#include <linux/delay.h>
/* Ethernet chip registers. */
-#define SCBStatus 0 /* Rx/Command Unit Status *Word* */
-#define SCBIntAckByte 1 /* Rx/Command Unit STAT/ACK byte */
-#define SCBCmd 2 /* Rx/Command Unit Command *Word* */
-#define SCBIntrCtlByte 3 /* Rx/Command Unit Intr.Control Byte */
-#define SCBPointer 4 /* General purpose pointer. */
-#define SCBPort 8 /* Misc. commands and operands. */
-#define SCBflash 12 /* Flash memory control. */
-#define SCBeeprom 14 /* EEPROM memory control. */
-#define SCBCtrlMDI 16 /* MDI interface control. */
-#define SCBEarlyRx 20 /* Early receive byte count. */
-#define SCBGenControl 28 /* 82559 General Control Register */
-#define SCBGenStatus 29 /* 82559 General Status register */
+#define SCB_STATUS 0 /* Rx/Command Unit Status *Word* */
+#define SCB_INT_ACK_BYTE 1 /* Rx/Command Unit STAT/ACK byte */
+#define SCB_CMD 2 /* Rx/Command Unit Command *Word* */
+#define SCB_INTR_CTL_BYTE 3 /* Rx/Command Unit Intr.Control Byte */
+#define SCB_POINTER 4 /* General purpose pointer. */
+#define SCB_PORT 8 /* Misc. commands and operands. */
+#define SCB_FLASH 12 /* Flash memory control. */
+#define SCB_EEPROM 14 /* EEPROM memory control. */
+#define SCB_CTRL_MDI 16 /* MDI interface control. */
+#define SCB_EARLY_RX 20 /* Early receive byte count. */
+#define SCB_GEN_CONTROL 28 /* 82559 General Control Register */
+#define SCB_GEN_STATUS 29 /* 82559 General Status register */
/* 82559 SCB status word defnitions */
#define SCB_STATUS_CX 0x8000 /* CU finished command (transmit) */
#define EE_ERASE_CMD (7 << addr_len)
/* Receive frame descriptors. */
-struct RxFD {
+struct eepro100_rxfd {
volatile u16 status;
volatile u16 control;
- volatile u32 link; /* struct RxFD * */
+ volatile u32 link; /* struct eepro100_rxfd * */
volatile u32 rx_buf_addr; /* void * */
volatile u32 count;
#define RFD_RX_TCO 0x0001 /* TCO indication */
/* Transmit frame descriptors */
-struct TxFD { /* Transmit frame descriptor set. */
+struct eepro100_txfd { /* Transmit frame descriptor set. */
volatile u16 status;
volatile u16 command;
volatile u32 link; /* void * */
volatile s32 tx_buf_size1; /* Length of Tx frame. */
};
-#define TxCB_CMD_TRANSMIT 0x0004 /* transmit command */
-#define TxCB_CMD_SF 0x0008 /* 0=simplified, 1=flexible mode */
-#define TxCB_CMD_NC 0x0010 /* 0=CRC insert by controller */
-#define TxCB_CMD_I 0x2000 /* generate interrupt on completion */
-#define TxCB_CMD_S 0x4000 /* suspend on completion */
-#define TxCB_CMD_EL 0x8000 /* last command block in CBL */
+#define TXCB_CMD_TRANSMIT 0x0004 /* transmit command */
+#define TXCB_CMD_SF 0x0008 /* 0=simplified, 1=flexible mode */
+#define TXCB_CMD_NC 0x0010 /* 0=CRC insert by controller */
+#define TXCB_CMD_I 0x2000 /* generate interrupt on completion */
+#define TXCB_CMD_S 0x4000 /* suspend on completion */
+#define TXCB_CMD_EL 0x8000 /* last command block in CBL */
-#define TxCB_COUNT_MASK 0x3fff
-#define TxCB_COUNT_EOF 0x8000
+#define TXCB_COUNT_MASK 0x3fff
+#define TXCB_COUNT_EOF 0x8000
/* The Speedo3 Rx and Tx frame/buffer descriptors. */
struct descriptor { /* A generic descriptor. */
#define TOUT_LOOP 1000000
-static struct RxFD rx_ring[NUM_RX_DESC]; /* RX descriptor ring */
-static struct TxFD tx_ring[NUM_TX_DESC]; /* TX descriptor ring */
+static struct eepro100_rxfd rx_ring[NUM_RX_DESC]; /* RX descriptor ring */
+static struct eepro100_txfd tx_ring[NUM_TX_DESC]; /* TX descriptor ring */
static int rx_next; /* RX descriptor ring pointer */
static int tx_next; /* TX descriptor ring pointer */
static int tx_threshold;
/* read requested data */
cmd = (2 << 26) | ((addr & 0x1f) << 21) | ((reg & 0x1f) << 16);
- OUTL(dev, cmd, SCBCtrlMDI);
+ OUTL(dev, cmd, SCB_CTRL_MDI);
do {
udelay(1000);
- cmd = INL(dev, SCBCtrlMDI);
+ cmd = INL(dev, SCB_CTRL_MDI);
} while (!(cmd & (1 << 28)) && (--timeout));
if (timeout == 0)
/* write requested data */
cmd = (1 << 26) | ((addr & 0x1f) << 21) | ((reg & 0x1f) << 16);
- OUTL(dev, cmd | value, SCBCtrlMDI);
+ OUTL(dev, cmd | value, SCB_CTRL_MDI);
- while (!(INL(dev, SCBCtrlMDI) & (1 << 28)) && (--timeout))
+ while (!(INL(dev, SCB_CTRL_MDI) & (1 << 28)) && (--timeout))
udelay(1000);
if (timeout == 0)
{
int i;
- for (i = 0; INW(dev, SCBCmd) & (CU_CMD_MASK | RU_CMD_MASK); i++) {
+ for (i = 0; INW(dev, SCB_CMD) & (CU_CMD_MASK | RU_CMD_MASK); i++) {
if (i >= TOUT_LOOP)
return 0;
}
struct descriptor *ias_cmd, *cfg_cmd;
/* Reset the ethernet controller */
- OUTL(dev, I82559_SELECTIVE_RESET, SCBPort);
+ OUTL(dev, I82559_SELECTIVE_RESET, SCB_PORT);
udelay(20);
- OUTL(dev, I82559_RESET, SCBPort);
+ OUTL(dev, I82559_RESET, SCB_PORT);
udelay(20);
if (!wait_for_eepro100(dev)) {
printf("Error: Can not reset ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, 0, SCBPointer);
- OUTW(dev, SCB_M | RUC_ADDR_LOAD, SCBCmd);
+ OUTL(dev, 0, SCB_POINTER);
+ OUTW(dev, SCB_M | RUC_ADDR_LOAD, SCB_CMD);
if (!wait_for_eepro100(dev)) {
printf("Error: Can not reset ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, 0, SCBPointer);
- OUTW(dev, SCB_M | CU_ADDR_LOAD, SCBCmd);
+ OUTL(dev, 0, SCB_POINTER);
+ OUTW(dev, SCB_M | CU_ADDR_LOAD, SCB_CMD);
/* Initialize Rx and Tx rings. */
init_rx_ring(dev);
/* Tell the adapter where the RX ring is located. */
if (!wait_for_eepro100(dev)) {
printf("Error: Can not reset ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, phys_to_bus((u32)&rx_ring[rx_next]), SCBPointer);
- OUTW(dev, SCB_M | RUC_START, SCBCmd);
+ OUTL(dev, phys_to_bus((u32)&rx_ring[rx_next]), SCB_POINTER);
+ OUTW(dev, SCB_M | RUC_START, SCB_CMD);
/* Send the Configure frame */
tx_cur = tx_next;
if (!wait_for_eepro100(dev)) {
printf("Error---CONFIG_SYS_CMD_CONFIGURE: Can not reset ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, phys_to_bus((u32)&tx_ring[tx_cur]), SCBPointer);
- OUTW(dev, SCB_M | CU_START, SCBCmd);
+ OUTL(dev, phys_to_bus((u32)&tx_ring[tx_cur]), SCB_POINTER);
+ OUTW(dev, SCB_M | CU_START, SCB_CMD);
for (i = 0;
!(le16_to_cpu(tx_ring[tx_cur].status) & CONFIG_SYS_STATUS_C);
i++) {
if (i >= TOUT_LOOP) {
printf("%s: Tx error buffer not ready\n", dev->name);
- goto Done;
+ goto done;
}
}
if (!(le16_to_cpu(tx_ring[tx_cur].status) & CONFIG_SYS_STATUS_OK)) {
printf("TX error status = 0x%08X\n",
le16_to_cpu(tx_ring[tx_cur].status));
- goto Done;
+ goto done;
}
/* Send the Individual Address Setup frame */
/* Tell the adapter where the TX ring is located. */
if (!wait_for_eepro100(dev)) {
printf("Error: Can not reset ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, phys_to_bus((u32)&tx_ring[tx_cur]), SCBPointer);
- OUTW(dev, SCB_M | CU_START, SCBCmd);
+ OUTL(dev, phys_to_bus((u32)&tx_ring[tx_cur]), SCB_POINTER);
+ OUTW(dev, SCB_M | CU_START, SCB_CMD);
for (i = 0;
!(le16_to_cpu(tx_ring[tx_cur].status) & CONFIG_SYS_STATUS_C);
if (i >= TOUT_LOOP) {
printf("%s: Tx error buffer not ready\n",
dev->name);
- goto Done;
+ goto done;
}
}
if (!(le16_to_cpu(tx_ring[tx_cur].status) & CONFIG_SYS_STATUS_OK)) {
printf("TX error status = 0x%08X\n",
le16_to_cpu(tx_ring[tx_cur].status));
- goto Done;
+ goto done;
}
status = 0;
-Done:
+done:
return status;
}
if (length <= 0) {
printf("%s: bad packet size: %d\n", dev->name, length);
- goto Done;
+ goto done;
}
tx_cur = tx_next;
tx_next = (tx_next + 1) % NUM_TX_DESC;
- tx_ring[tx_cur].command = cpu_to_le16 (TxCB_CMD_TRANSMIT |
- TxCB_CMD_SF |
- TxCB_CMD_S |
- TxCB_CMD_EL);
+ tx_ring[tx_cur].command = cpu_to_le16(TXCB_CMD_TRANSMIT | TXCB_CMD_SF |
+ TXCB_CMD_S | TXCB_CMD_EL);
tx_ring[tx_cur].status = 0;
tx_ring[tx_cur].count = cpu_to_le32 (tx_threshold);
tx_ring[tx_cur].link =
if (!wait_for_eepro100(dev)) {
printf("%s: Tx error ethernet controller not ready.\n",
dev->name);
- goto Done;
+ goto done;
}
/* Send the packet. */
- OUTL(dev, phys_to_bus((u32)&tx_ring[tx_cur]), SCBPointer);
- OUTW(dev, SCB_M | CU_START, SCBCmd);
+ OUTL(dev, phys_to_bus((u32)&tx_ring[tx_cur]), SCB_POINTER);
+ OUTW(dev, SCB_M | CU_START, SCB_CMD);
for (i = 0;
!(le16_to_cpu(tx_ring[tx_cur].status) & CONFIG_SYS_STATUS_C);
i++) {
if (i >= TOUT_LOOP) {
printf("%s: Tx error buffer not ready\n", dev->name);
- goto Done;
+ goto done;
}
}
if (!(le16_to_cpu(tx_ring[tx_cur].status) & CONFIG_SYS_STATUS_OK)) {
printf("TX error status = 0x%08X\n",
le16_to_cpu(tx_ring[tx_cur].status));
- goto Done;
+ goto done;
}
status = length;
-Done:
+done:
return status;
}
u16 status, stat;
int rx_prev, length = 0;
- stat = INW(dev, SCBStatus);
- OUTW(dev, stat & SCB_STATUS_RNR, SCBStatus);
+ stat = INW(dev, SCB_STATUS);
+ OUTW(dev, stat & SCB_STATUS_RNR, SCB_STATUS);
for (;;) {
status = le16_to_cpu(rx_ring[rx_next].status);
if (!wait_for_eepro100(dev)) {
printf("Error: Can not restart ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, phys_to_bus((u32)&rx_ring[rx_next]), SCBPointer);
- OUTW(dev, SCB_M | RUC_START, SCBCmd);
+ OUTL(dev, phys_to_bus((u32)&rx_ring[rx_next]), SCB_POINTER);
+ OUTW(dev, SCB_M | RUC_START, SCB_CMD);
}
-Done:
+done:
return length;
}
static void eepro100_halt(struct eth_device *dev)
{
/* Reset the ethernet controller */
- OUTL(dev, I82559_SELECTIVE_RESET, SCBPort);
+ OUTL(dev, I82559_SELECTIVE_RESET, SCB_PORT);
udelay(20);
- OUTL(dev, I82559_RESET, SCBPort);
+ OUTL(dev, I82559_RESET, SCB_PORT);
udelay(20);
if (!wait_for_eepro100(dev)) {
printf("Error: Can not reset ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, 0, SCBPointer);
- OUTW(dev, SCB_M | RUC_ADDR_LOAD, SCBCmd);
+ OUTL(dev, 0, SCB_POINTER);
+ OUTW(dev, SCB_M | RUC_ADDR_LOAD, SCB_CMD);
if (!wait_for_eepro100(dev)) {
printf("Error: Can not reset ethernet controller.\n");
- goto Done;
+ goto done;
}
- OUTL(dev, 0, SCBPointer);
- OUTW(dev, SCB_M | CU_ADDR_LOAD, SCBCmd);
+ OUTL(dev, 0, SCB_POINTER);
+ OUTW(dev, SCB_M | CU_ADDR_LOAD, SCB_CMD);
-Done:
+done:
return;
}
int read_cmd = location | EE_READ_CMD;
int i;
- OUTW(dev, EE_ENB & ~EE_CS, SCBeeprom);
- OUTW(dev, EE_ENB, SCBeeprom);
+ OUTW(dev, EE_ENB & ~EE_CS, SCB_EEPROM);
+ OUTW(dev, EE_ENB, SCB_EEPROM);
/* Shift the read command bits out. */
for (i = 12; i >= 0; i--) {
short dataval = (read_cmd & (1 << i)) ? EE_DATA_WRITE : 0;
- OUTW(dev, EE_ENB | dataval, SCBeeprom);
+ OUTW(dev, EE_ENB | dataval, SCB_EEPROM);
udelay(1);
- OUTW(dev, EE_ENB | dataval | EE_SHIFT_CLK, SCBeeprom);
+ OUTW(dev, EE_ENB | dataval | EE_SHIFT_CLK, SCB_EEPROM);
udelay(1);
}
- OUTW(dev, EE_ENB, SCBeeprom);
+ OUTW(dev, EE_ENB, SCB_EEPROM);
for (i = 15; i >= 0; i--) {
- OUTW(dev, EE_ENB | EE_SHIFT_CLK, SCBeeprom);
+ OUTW(dev, EE_ENB | EE_SHIFT_CLK, SCB_EEPROM);
udelay(1);
retval = (retval << 1) |
- ((INW(dev, SCBeeprom) & EE_DATA_READ) ? 1 : 0);
- OUTW(dev, EE_ENB, SCBeeprom);
+ ((INW(dev, SCB_EEPROM) & EE_DATA_READ) ? 1 : 0);
+ OUTW(dev, EE_ENB, SCB_EEPROM);
udelay(1);
}
/* Terminate the EEPROM access. */
- OUTW(dev, EE_ENB & ~EE_CS, SCBeeprom);
+ OUTW(dev, EE_ENB & ~EE_CS, SCB_EEPROM);
return retval;
}
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