hpr->haddr2;
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/* broadcast */
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hpr->haddr1 = HDLC_BCAST;
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hpr->rbase = (unsigned int) &rtx->rxbd[0];
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hpr->tbase = (unsigned int) &rtx->txbd;
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#if 0
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/*
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* Initialize the buffer descriptors.
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*/
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bdp = &rtx->txbd;
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bdp->cbd_sc = 0;
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bdp->cbd_bufaddr = 0;
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bdp->cbd_sc = BD_SC_WRAP;
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/*
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* Setup RX packet buffers, aligned correctly.
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* Borrowed from net/net.c.
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*/
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MyRxPackets[0] = &MyPktBuf[0] + (PKTALIGN - 1);
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MyRxPackets[0] -= (ulong)MyRxPackets[0] % PKTALIGN;
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for (i = 1; i < HDLC_PKTBUFSRX; i++)
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MyRxPackets[i] = MyRxPackets[0] + i * PKT_MAXBLR_SIZE;
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bdp = &rtx->rxbd[0];
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for (i = 0; i < HDLC_PKTBUFSRX; i++) {
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bdp->cbd_sc = BD_SC_EMPTY;
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/* Leave space at the start for INET header. */
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bdp->cbd_bufaddr = (unsigned int)(MyRxPackets[i] +
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INET_HDR_ALIGN);
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bdp++;
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}
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bdp--;
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bdp->cbd_sc |= BD_SC_WRAP;
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#else
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keymile_hdlc_enet_init_bds(rtx);
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#endif
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/* Let's re-initialize the channel now. We have to do it later
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* than the manual describes because we have just now finished
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* the BD initialization.
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*/
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cp->cp_cpcr = mk_cr_cmd(MGS_CPM_CR_HDLC, CPM_CR_INIT_TRX) | CPM_CR_FLG;
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while (cp->cp_cpcr & CPM_CR_FLG);
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sccp->scc_gsmrl = SCC_GSMRL_MODE_HDLC;
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/* CTSS=1 */
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sccp->scc_gsmrh = SCC_GSMRH_CTSS;
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/* NOF=0, RTE=1, DRT=0, BUS=1 */
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sccp->scc_psmr = ((0x8000 >> 6) | (0x8000 >> 10));
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/* loopback for local testing */
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#ifdef GJTEST
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dprintf("LOOPBACK!\n");
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sccp->scc_gsmrl |= SCC_GSMRL_DIAG_LOOP;
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#endif
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/*
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* Disable all interrupts and clear all pending
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* events.
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*/
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sccp->scc_sccm = 0;
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sccp->scc_scce = 0xffff;
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/*
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* And last, enable the transmit and receive processing.
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*/
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sccp->scc_gsmrl |= (SCC_GSMRL_ENR | SCC_GSMRL_ENT);
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dprintf("%s: HDLC ENET Version 0.3 on SCC%d\n", dev->name,
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MGS_SCC_HDLC + 1);
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/*
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* We may not get an ARP packet because ARP was already done on
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* a different interface, so initialize the cached values now.
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*/
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initCachedNumbers(1);
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already_inited = 1;
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return 0;
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}
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void keymile_hdlc_enet_halt(struct eth_device *dev)
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{
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#if 0 /* just return, but keep this for reference */
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volatile immap_t *immr = (immap_t *) CONFIG_SYS_IMMR;
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/* maybe should do a graceful stop here? */
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immr->im_cpm.cp_scc[MGS_SCC_HDLC].scc_gsmrl &=
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~(SCC_GSMRL_ENR | SCC_GSMRL_ENT);
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#endif
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}
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#endif /* CONFIG_KEYMILE_HDLC_ENET */
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