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authorJiandong Zheng <jdzheng@broadcom.com>2014-08-01 20:37:16 -0700
committerTom Rini <trini@ti.com>2014-08-30 07:46:39 -0400
commit799e125cca9f75a6e3bc87676266f8da4ebefcfd (patch)
tree1548e0c775e78f41bbe8fc1b8da4b3820feb967a /drivers/net/bcm-sf2-eth-gmac.c
parent2d66a0fd58ac8623b3eea01e31b7917a20f287c1 (diff)
arm: bcm281xx: net: Add Ethernet Driver
The Broadcom StarFighter2 Ethernet driver is used in multiple Broadcom SoC(s) and: - supports multiple MAC blocks, - provides support for the Broadcom GMAC. This driver requires MII and PHYLIB. Signed-off-by: Jiandong Zheng <jdzheng@broadcom.com> Signed-off-by: Steve Rae <srae@broadcom.com>
Diffstat (limited to 'drivers/net/bcm-sf2-eth-gmac.c')
-rw-r--r--drivers/net/bcm-sf2-eth-gmac.c971
1 files changed, 971 insertions, 0 deletions
diff --git a/drivers/net/bcm-sf2-eth-gmac.c b/drivers/net/bcm-sf2-eth-gmac.c
new file mode 100644
index 0000000000..977feec351
--- /dev/null
+++ b/drivers/net/bcm-sf2-eth-gmac.c
@@ -0,0 +1,971 @@
+/*
+ * Copyright 2014 Broadcom Corporation.
+ *
+ * SPDX-License-Identifier: GPL-2.0+
+ */
+
+#ifdef BCM_GMAC_DEBUG
+#ifndef DEBUG
+#define DEBUG
+#endif
+#endif
+
+#include <config.h>
+#include <common.h>
+#include <malloc.h>
+#include <net.h>
+#include <asm/io.h>
+#include <phy.h>
+
+#include "bcm-sf2-eth.h"
+#include "bcm-sf2-eth-gmac.h"
+
+#define SPINWAIT(exp, us) { \
+ uint countdown = (us) + 9; \
+ while ((exp) && (countdown >= 10)) {\
+ udelay(10); \
+ countdown -= 10; \
+ } \
+}
+
+static int gmac_disable_dma(struct eth_dma *dma, int dir);
+static int gmac_enable_dma(struct eth_dma *dma, int dir);
+
+/* DMA Descriptor */
+typedef struct {
+ /* misc control bits */
+ uint32_t ctrl1;
+ /* buffer count and address extension */
+ uint32_t ctrl2;
+ /* memory address of the date buffer, bits 31:0 */
+ uint32_t addrlow;
+ /* memory address of the date buffer, bits 63:32 */
+ uint32_t addrhigh;
+} dma64dd_t;
+
+uint32_t g_dmactrlflags;
+
+static uint32_t dma_ctrlflags(uint32_t mask, uint32_t flags)
+{
+ debug("%s enter\n", __func__);
+
+ g_dmactrlflags &= ~mask;
+ g_dmactrlflags |= flags;
+
+ /* If trying to enable parity, check if parity is actually supported */
+ if (g_dmactrlflags & DMA_CTRL_PEN) {
+ uint32_t control;
+
+ control = readl(GMAC0_DMA_TX_CTRL_ADDR);
+ writel(control | D64_XC_PD, GMAC0_DMA_TX_CTRL_ADDR);
+ if (readl(GMAC0_DMA_TX_CTRL_ADDR) & D64_XC_PD) {
+ /*
+ * We *can* disable it, therefore it is supported;
+ * restore control register
+ */
+ writel(control, GMAC0_DMA_TX_CTRL_ADDR);
+ } else {
+ /* Not supported, don't allow it to be enabled */
+ g_dmactrlflags &= ~DMA_CTRL_PEN;
+ }
+ }
+
+ return g_dmactrlflags;
+}
+
+static inline void reg32_clear_bits(uint32_t reg, uint32_t value)
+{
+ uint32_t v = readl(reg);
+ v &= ~(value);
+ writel(v, reg);
+}
+
+static inline void reg32_set_bits(uint32_t reg, uint32_t value)
+{
+ uint32_t v = readl(reg);
+ v |= value;
+ writel(v, reg);
+}
+
+#ifdef BCM_GMAC_DEBUG
+static void dma_tx_dump(struct eth_dma *dma)
+{
+ dma64dd_t *descp = NULL;
+ uint8_t *bufp;
+ int i;
+
+ printf("TX DMA Register:\n");
+ printf("control:0x%x; ptr:0x%x; addrl:0x%x; addrh:0x%x; stat0:0x%x, stat1:0x%x\n",
+ readl(GMAC0_DMA_TX_CTRL_ADDR),
+ readl(GMAC0_DMA_TX_PTR_ADDR),
+ readl(GMAC0_DMA_TX_ADDR_LOW_ADDR),
+ readl(GMAC0_DMA_TX_ADDR_HIGH_ADDR),
+ readl(GMAC0_DMA_TX_STATUS0_ADDR),
+ readl(GMAC0_DMA_TX_STATUS1_ADDR));
+
+ printf("TX Descriptors:\n");
+ for (i = 0; i < TX_BUF_NUM; i++) {
+ descp = (dma64dd_t *)(dma->tx_desc_aligned) + i;
+ printf("ctrl1:0x%08x; ctrl2:0x%08x; addr:0x%x 0x%08x\n",
+ descp->ctrl1, descp->ctrl2,
+ descp->addrhigh, descp->addrlow);
+ }
+
+ printf("TX Buffers:\n");
+ /* Initialize TX DMA descriptor table */
+ for (i = 0; i < TX_BUF_NUM; i++) {
+ bufp = (uint8_t *)(dma->tx_buf + i * TX_BUF_SIZE);
+ printf("buf%d:0x%x; ", i, (uint32_t)bufp);
+ }
+ printf("\n");
+}
+
+static void dma_rx_dump(struct eth_dma *dma)
+{
+ dma64dd_t *descp = NULL;
+ uint8_t *bufp;
+ int i;
+
+ printf("RX DMA Register:\n");
+ printf("control:0x%x; ptr:0x%x; addrl:0x%x; addrh:0x%x; stat0:0x%x, stat1:0x%x\n",
+ readl(GMAC0_DMA_RX_CTRL_ADDR),
+ readl(GMAC0_DMA_RX_PTR_ADDR),
+ readl(GMAC0_DMA_RX_ADDR_LOW_ADDR),
+ readl(GMAC0_DMA_RX_ADDR_HIGH_ADDR),
+ readl(GMAC0_DMA_RX_STATUS0_ADDR),
+ readl(GMAC0_DMA_RX_STATUS1_ADDR));
+
+ printf("RX Descriptors:\n");
+ for (i = 0; i < RX_BUF_NUM; i++) {
+ descp = (dma64dd_t *)(dma->rx_desc_aligned) + i;
+ printf("ctrl1:0x%08x; ctrl2:0x%08x; addr:0x%x 0x%08x\n",
+ descp->ctrl1, descp->ctrl2,
+ descp->addrhigh, descp->addrlow);
+ }
+
+ printf("RX Buffers:\n");
+ for (i = 0; i < RX_BUF_NUM; i++) {
+ bufp = dma->rx_buf + i * RX_BUF_SIZE;
+ printf("buf%d:0x%x; ", i, (uint32_t)bufp);
+ }
+ printf("\n");
+}
+#endif
+
+static int dma_tx_init(struct eth_dma *dma)
+{
+ dma64dd_t *descp = NULL;
+ uint8_t *bufp;
+ int i;
+ uint32_t ctrl;
+
+ debug("%s enter\n", __func__);
+
+ /* clear descriptor memory */
+ memset((void *)(dma->tx_desc_aligned), 0,
+ TX_BUF_NUM * sizeof(dma64dd_t));
+ memset(dma->tx_buf, 0, TX_BUF_NUM * TX_BUF_SIZE);
+
+ /* Initialize TX DMA descriptor table */
+ for (i = 0; i < TX_BUF_NUM; i++) {
+ descp = (dma64dd_t *)(dma->tx_desc_aligned) + i;
+ bufp = dma->tx_buf + i * TX_BUF_SIZE;
+ /* clear buffer memory */
+ memset((void *)bufp, 0, TX_BUF_SIZE);
+
+ ctrl = 0;
+ /* if last descr set endOfTable */
+ if (i == (TX_BUF_NUM-1))
+ ctrl = D64_CTRL1_EOT;
+ descp->ctrl1 = ctrl;
+ descp->ctrl2 = 0;
+ descp->addrlow = (uint32_t)bufp;
+ descp->addrhigh = 0;
+ }
+
+ /* flush descriptor and buffer */
+ descp = dma->tx_desc_aligned;
+ bufp = dma->tx_buf;
+ flush_dcache_range((unsigned long)descp,
+ (unsigned long)(descp +
+ sizeof(dma64dd_t) * TX_BUF_NUM));
+ flush_dcache_range((unsigned long)(bufp),
+ (unsigned long)(bufp + TX_BUF_SIZE * TX_BUF_NUM));
+
+ /* initialize the DMA channel */
+ writel((uint32_t)(dma->tx_desc_aligned), GMAC0_DMA_TX_ADDR_LOW_ADDR);
+ writel(0, GMAC0_DMA_TX_ADDR_HIGH_ADDR);
+
+ /* now update the dma last descriptor */
+ writel(((uint32_t)(dma->tx_desc_aligned)) & D64_XP_LD_MASK,
+ GMAC0_DMA_TX_PTR_ADDR);
+
+ return 0;
+}
+
+static int dma_rx_init(struct eth_dma *dma)
+{
+ uint32_t last_desc;
+ dma64dd_t *descp = NULL;
+ uint8_t *bufp;
+ uint32_t ctrl;
+ int i;
+
+ debug("%s enter\n", __func__);
+
+ /* clear descriptor memory */
+ memset((void *)(dma->rx_desc_aligned), 0,
+ RX_BUF_NUM * sizeof(dma64dd_t));
+ /* clear buffer memory */
+ memset(dma->rx_buf, 0, RX_BUF_NUM * RX_BUF_SIZE);
+
+ /* Initialize RX DMA descriptor table */
+ for (i = 0; i < RX_BUF_NUM; i++) {
+ descp = (dma64dd_t *)(dma->rx_desc_aligned) + i;
+ bufp = dma->rx_buf + i * RX_BUF_SIZE;
+ ctrl = 0;
+ /* if last descr set endOfTable */
+ if (i == (RX_BUF_NUM - 1))
+ ctrl = D64_CTRL1_EOT;
+ descp->ctrl1 = ctrl;
+ descp->ctrl2 = RX_BUF_SIZE;
+ descp->addrlow = (uint32_t)bufp;
+ descp->addrhigh = 0;
+
+ last_desc = ((uint32_t)(descp) & D64_XP_LD_MASK)
+ + sizeof(dma64dd_t);
+ }
+
+ descp = dma->rx_desc_aligned;
+ bufp = dma->rx_buf;
+ /* flush descriptor and buffer */
+ flush_dcache_range((unsigned long)descp,
+ (unsigned long)(descp +
+ sizeof(dma64dd_t) * RX_BUF_NUM));
+ flush_dcache_range((unsigned long)(bufp),
+ (unsigned long)(bufp + RX_BUF_SIZE * RX_BUF_NUM));
+
+ /* initailize the DMA channel */
+ writel((uint32_t)descp, GMAC0_DMA_RX_ADDR_LOW_ADDR);
+ writel(0, GMAC0_DMA_RX_ADDR_HIGH_ADDR);
+
+ /* now update the dma last descriptor */
+ writel(last_desc, GMAC0_DMA_RX_PTR_ADDR);
+
+ return 0;
+}
+
+static int dma_init(struct eth_dma *dma)
+{
+ debug(" %s enter\n", __func__);
+
+ /*
+ * Default flags: For backwards compatibility both
+ * Rx Overflow Continue and Parity are DISABLED.
+ */
+ dma_ctrlflags(DMA_CTRL_ROC | DMA_CTRL_PEN, 0);
+
+ debug("rx burst len 0x%x\n",
+ (readl(GMAC0_DMA_RX_CTRL_ADDR) & D64_RC_BL_MASK)
+ >> D64_RC_BL_SHIFT);
+ debug("tx burst len 0x%x\n",
+ (readl(GMAC0_DMA_TX_CTRL_ADDR) & D64_XC_BL_MASK)
+ >> D64_XC_BL_SHIFT);
+
+ dma_tx_init(dma);
+ dma_rx_init(dma);
+
+ /* From end of chip_init() */
+ /* enable the overflow continue feature and disable parity */
+ dma_ctrlflags(DMA_CTRL_ROC | DMA_CTRL_PEN /* mask */,
+ DMA_CTRL_ROC /* value */);
+
+ return 0;
+}
+
+static int dma_deinit(struct eth_dma *dma)
+{
+ debug(" %s enter\n", __func__);
+
+ gmac_disable_dma(dma, MAC_DMA_RX);
+ gmac_disable_dma(dma, MAC_DMA_TX);
+
+ free(dma->tx_buf);
+ dma->tx_buf = NULL;
+ free(dma->tx_desc);
+ dma->tx_desc = NULL;
+ dma->tx_desc_aligned = NULL;
+
+ free(dma->rx_buf);
+ dma->rx_buf = NULL;
+ free(dma->rx_desc);
+ dma->rx_desc = NULL;
+ dma->rx_desc_aligned = NULL;
+
+ return 0;
+}
+
+int gmac_tx_packet(struct eth_dma *dma, void *packet, int length)
+{
+ uint8_t *bufp = dma->tx_buf + dma->cur_tx_index * TX_BUF_SIZE;
+
+ /* kick off the dma */
+ size_t len = length;
+ int txout = dma->cur_tx_index;
+ uint32_t flags;
+ dma64dd_t *descp = NULL;
+ uint32_t ctrl;
+ uint32_t last_desc = (((uint32_t)dma->tx_desc_aligned) +
+ sizeof(dma64dd_t)) & D64_XP_LD_MASK;
+ size_t buflen;
+
+ debug("%s enter\n", __func__);
+
+ /* load the buffer */
+ memcpy(bufp, packet, len);
+
+ /* Add 4 bytes for Ethernet FCS/CRC */
+ buflen = len + 4;
+
+ ctrl = (buflen & D64_CTRL2_BC_MASK);
+
+ /* the transmit will only be one frame or set SOF, EOF */
+ /* also set int on completion */
+ flags = D64_CTRL1_SOF | D64_CTRL1_IOC | D64_CTRL1_EOF;
+
+ /* txout points to the descriptor to uset */
+ /* if last descriptor then set EOT */
+ if (txout == (TX_BUF_NUM - 1)) {
+ flags |= D64_CTRL1_EOT;
+ last_desc = ((uint32_t)(dma->tx_desc_aligned)) & D64_XP_LD_MASK;
+ }
+
+ /* write the descriptor */
+ descp = ((dma64dd_t *)(dma->tx_desc_aligned)) + txout;
+ descp->addrlow = (uint32_t)bufp;
+ descp->addrhigh = 0;
+ descp->ctrl1 = flags;
+ descp->ctrl2 = ctrl;
+
+ /* flush descriptor and buffer */
+ flush_dcache_range((unsigned long)descp,
+ (unsigned long)(descp + sizeof(dma64dd_t)));
+ flush_dcache_range((unsigned long)bufp,
+ (unsigned long)(bufp + TX_BUF_SIZE));
+
+ /* now update the dma last descriptor */
+ writel(last_desc, GMAC0_DMA_TX_PTR_ADDR);
+
+ /* tx dma should be enabled so packet should go out */
+
+ /* update txout */
+ dma->cur_tx_index = (txout + 1) & (TX_BUF_NUM - 1);
+
+ return 0;
+}
+
+bool gmac_check_tx_done(struct eth_dma *dma)
+{
+ /* wait for tx to complete */
+ uint32_t intstatus;
+ bool xfrdone = false;
+
+ debug("%s enter\n", __func__);
+
+ intstatus = readl(GMAC0_INT_STATUS_ADDR);
+
+ debug("int(0x%x)\n", intstatus);
+ if (intstatus & (I_XI0 | I_XI1 | I_XI2 | I_XI3)) {
+ xfrdone = true;
+ /* clear the int bits */
+ intstatus &= ~(I_XI0 | I_XI1 | I_XI2 | I_XI3);
+ writel(intstatus, GMAC0_INT_STATUS_ADDR);
+ } else {
+ debug("Tx int(0x%x)\n", intstatus);
+ }
+
+ return xfrdone;
+}
+
+int gmac_check_rx_done(struct eth_dma *dma, uint8_t *buf)
+{
+ void *bufp, *datap;
+ size_t rcvlen = 0, buflen = 0;
+ uint32_t stat0 = 0, stat1 = 0;
+ uint32_t control, offset;
+ uint8_t statbuf[HWRXOFF*2];
+
+ int index, curr, active;
+ dma64dd_t *descp = NULL;
+
+ /* udelay(50); */
+
+ /*
+ * this api will check if a packet has been received.
+ * If so it will return the address of the buffer and current
+ * descriptor index will be incremented to the
+ * next descriptor. Once done with the frame the buffer should be
+ * added back onto the descriptor and the lastdscr should be updated
+ * to this descriptor.
+ */
+ index = dma->cur_rx_index;
+ offset = (uint32_t)(dma->rx_desc_aligned);
+ stat0 = readl(GMAC0_DMA_RX_STATUS0_ADDR) & D64_RS0_CD_MASK;
+ stat1 = readl(GMAC0_DMA_RX_STATUS1_ADDR) & D64_RS0_CD_MASK;
+ curr = ((stat0 - offset) & D64_RS0_CD_MASK) / sizeof(dma64dd_t);
+ active = ((stat1 - offset) & D64_RS0_CD_MASK) / sizeof(dma64dd_t);
+
+ /* check if any frame */
+ if (index == curr)
+ return -1;
+
+ debug("received packet\n");
+ debug("expect(0x%x) curr(0x%x) active(0x%x)\n", index, curr, active);
+ /* remove warning */
+ if (index == active)
+ ;
+
+ /* get the packet pointer that corresponds to the rx descriptor */
+ bufp = dma->rx_buf + index * RX_BUF_SIZE;
+
+ descp = (dma64dd_t *)(dma->rx_desc_aligned) + index;
+ /* flush descriptor and buffer */
+ flush_dcache_range((unsigned long)descp,
+ (unsigned long)(descp + sizeof(dma64dd_t)));
+ flush_dcache_range((unsigned long)bufp,
+ (unsigned long)(bufp + RX_BUF_SIZE));
+
+ buflen = (descp->ctrl2 & D64_CTRL2_BC_MASK);
+
+ stat0 = readl(GMAC0_DMA_RX_STATUS0_ADDR);
+ stat1 = readl(GMAC0_DMA_RX_STATUS1_ADDR);
+
+ debug("bufp(0x%x) index(0x%x) buflen(0x%x) stat0(0x%x) stat1(0x%x)\n",
+ (uint32_t)bufp, index, buflen, stat0, stat1);
+
+ dma->cur_rx_index = (index + 1) & (RX_BUF_NUM - 1);
+
+ /* get buffer offset */
+ control = readl(GMAC0_DMA_RX_CTRL_ADDR);
+ offset = (control & D64_RC_RO_MASK) >> D64_RC_RO_SHIFT;
+ rcvlen = *(uint16_t *)bufp;
+
+ debug("Received %d bytes\n", rcvlen);
+ /* copy status into temp buf then copy data from rx buffer */
+ memcpy(statbuf, bufp, offset);
+ datap = (void *)((uint32_t)bufp + offset);
+ memcpy(buf, datap, rcvlen);
+
+ /* update descriptor that is being added back on ring */
+ descp->ctrl2 = RX_BUF_SIZE;
+ descp->addrlow = (uint32_t)bufp;
+ descp->addrhigh = 0;
+ /* flush descriptor */
+ flush_dcache_range((unsigned long)descp,
+ (unsigned long)(descp + sizeof(dma64dd_t)));
+
+ /* set the lastdscr for the rx ring */
+ writel(((uint32_t)descp) & D64_XP_LD_MASK, GMAC0_DMA_RX_PTR_ADDR);
+
+ return (int)rcvlen;
+}
+
+static int gmac_disable_dma(struct eth_dma *dma, int dir)
+{
+ int status;
+
+ debug("%s enter\n", __func__);
+
+ if (dir == MAC_DMA_TX) {
+ /* address PR8249/PR7577 issue */
+ /* suspend tx DMA first */
+ writel(D64_XC_SE, GMAC0_DMA_TX_CTRL_ADDR);
+ SPINWAIT(((status = (readl(GMAC0_DMA_TX_STATUS0_ADDR) &
+ D64_XS0_XS_MASK)) !=
+ D64_XS0_XS_DISABLED) &&
+ (status != D64_XS0_XS_IDLE) &&
+ (status != D64_XS0_XS_STOPPED), 10000);
+
+ /*
+ * PR2414 WAR: DMA engines are not disabled until
+ * transfer finishes
+ */
+ writel(0, GMAC0_DMA_TX_CTRL_ADDR);
+ SPINWAIT(((status = (readl(GMAC0_DMA_TX_STATUS0_ADDR) &
+ D64_XS0_XS_MASK)) !=
+ D64_XS0_XS_DISABLED), 10000);
+
+ /* wait for the last transaction to complete */
+ udelay(2);
+
+ status = (status == D64_XS0_XS_DISABLED);
+ } else {
+ /*
+ * PR2414 WAR: DMA engines are not disabled until
+ * transfer finishes
+ */
+ writel(0, GMAC0_DMA_RX_CTRL_ADDR);
+ SPINWAIT(((status = (readl(GMAC0_DMA_RX_STATUS0_ADDR) &
+ D64_RS0_RS_MASK)) !=
+ D64_RS0_RS_DISABLED), 10000);
+
+ status = (status == D64_RS0_RS_DISABLED);
+ }
+
+ return status;
+}
+
+static int gmac_enable_dma(struct eth_dma *dma, int dir)
+{
+ uint32_t control;
+
+ debug("%s enter\n", __func__);
+
+ if (dir == MAC_DMA_TX) {
+ dma->cur_tx_index = 0;
+
+ /*
+ * These bits 20:18 (burstLen) of control register can be
+ * written but will take effect only if these bits are
+ * valid. So this will not affect previous versions
+ * of the DMA. They will continue to have those bits set to 0.
+ */
+ control = readl(GMAC0_DMA_TX_CTRL_ADDR);
+
+ control |= D64_XC_XE;
+ if ((g_dmactrlflags & DMA_CTRL_PEN) == 0)
+ control |= D64_XC_PD;
+
+ writel(control, GMAC0_DMA_TX_CTRL_ADDR);
+
+ /* initailize the DMA channel */
+ writel((uint32_t)(dma->tx_desc_aligned),
+ GMAC0_DMA_TX_ADDR_LOW_ADDR);
+ writel(0, GMAC0_DMA_TX_ADDR_HIGH_ADDR);
+ } else {
+ dma->cur_rx_index = 0;
+
+ control = (readl(GMAC0_DMA_RX_CTRL_ADDR) &
+ D64_RC_AE) | D64_RC_RE;
+
+ if ((g_dmactrlflags & DMA_CTRL_PEN) == 0)
+ control |= D64_RC_PD;
+
+ if (g_dmactrlflags & DMA_CTRL_ROC)
+ control |= D64_RC_OC;
+
+ /*
+ * These bits 20:18 (burstLen) of control register can be
+ * written but will take effect only if these bits are
+ * valid. So this will not affect previous versions
+ * of the DMA. They will continue to have those bits set to 0.
+ */
+ control &= ~D64_RC_BL_MASK;
+ /* Keep default Rx burstlen */
+ control |= readl(GMAC0_DMA_RX_CTRL_ADDR) & D64_RC_BL_MASK;
+ control |= HWRXOFF << D64_RC_RO_SHIFT;
+
+ writel(control, GMAC0_DMA_RX_CTRL_ADDR);
+
+ /*
+ * the rx descriptor ring should have
+ * the addresses set properly;
+ * set the lastdscr for the rx ring
+ */
+ writel(((uint32_t)(dma->rx_desc_aligned) +
+ (RX_BUF_NUM - 1) * RX_BUF_SIZE) &
+ D64_XP_LD_MASK, GMAC0_DMA_RX_PTR_ADDR);
+ }
+
+ return 0;
+}
+
+bool gmac_mii_busywait(unsigned int timeout)
+{
+ uint32_t tmp = 0;
+
+ while (timeout > 10) {
+ tmp = readl(GMAC_MII_CTRL_ADDR);
+ if (tmp & (1 << GMAC_MII_BUSY_SHIFT)) {
+ udelay(10);
+ timeout -= 10;
+ } else {
+ break;
+ }
+ }
+ return tmp & (1 << GMAC_MII_BUSY_SHIFT);
+}
+
+int gmac_miiphy_read(const char *devname, unsigned char phyaddr,
+ unsigned char reg, unsigned short *value)
+{
+ uint32_t tmp = 0;
+
+ (void)devname;
+
+ /* Busy wait timeout is 1ms */
+ if (gmac_mii_busywait(1000)) {
+ error("%s: Prepare MII read: MII/MDIO busy\n", __func__);
+ return -1;
+ }
+
+ /* Read operation */
+ tmp = GMAC_MII_DATA_READ_CMD;
+ tmp |= (phyaddr << GMAC_MII_PHY_ADDR_SHIFT) |
+ (reg << GMAC_MII_PHY_REG_SHIFT);
+ debug("MII read cmd 0x%x, phy 0x%x, reg 0x%x\n", tmp, phyaddr, reg);
+ writel(tmp, GMAC_MII_DATA_ADDR);
+
+ if (gmac_mii_busywait(1000)) {
+ error("%s: MII read failure: MII/MDIO busy\n", __func__);
+ return -1;
+ }
+
+ *value = readl(GMAC_MII_DATA_ADDR) & 0xffff;
+ debug("MII read data 0x%x\n", *value);
+ return 0;
+}
+
+int gmac_miiphy_write(const char *devname, unsigned char phyaddr,
+ unsigned char reg, unsigned short value)
+{
+ uint32_t tmp = 0;
+
+ (void)devname;
+
+ /* Busy wait timeout is 1ms */
+ if (gmac_mii_busywait(1000)) {
+ error("%s: Prepare MII write: MII/MDIO busy\n", __func__);
+ return -1;
+ }
+
+ /* Write operation */
+ tmp = GMAC_MII_DATA_WRITE_CMD | (value & 0xffff);
+ tmp |= ((phyaddr << GMAC_MII_PHY_ADDR_SHIFT) |
+ (reg << GMAC_MII_PHY_REG_SHIFT));
+ debug("MII write cmd 0x%x, phy 0x%x, reg 0x%x, data 0x%x\n",
+ tmp, phyaddr, reg, value);
+ writel(tmp, GMAC_MII_DATA_ADDR);
+
+ if (gmac_mii_busywait(1000)) {
+ error("%s: MII write failure: MII/MDIO busy\n", __func__);
+ return -1;
+ }
+
+ return 0;
+}
+
+void gmac_init_reset(void)
+{
+ debug("%s enter\n", __func__);
+
+ /* set command config reg CC_SR */
+ reg32_set_bits(UNIMAC0_CMD_CFG_ADDR, CC_SR);
+ udelay(GMAC_RESET_DELAY);
+}
+
+void gmac_clear_reset(void)
+{
+ debug("%s enter\n", __func__);
+
+ /* clear command config reg CC_SR */
+ reg32_clear_bits(UNIMAC0_CMD_CFG_ADDR, CC_SR);
+ udelay(GMAC_RESET_DELAY);
+}
+
+static void gmac_enable_local(bool en)
+{
+ uint32_t cmdcfg;
+
+ debug("%s enter\n", __func__);
+
+ /* read command config reg */
+ cmdcfg = readl(UNIMAC0_CMD_CFG_ADDR);
+
+ /* put mac in reset */
+ gmac_init_reset();
+
+ cmdcfg |= CC_SR;
+
+ /* first deassert rx_ena and tx_ena while in reset */
+ cmdcfg &= ~(CC_RE | CC_TE);
+ /* write command config reg */
+ writel(cmdcfg, UNIMAC0_CMD_CFG_ADDR);
+
+ /* bring mac out of reset */
+ gmac_clear_reset();
+
+ /* if not enable exit now */
+ if (!en)
+ return;
+
+ /* enable the mac transmit and receive paths now */
+ udelay(2);
+ cmdcfg &= ~CC_SR;
+ cmdcfg |= (CC_RE | CC_TE);
+
+ /* assert rx_ena and tx_ena when out of reset to enable the mac */
+ writel(cmdcfg, UNIMAC0_CMD_CFG_ADDR);
+
+ return;
+}
+
+int gmac_enable(void)
+{
+ gmac_enable_local(1);
+
+ /* clear interrupts */
+ writel(I_INTMASK, GMAC0_INT_STATUS_ADDR);
+ return 0;
+}
+
+int gmac_disable(void)
+{
+ gmac_enable_local(0);
+ return 0;
+}
+
+int gmac_set_speed(int speed, int duplex)
+{
+ uint32_t cmdcfg;
+ uint32_t hd_ena;
+ uint32_t speed_cfg;
+
+ hd_ena = duplex ? 0 : CC_HD;
+ if (speed == 1000) {
+ speed_cfg = 2;
+ } else if (speed == 100) {
+ speed_cfg = 1;
+ } else if (speed == 10) {
+ speed_cfg = 0;
+ } else {
+ error("%s: Invalid GMAC speed(%d)!\n", __func__, speed);
+ return -1;
+ }
+
+ cmdcfg = readl(UNIMAC0_CMD_CFG_ADDR);
+ cmdcfg &= ~(CC_ES_MASK | CC_HD);
+ cmdcfg |= ((speed_cfg << CC_ES_SHIFT) | hd_ena);
+
+ printf("Change GMAC speed to %dMB\n", speed);
+ debug("GMAC speed cfg 0x%x\n", cmdcfg);
+ writel(cmdcfg, UNIMAC0_CMD_CFG_ADDR);
+
+ return 0;
+}
+
+int gmac_set_mac_addr(unsigned char *mac)
+{
+ /* set our local address */
+ debug("GMAC: %02x:%02x:%02x:%02x:%02x:%02x\n",
+ mac[0], mac[1], mac[2], mac[3], mac[4], mac[5]);
+ writel(htonl(*(uint32_t *)mac), UNIMAC0_MAC_MSB_ADDR);
+ writew(htons(*(uint32_t *)&mac[4]), UNIMAC0_MAC_LSB_ADDR);
+
+ return 0;
+}
+
+int gmac_mac_init(struct eth_device *dev)
+{
+ struct eth_info *eth = (struct eth_info *)(dev->priv);
+ struct eth_dma *dma = &(eth->dma);
+
+ uint32_t tmp;
+ uint32_t cmdcfg;
+ int chipid;
+
+ debug("%s enter\n", __func__);
+
+ /* Always use GMAC0 */
+ printf("Using GMAC%d\n", 0);
+
+ /* Reset AMAC0 core */
+ writel(0, AMAC0_IDM_RESET_ADDR);
+ tmp = readl(AMAC0_IO_CTRL_DIRECT_ADDR);
+ /* Set clock */
+ tmp &= ~(1 << AMAC0_IO_CTRL_CLK_250_SEL_SHIFT);
+ tmp |= (1 << AMAC0_IO_CTRL_GMII_MODE_SHIFT);
+ /* Set Tx clock */
+ tmp &= ~(1 << AMAC0_IO_CTRL_DEST_SYNC_MODE_EN_SHIFT);
+ writel(tmp, AMAC0_IO_CTRL_DIRECT_ADDR);
+
+ /* reset gmac */
+ /*
+ * As AMAC is just reset, NO need?
+ * set eth_data into loopback mode to ensure no rx traffic
+ * gmac_loopback(eth_data, TRUE);
+ * ET_TRACE(("%s gmac loopback\n", __func__));
+ * udelay(1);
+ */
+
+ cmdcfg = readl(UNIMAC0_CMD_CFG_ADDR);
+ cmdcfg &= ~(CC_TE | CC_RE | CC_RPI | CC_TAI | CC_HD | CC_ML |
+ CC_CFE | CC_RL | CC_RED | CC_PE | CC_TPI |
+ CC_PAD_EN | CC_PF);
+ cmdcfg |= (CC_PROM | CC_NLC | CC_CFE);
+ /* put mac in reset */
+ gmac_init_reset();
+ writel(cmdcfg, UNIMAC0_CMD_CFG_ADDR);
+ gmac_clear_reset();
+
+ /* enable clear MIB on read */
+ reg32_set_bits(GMAC0_DEV_CTRL_ADDR, DC_MROR);
+ /* PHY: set smi_master to drive mdc_clk */
+ reg32_set_bits(GMAC0_PHY_CTRL_ADDR, PC_MTE);
+
+ /* clear persistent sw intstatus */
+ writel(0, GMAC0_INT_STATUS_ADDR);
+
+ if (dma_init(dma) < 0) {
+ error("%s: GMAC dma_init failed\n", __func__);
+ goto err_exit;
+ }
+
+ chipid = CHIPID;
+ printf("%s: Chip ID: 0x%x\n", __func__, chipid);
+
+ /* set switch bypass mode */
+ tmp = readl(SWITCH_GLOBAL_CONFIG_ADDR);
+ tmp |= (1 << CDRU_SWITCH_BYPASS_SWITCH_SHIFT);
+
+ /* Switch mode */
+ /* tmp &= ~(1 << CDRU_SWITCH_BYPASS_SWITCH_SHIFT); */
+
+ writel(tmp, SWITCH_GLOBAL_CONFIG_ADDR);
+
+ tmp = readl(CRMU_CHIP_IO_PAD_CONTROL_ADDR);
+ tmp &= ~(1 << CDRU_IOMUX_FORCE_PAD_IN_SHIFT);
+ writel(tmp, CRMU_CHIP_IO_PAD_CONTROL_ADDR);
+
+ /* Set MDIO to internal GPHY */
+ tmp = readl(GMAC_MII_CTRL_ADDR);
+ /* Select internal MDC/MDIO bus*/
+ tmp &= ~(1 << GMAC_MII_CTRL_BYP_SHIFT);
+ /* select MDC/MDIO connecting to on-chip internal PHYs */
+ tmp &= ~(1 << GMAC_MII_CTRL_EXT_SHIFT);
+ /*
+ * give bit[6:0](MDCDIV) with required divisor to set
+ * the MDC clock frequency, 66MHZ/0x1A=2.5MHZ
+ */
+ tmp |= 0x1A;
+
+ writel(tmp, GMAC_MII_CTRL_ADDR);
+
+ if (gmac_mii_busywait(1000)) {
+ error("%s: Configure MDIO: MII/MDIO busy\n", __func__);
+ goto err_exit;
+ }
+
+ /* Configure GMAC0 */
+ /* enable one rx interrupt per received frame */
+ writel(1 << GMAC0_IRL_FRAMECOUNT_SHIFT, GMAC0_INTR_RECV_LAZY_ADDR);
+
+ /* read command config reg */
+ cmdcfg = readl(UNIMAC0_CMD_CFG_ADDR);
+ /* enable 802.3x tx flow control (honor received PAUSE frames) */
+ cmdcfg &= ~CC_RPI;
+ /* enable promiscuous mode */
+ cmdcfg |= CC_PROM;
+ /* Disable loopback mode */
+ cmdcfg &= ~CC_ML;
+ /* set the speed */
+ cmdcfg &= ~(CC_ES_MASK | CC_HD);
+ /* Set to 1Gbps and full duplex by default */
+ cmdcfg |= (2 << CC_ES_SHIFT);
+
+ /* put mac in reset */
+ gmac_init_reset();
+ /* write register */
+ writel(cmdcfg, UNIMAC0_CMD_CFG_ADDR);
+ /* bring mac out of reset */
+ gmac_clear_reset();
+
+ /* set max frame lengths; account for possible vlan tag */
+ writel(PKTSIZE + 32, UNIMAC0_FRM_LENGTH_ADDR);
+
+ return 0;
+
+err_exit:
+ dma_deinit(dma);
+ return -1;
+}
+
+int gmac_add(struct eth_device *dev)
+{
+ struct eth_info *eth = (struct eth_info *)(dev->priv);
+ struct eth_dma *dma = &(eth->dma);
+ void *tmp;
+
+ /*
+ * Desc has to be 16-byte aligned ?
+ * If it is 8-byte aligned by malloc, fail Tx
+ */
+ tmp = malloc(sizeof(dma64dd_t) * TX_BUF_NUM + 8);
+ if (tmp == NULL) {
+ printf("%s: Failed to allocate TX desc Buffer\n", __func__);
+ return -1;
+ }
+
+ dma->tx_desc = (void *)tmp;
+ dma->tx_desc_aligned = (void *)(((uint32_t)tmp) & (~0xf));
+ debug("TX Descriptor Buffer: %p; length: 0x%x\n",
+ dma->tx_desc_aligned, sizeof(dma64dd_t) * TX_BUF_NUM);
+
+ tmp = malloc(TX_BUF_SIZE * TX_BUF_NUM);
+ if (tmp == NULL) {
+ printf("%s: Failed to allocate TX Data Buffer\n", __func__);
+ free(dma->tx_desc);
+ return -1;
+ }
+ dma->tx_buf = (uint8_t *)tmp;
+ debug("TX Data Buffer: %p; length: 0x%x\n",
+ dma->tx_buf, TX_BUF_SIZE * TX_BUF_NUM);
+
+ /* Desc has to be 16-byte aligned ? */
+ tmp = malloc(sizeof(dma64dd_t) * RX_BUF_NUM + 8);
+ if (tmp == NULL) {
+ printf("%s: Failed to allocate RX Descriptor\n", __func__);
+ free(dma->tx_desc);
+ free(dma->tx_buf);
+ return -1;
+ }
+ dma->rx_desc = tmp;
+ dma->rx_desc_aligned = (void *)(((uint32_t)tmp) & (~0xf));
+ debug("RX Descriptor Buffer: %p, length: 0x%x\n",
+ dma->rx_desc_aligned, sizeof(dma64dd_t) * RX_BUF_NUM);
+
+ tmp = malloc(RX_BUF_SIZE * RX_BUF_NUM);
+ if (tmp == NULL) {
+ printf("%s: Failed to allocate RX Data Buffer\n", __func__);
+ free(dma->tx_desc);
+ free(dma->tx_buf);
+ free(dma->rx_desc);
+ return -1;
+ }
+ dma->rx_buf = tmp;
+ debug("RX Data Buffer: %p; length: 0x%x\n",
+ dma->rx_buf, RX_BUF_SIZE * RX_BUF_NUM);
+
+ g_dmactrlflags = 0;
+
+ eth->phy_interface = PHY_INTERFACE_MODE_GMII;
+
+ dma->tx_packet = gmac_tx_packet;
+ dma->check_tx_done = gmac_check_tx_done;
+
+ dma->check_rx_done = gmac_check_rx_done;
+
+ dma->enable_dma = gmac_enable_dma;
+ dma->disable_dma = gmac_disable_dma;
+
+ eth->miiphy_read = gmac_miiphy_read;
+ eth->miiphy_write = gmac_miiphy_write;
+
+ eth->mac_init = gmac_mac_init;
+ eth->disable_mac = gmac_disable;
+ eth->enable_mac = gmac_enable;
+ eth->set_mac_addr = gmac_set_mac_addr;
+ eth->set_mac_speed = gmac_set_speed;
+
+ return 0;
+}