blob: 07c5f6bf10c5604e9d52d3466b96a5bf5f27d68b [file] [log] [blame] [edit]
/*
* Xilinx xps_ll_temac ethernet driver for u-boot
*
* SDMA sub-controller
*
* Copyright (C) 2011 - 2012 Stephan Linz <linz@li-pro.net>
* Copyright (C) 2008 - 2011 Michal Simek <monstr@monstr.eu>
* Copyright (C) 2008 - 2011 PetaLogix
*
* Based on Yoshio Kashiwagi kashiwagi@co-nss.co.jp driver
* Copyright (C) 2008 Nissin Systems Co.,Ltd.
* March 2008 created
*
* CREDITS: tsec driver
*
* SPDX-License-Identifier: GPL-2.0+
*
* [0]: http://www.xilinx.com/support/documentation
*
* [M]: [0]/ip_documentation/mpmc.pdf
* [S]: [0]/ip_documentation/xps_ll_temac.pdf
* [A]: [0]/application_notes/xapp1041.pdf
*/
#include <config.h>
#include <common.h>
#include <net.h>
#include <asm/types.h>
#include <asm/io.h>
#include "xilinx_ll_temac.h"
#include "xilinx_ll_temac_sdma.h"
#define TX_BUF_CNT 2
static unsigned int rx_idx; /* index of the current RX buffer */
static unsigned int tx_idx; /* index of the current TX buffer */
struct rtx_cdmac_bd {
struct cdmac_bd rx[PKTBUFSRX];
struct cdmac_bd tx[TX_BUF_CNT];
};
/*
* DMA Buffer Descriptor alignment
*
* If the address contained in the Next Descriptor Pointer register is not
* 8-word aligned or reaches beyond the range of available memory, the SDMA
* halts processing and sets the CDMAC_BD_STCTRL_ERROR bit in the respective
* status register (tx_chnl_sts or rx_chnl_sts).
*
* [1]: [0]/ip_documentation/mpmc.pdf
* page 161, Next Descriptor Pointer
*/
static struct rtx_cdmac_bd cdmac_bd __aligned(32);
#if defined(CONFIG_XILINX_440) || defined(CONFIG_XILINX_405)
/*
* Indirect DCR access operations mi{ft}dcr_xilinx() espacialy
* for Xilinx PowerPC implementations on FPGA.
*
* FIXME: This part should go up to arch/powerpc -- but where?
*/
#include <asm/processor.h>
#define XILINX_INDIRECT_DCR_ADDRESS_REG 0
#define XILINX_INDIRECT_DCR_ACCESS_REG 1
inline unsigned mifdcr_xilinx(const unsigned dcrn)
{
mtdcr(XILINX_INDIRECT_DCR_ADDRESS_REG, dcrn);
return mfdcr(XILINX_INDIRECT_DCR_ACCESS_REG);
}
inline void mitdcr_xilinx(const unsigned dcrn, int val)
{
mtdcr(XILINX_INDIRECT_DCR_ADDRESS_REG, dcrn);
mtdcr(XILINX_INDIRECT_DCR_ACCESS_REG, val);
}
/* Xilinx Device Control Register (DCR) in/out accessors */
inline unsigned ll_temac_xldcr_in32(phys_addr_t addr)
{
return mifdcr_xilinx((const unsigned)addr);
}
inline void ll_temac_xldcr_out32(phys_addr_t addr, unsigned value)
{
mitdcr_xilinx((const unsigned)addr, value);
}
void ll_temac_collect_xldcr_sdma_reg_addr(struct eth_device *dev)
{
struct ll_temac *ll_temac = dev->priv;
phys_addr_t dmac_ctrl = ll_temac->ctrladdr;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
ra[TX_NXTDESC_PTR] = dmac_ctrl + TX_NXTDESC_PTR;
ra[TX_CURBUF_ADDR] = dmac_ctrl + TX_CURBUF_ADDR;
ra[TX_CURBUF_LENGTH] = dmac_ctrl + TX_CURBUF_LENGTH;
ra[TX_CURDESC_PTR] = dmac_ctrl + TX_CURDESC_PTR;
ra[TX_TAILDESC_PTR] = dmac_ctrl + TX_TAILDESC_PTR;
ra[TX_CHNL_CTRL] = dmac_ctrl + TX_CHNL_CTRL;
ra[TX_IRQ_REG] = dmac_ctrl + TX_IRQ_REG;
ra[TX_CHNL_STS] = dmac_ctrl + TX_CHNL_STS;
ra[RX_NXTDESC_PTR] = dmac_ctrl + RX_NXTDESC_PTR;
ra[RX_CURBUF_ADDR] = dmac_ctrl + RX_CURBUF_ADDR;
ra[RX_CURBUF_LENGTH] = dmac_ctrl + RX_CURBUF_LENGTH;
ra[RX_CURDESC_PTR] = dmac_ctrl + RX_CURDESC_PTR;
ra[RX_TAILDESC_PTR] = dmac_ctrl + RX_TAILDESC_PTR;
ra[RX_CHNL_CTRL] = dmac_ctrl + RX_CHNL_CTRL;
ra[RX_IRQ_REG] = dmac_ctrl + RX_IRQ_REG;
ra[RX_CHNL_STS] = dmac_ctrl + RX_CHNL_STS;
ra[DMA_CONTROL_REG] = dmac_ctrl + DMA_CONTROL_REG;
}
#endif /* CONFIG_XILINX_440 || ONFIG_XILINX_405 */
/* Xilinx Processor Local Bus (PLB) in/out accessors */
inline unsigned ll_temac_xlplb_in32(phys_addr_t addr)
{
return in_be32((void *)addr);
}
inline void ll_temac_xlplb_out32(phys_addr_t addr, unsigned value)
{
out_be32((void *)addr, value);
}
/* collect all register addresses for Xilinx PLB in/out accessors */
void ll_temac_collect_xlplb_sdma_reg_addr(struct eth_device *dev)
{
struct ll_temac *ll_temac = dev->priv;
struct sdma_ctrl *sdma_ctrl = (void *)ll_temac->ctrladdr;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
ra[TX_NXTDESC_PTR] = (phys_addr_t)&sdma_ctrl->tx_nxtdesc_ptr;
ra[TX_CURBUF_ADDR] = (phys_addr_t)&sdma_ctrl->tx_curbuf_addr;
ra[TX_CURBUF_LENGTH] = (phys_addr_t)&sdma_ctrl->tx_curbuf_length;
ra[TX_CURDESC_PTR] = (phys_addr_t)&sdma_ctrl->tx_curdesc_ptr;
ra[TX_TAILDESC_PTR] = (phys_addr_t)&sdma_ctrl->tx_taildesc_ptr;
ra[TX_CHNL_CTRL] = (phys_addr_t)&sdma_ctrl->tx_chnl_ctrl;
ra[TX_IRQ_REG] = (phys_addr_t)&sdma_ctrl->tx_irq_reg;
ra[TX_CHNL_STS] = (phys_addr_t)&sdma_ctrl->tx_chnl_sts;
ra[RX_NXTDESC_PTR] = (phys_addr_t)&sdma_ctrl->rx_nxtdesc_ptr;
ra[RX_CURBUF_ADDR] = (phys_addr_t)&sdma_ctrl->rx_curbuf_addr;
ra[RX_CURBUF_LENGTH] = (phys_addr_t)&sdma_ctrl->rx_curbuf_length;
ra[RX_CURDESC_PTR] = (phys_addr_t)&sdma_ctrl->rx_curdesc_ptr;
ra[RX_TAILDESC_PTR] = (phys_addr_t)&sdma_ctrl->rx_taildesc_ptr;
ra[RX_CHNL_CTRL] = (phys_addr_t)&sdma_ctrl->rx_chnl_ctrl;
ra[RX_IRQ_REG] = (phys_addr_t)&sdma_ctrl->rx_irq_reg;
ra[RX_CHNL_STS] = (phys_addr_t)&sdma_ctrl->rx_chnl_sts;
ra[DMA_CONTROL_REG] = (phys_addr_t)&sdma_ctrl->dma_control_reg;
}
/* Check for TX and RX channel errors. */
static inline int ll_temac_sdma_error(struct eth_device *dev)
{
int err;
struct ll_temac *ll_temac = dev->priv;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
err = ll_temac->in32(ra[TX_CHNL_STS]) & CHNL_STS_ERROR;
err |= ll_temac->in32(ra[RX_CHNL_STS]) & CHNL_STS_ERROR;
return err;
}
int ll_temac_init_sdma(struct eth_device *dev)
{
struct ll_temac *ll_temac = dev->priv;
struct cdmac_bd *rx_dp;
struct cdmac_bd *tx_dp;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
int i;
printf("%s: SDMA: %d Rx buffers, %d Tx buffers\n",
dev->name, PKTBUFSRX, TX_BUF_CNT);
/* Initialize the Rx Buffer descriptors */
for (i = 0; i < PKTBUFSRX; i++) {
rx_dp = &cdmac_bd.rx[i];
memset(rx_dp, 0, sizeof(*rx_dp));
rx_dp->next_p = rx_dp;
rx_dp->buf_len = PKTSIZE_ALIGN;
rx_dp->phys_buf_p = (u8 *)net_rx_packets[i];
flush_cache((u32)rx_dp->phys_buf_p, PKTSIZE_ALIGN);
}
flush_cache((u32)cdmac_bd.rx, sizeof(cdmac_bd.rx));
/* Initialize the TX Buffer Descriptors */
for (i = 0; i < TX_BUF_CNT; i++) {
tx_dp = &cdmac_bd.tx[i];
memset(tx_dp, 0, sizeof(*tx_dp));
tx_dp->next_p = tx_dp;
}
flush_cache((u32)cdmac_bd.tx, sizeof(cdmac_bd.tx));
/* Reset index counter to the Rx and Tx Buffer descriptors */
rx_idx = tx_idx = 0;
/* initial Rx DMA start by writing to respective TAILDESC_PTR */
ll_temac->out32(ra[RX_CURDESC_PTR], (int)&cdmac_bd.rx[rx_idx]);
ll_temac->out32(ra[RX_TAILDESC_PTR], (int)&cdmac_bd.rx[rx_idx]);
return 0;
}
int ll_temac_halt_sdma(struct eth_device *dev)
{
unsigned timeout = 50; /* 1usec * 50 = 50usec */
struct ll_temac *ll_temac = dev->priv;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
/*
* Soft reset the DMA
*
* Quote from MPMC documentation: Writing a 1 to this field
* forces the DMA engine to shutdown and reset itself. After
* setting this bit, software must poll it until the bit is
* cleared by the DMA. This indicates that the reset process
* is done and the pipeline has been flushed.
*/
ll_temac->out32(ra[DMA_CONTROL_REG], DMA_CONTROL_RESET);
while (timeout && (ll_temac->in32(ra[DMA_CONTROL_REG])
& DMA_CONTROL_RESET)) {
timeout--;
udelay(1);
}
if (!timeout) {
printf("%s: Timeout\n", __func__);
return -1;
}
return 0;
}
int ll_temac_reset_sdma(struct eth_device *dev)
{
u32 r;
struct ll_temac *ll_temac = dev->priv;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
/* Soft reset the DMA. */
if (ll_temac_halt_sdma(dev))
return -1;
/* Now clear the interrupts. */
r = ll_temac->in32(ra[TX_CHNL_CTRL]);
r &= ~CHNL_CTRL_IRQ_MASK;
ll_temac->out32(ra[TX_CHNL_CTRL], r);
r = ll_temac->in32(ra[RX_CHNL_CTRL]);
r &= ~CHNL_CTRL_IRQ_MASK;
ll_temac->out32(ra[RX_CHNL_CTRL], r);
/* Now ACK pending IRQs. */
ll_temac->out32(ra[TX_IRQ_REG], IRQ_REG_IRQ_MASK);
ll_temac->out32(ra[RX_IRQ_REG], IRQ_REG_IRQ_MASK);
/* Set tail-ptr mode, disable errors for both channels. */
ll_temac->out32(ra[DMA_CONTROL_REG],
/* Enable use of tail pointer register */
DMA_CONTROL_TPE |
/* Disable error when 2 or 4 bit coalesce cnt overfl */
DMA_CONTROL_RXOCEID |
/* Disable error when 2 or 4 bit coalesce cnt overfl */
DMA_CONTROL_TXOCEID);
return 0;
}
int ll_temac_recv_sdma(struct eth_device *dev)
{
int length, pb_idx;
struct cdmac_bd *rx_dp = &cdmac_bd.rx[rx_idx];
struct ll_temac *ll_temac = dev->priv;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
if (ll_temac_sdma_error(dev)) {
if (ll_temac_reset_sdma(dev))
return -1;
ll_temac_init_sdma(dev);
}
flush_cache((u32)rx_dp, sizeof(*rx_dp));
if (!(rx_dp->sca.stctrl & CDMAC_BD_STCTRL_COMPLETED))
return 0;
if (rx_dp->sca.stctrl & (CDMAC_BD_STCTRL_SOP | CDMAC_BD_STCTRL_EOP)) {
pb_idx = rx_idx;
length = rx_dp->sca.app[4] & CDMAC_BD_APP4_RXBYTECNT_MASK;
} else {
pb_idx = -1;
length = 0;
printf("%s: Got part of package, unsupported (%x)\n",
__func__, rx_dp->sca.stctrl);
}
/* flip the buffer */
flush_cache((u32)rx_dp->phys_buf_p, length);
/* reset the current descriptor */
rx_dp->sca.stctrl = 0;
rx_dp->sca.app[4] = 0;
flush_cache((u32)rx_dp, sizeof(*rx_dp));
/* Find next empty buffer descriptor, preparation for next iteration */
rx_idx = (rx_idx + 1) % PKTBUFSRX;
rx_dp = &cdmac_bd.rx[rx_idx];
flush_cache((u32)rx_dp, sizeof(*rx_dp));
/* DMA start by writing to respective TAILDESC_PTR */
ll_temac->out32(ra[RX_CURDESC_PTR], (int)&cdmac_bd.rx[rx_idx]);
ll_temac->out32(ra[RX_TAILDESC_PTR], (int)&cdmac_bd.rx[rx_idx]);
if (length > 0 && pb_idx != -1)
net_process_received_packet(net_rx_packets[pb_idx], length);
return 0;
}
int ll_temac_send_sdma(struct eth_device *dev, void *packet, int length)
{
unsigned timeout = 50; /* 1usec * 50 = 50usec */
struct cdmac_bd *tx_dp = &cdmac_bd.tx[tx_idx];
struct ll_temac *ll_temac = dev->priv;
phys_addr_t *ra = ll_temac->sdma_reg_addr;
if (ll_temac_sdma_error(dev)) {
if (ll_temac_reset_sdma(dev))
return -1;
ll_temac_init_sdma(dev);
}
tx_dp->phys_buf_p = (u8 *)packet;
tx_dp->buf_len = length;
tx_dp->sca.stctrl = CDMAC_BD_STCTRL_SOP | CDMAC_BD_STCTRL_EOP |
CDMAC_BD_STCTRL_STOP_ON_END;
flush_cache((u32)packet, length);
flush_cache((u32)tx_dp, sizeof(*tx_dp));
/* DMA start by writing to respective TAILDESC_PTR */
ll_temac->out32(ra[TX_CURDESC_PTR], (int)tx_dp);
ll_temac->out32(ra[TX_TAILDESC_PTR], (int)tx_dp);
/* Find next empty buffer descriptor, preparation for next iteration */
tx_idx = (tx_idx + 1) % TX_BUF_CNT;
tx_dp = &cdmac_bd.tx[tx_idx];
do {
flush_cache((u32)tx_dp, sizeof(*tx_dp));
udelay(1);
} while (timeout-- && !(tx_dp->sca.stctrl & CDMAC_BD_STCTRL_COMPLETED));
if (!timeout) {
printf("%s: Timeout\n", __func__);
return -1;
}
return 0;
}