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AQR105_phy.c
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AQR105_phy.c
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#include "tn40.h"
#include "AQR105_phy.h"
#define mailboxWrite (0xC000)
#define phyImageHeaderContentOffset (0x300)
#define r1 (0x1E)
#define LINK_LOOP_MAX (25)
/*#define AQ_VERBOSE */
void AQR105_register_settings(struct bdx_priv *priv);
int AQR105_mdio_reset(struct bdx_priv *priv, int port, unsigned short phy);
u32 AQR105_link_changed(struct bdx_priv *priv);
void AQR105_leds(struct bdx_priv *priv, enum PHY_LEDS_OP op);
int AQR105_set_speed(struct bdx_priv *priv, signed int speed)
{
u16 val, port = priv->phy_mdio_port;
int rVal = 0;
if (priv->autoneg == AUTONEG_ENABLE) {
pr_debug("AQR105 speed %d Autoneg\n", speed);
BDX_MDIO_WRITE(priv, 0x07, 0x10, 0x9101);
BDX_MDIO_WRITE(priv, 0x07, 0xC400, 0x9C5A);
BDX_MDIO_WRITE(priv, 0x07, 0x20, 0x1001);
} else {
switch (speed) {
case 10000: /*10G */
pr_debug("AQR105 speed 10G\n");
BDX_MDIO_WRITE(priv, 0x07, 0x10, 0x9001);
BDX_MDIO_WRITE(priv, 0x07, 0xC400, 0x40);
BDX_MDIO_WRITE(priv, 0x07, 0x20, 0x1001);
break;
case 5000: /*5G */
pr_debug("AQR105 speed 5G\n");
BDX_MDIO_WRITE(priv, 0x07, 0x10, 0x9001);
BDX_MDIO_WRITE(priv, 0x07, 0xC400, 0x840);
BDX_MDIO_WRITE(priv, 0x07, 0x20, 0x1);
break;
case 2500: /*2.5G */
pr_debug("AQR105 speed 10G\n");
BDX_MDIO_WRITE(priv, 0x07, 0x10, 0x9001);
BDX_MDIO_WRITE(priv, 0x07, 0xC400, 0x440);
BDX_MDIO_WRITE(priv, 0x07, 0x20, 0x1);
break;
case 1000: /*1G */
pr_debug("AQR105 speed 1G\n");
BDX_MDIO_WRITE(priv, 0x07, 0x10, 0x8001);
BDX_MDIO_WRITE(priv, 0x07, 0xC400, 0x8040);
BDX_MDIO_WRITE(priv, 0x07, 0x20, 0x1);
break;
case 100: /*100m */
pr_debug("AQR105 speed 100m\n");
BDX_MDIO_WRITE(priv, 0x07, 0x10, 0x101);
BDX_MDIO_WRITE(priv, 0x07, 0xC400, 0x40);
BDX_MDIO_WRITE(priv, 0x07, 0x20, 0x1);
break;
default:
pr_err("does not support speed %u\n", speed);
rVal = -1;
break;
}
}
if (rVal == 0) {
/* restart autoneg */
val = (1 << 12) | (1 << 9) | (1 << 13);
BDX_MDIO_WRITE(priv, 0x07, 0x0, val);
}
return rVal;
}
__init int AQR105_mdio_reset(struct bdx_priv *priv, int port,
unsigned short phy)
{
u16 val, val1, val2;
int rVal = 0;
u32 i;
u8 *image = AQR105_phy_firmware;
u32 primaryHeaderPtr;
u32 primaryIramPtr, primaryIramSize, primaryDramPtr, primaryDramSize;
u32 byteSize, dWordSize, bytePointer;
u16 msw = 0, lsw = 0, sd, sv;
BDX_MDIO_WRITE(priv, 0x1E, 0, 1 << 0xF); /* Soft Reset */
msleep(10);
BDX_MDIO_WRITE(priv, 0x1E, 0, 0);
BDX_MDIO_WRITE(priv, 0x1E, 0xC001, 1 << 0xF); /* uP Reset */
msleep(10);
BDX_MDIO_WRITE(priv, 0x1E, 0xC001, 0);
msleep(1);
val1 = bdx_mdio_read(priv, r1, port, 0xC441);
/*Reset start */
BDX_MDIO_WRITE(priv, 4, 0xC440, 1); /*Reset XAUI SerDes */
for (i = 3; i--;) { /*Wait until XAUI Serdes reset done and clear */
val = bdx_mdio_read(priv, 4, port, 0xC440);
if (!val)
break;
msleep(1);
}
BDX_MDIO_WRITE(priv, 4, 0xC440, 0); /*clear Reset XAUI SerDes (probably needed) */
val = bdx_mdio_read(priv, 4, port, 0x0);
BDX_MDIO_WRITE(priv, 4, 0x0, 0xA040); /*Reset PHY XS core */
bdx_mdio_get(priv); /*Wait until MDIO transaction finished */
msleep(2);
BDX_MDIO_WRITE(priv, 4, 0x0, 0x2040); /*Reset PHY XS core */
for (i = 10; i--;) { /*Wait until PHy XS register read correctly */
val = bdx_mdio_read(priv, 4, port, 0x0);
if (!(val == 0xFFFF))
break;
msleep(1);
}
/*Reset End */
BDX_MDIO_WRITE(priv, r1, 0xC452, 1); /*NVR Daisy Chain Disable */
BDX_MDIO_WRITE(priv, r1, 0xC441, 0);
val = 0;
val |= 1; /*upRunStall */
val |= 1 << 6; /*upRunStallOverride */
BDX_MDIO_WRITE(priv, r1, 0xC001, val);
/*--- Read the segment addresses and sizes -----------------*/
primaryHeaderPtr = (((image[0x9] & 0x0F) << 8) | image[0x8]) << 12;
primaryIramPtr =
(image[primaryHeaderPtr + phyImageHeaderContentOffset + 0x4 + 2] <<
16) | (image[primaryHeaderPtr + phyImageHeaderContentOffset + 0x4 +
1] << 8) | image[primaryHeaderPtr +
phyImageHeaderContentOffset + 0x4];
primaryIramSize =
(image[primaryHeaderPtr + phyImageHeaderContentOffset + 0x7 + 2] <<
16) | (image[primaryHeaderPtr + phyImageHeaderContentOffset + 0x7 +
1] << 8) | image[primaryHeaderPtr +
phyImageHeaderContentOffset + 0x7];
primaryDramPtr =
(image[primaryHeaderPtr + phyImageHeaderContentOffset + 0xA + 2] <<
16) | (image[primaryHeaderPtr + phyImageHeaderContentOffset + 0xA +
1] << 8) | image[primaryHeaderPtr +
phyImageHeaderContentOffset + 0xA];
primaryDramSize =
(image[primaryHeaderPtr + phyImageHeaderContentOffset + 0xD + 2] <<
16) | (image[primaryHeaderPtr + phyImageHeaderContentOffset + 0xD +
1] << 8) | image[primaryHeaderPtr +
phyImageHeaderContentOffset + 0xD];
if (1 /*AQ_DEVICE_HHD == port->device */ ) {
primaryIramPtr += primaryHeaderPtr;
primaryDramPtr += primaryHeaderPtr;
}
#ifdef AQ_VERBOSE
pr_info
("Segment Addresses and Sizes as read from the PHY ROM image header:\n\n");
pr_info("Primary Iram Address: 0x%x\n", primaryIramPtr);
pr_info("Primary Iram Size: 0x%x\n", primaryIramSize);
pr_info("Primary Dram Address: 0x%x\n", primaryDramPtr);
pr_info("Primary Dram Size: 0x%x\n\n", primaryDramSize);
#endif
/*-- Load IRAM and DRAM ----------------------*/
/* clear the mailbox CRC */
BDX_MDIO_WRITE(priv, r1, 0x200, 0x1000); /*resetUpMailboxCrc */
BDX_MDIO_WRITE(priv, r1, 0x200, 0x0000); /*resetUpMailboxCrc */
/* load the IRAM */
#ifdef AQ_VERBOSE
pr_info("Loading IRAM:\n");
#endif
/*#define AQ_IRAM_BASE_ADDRESS 0x40000000 */
BDX_MDIO_WRITE(priv, r1, 0x202, 0x4000); /*msw */
BDX_MDIO_WRITE(priv, r1, 0x203, 0x0000); /*lsw */
/* set block size so that there are from 0-3 bytes remaining */
byteSize = primaryIramSize;
dWordSize = byteSize >> 2;
bytePointer = primaryIramPtr;
for (i = 0; i < dWordSize; i++) {
/* write 4 bytes of data */
lsw = (image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
msw = (image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
BDX_MDIO_WRITE(priv, r1, 0x204, msw);
BDX_MDIO_WRITE(priv, r1, 0x205, lsw);
val = bdx_mdio_read(priv, r1, port, 0x200);
if (val & (1 << 8)) {
pr_err("Mailbox Busy !!!\n");
return -1;
}
BDX_MDIO_WRITE(priv, r1, 0x200, mailboxWrite);
}
/* Note: this final write right-justifies non-dWord data in the final dWord */
if (byteSize & 0x3) {
switch (byteSize & 0x3) {
case 0x1:
/* write 1 byte of data */
lsw = image[bytePointer++];
msw = 0x0000;
break;
case 0x2:
/* write 2 bytes of data */
lsw =
(image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
msw = 0x0000;
break;
case 0x3:
/* write 3 bytes of data */
lsw =
(image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
msw = image[bytePointer++];
break;
}
BDX_MDIO_WRITE(priv, r1, 0x204, msw);
BDX_MDIO_WRITE(priv, r1, 0x205, lsw);
BDX_MDIO_WRITE(priv, r1, 0x200, mailboxWrite);
}
/* load the DRAM */
#ifdef AQ_VERBOSE
pr_info("Last IRAM data lsw=0x%x msw=0x%x \n", lsw, msw);
msw = bdx_mdio_read(priv, r1, port, 0x202);
lsw = bdx_mdio_read(priv, r1, port, 0x203);
pr_info("Last+1 IRAM address lsw=0x%x msw=0x%x \n", lsw, msw);
pr_info("Loading DRAM:\n");
#endif
/*#define AQ_DRAM_BASE_ADDRESS 0x3FFE0000 */
BDX_MDIO_WRITE(priv, r1, 0x202, 0x3FFE); /*msw */
BDX_MDIO_WRITE(priv, r1, 0x203, 0x0000); /*lsw */
/* set block size so that there are from 0-3 bytes remaining */
byteSize = primaryDramSize;
dWordSize = byteSize >> 2;
bytePointer = primaryDramPtr;
for (i = 0; i < dWordSize; i++) {
/* write 4 bytes of data */
lsw = (image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
msw = (image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
BDX_MDIO_WRITE(priv, r1, 0x204, msw);
BDX_MDIO_WRITE(priv, r1, 0x205, lsw);
BDX_MDIO_WRITE(priv, r1, 0x200, mailboxWrite);
}
/* Note: this final write right-justifies non-dWord data in the final dWord */
if (byteSize & 0x3) {
switch (byteSize & 0x3) {
case 0x1:
/* write 1 byte of data */
lsw = image[bytePointer++];
msw = 0x0000;
break;
case 0x2:
/* write 2 bytes of data */
lsw =
(image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
msw = 0x0000;
break;
case 0x3:
/* write 3 bytes of data */
lsw =
(image[bytePointer + 1] << 8) | image[bytePointer];
bytePointer += 2;
msw = image[bytePointer++];
break;
}
BDX_MDIO_WRITE(priv, r1, 0x204, msw);
BDX_MDIO_WRITE(priv, r1, 0x205, lsw);
BDX_MDIO_WRITE(priv, r1, 0x200, mailboxWrite);
}
#ifdef AQ_VERBOSE
pr_info("Last DRAM data lsw=0x%x msw=0x%x \n", lsw, msw);
msw = bdx_mdio_read(priv, r1, port, 0x202);
lsw = bdx_mdio_read(priv, r1, port, 0x203);
pr_info("Last+1 DRAM address lsw=0x%x msw=0x%x \n", lsw, msw);
#endif
/*-- Clear any resets -----------------------------------*/
BDX_MDIO_WRITE(priv, r1, 0, 0);
/*-- Release the uP --------------------------------------*/
val = 1; /*upRunStall */
val |= 1 << 6; /*upRunStallOverride */
BDX_MDIO_WRITE(priv, r1, 0xC001, val);
val |= 1 << 15; /*upReset */
BDX_MDIO_WRITE(priv, r1, 0xC001, val);
/* Need to wait at least 100us. */
msleep(200);
BDX_MDIO_WRITE(priv, r1, 0xC001, 0x40);
for (i = 100; i--;) {
msleep(20);
val = bdx_mdio_read(priv, r1, port, 0xCC00);
if (val & (1 << 6))
break;
};
/*if(!(val&(1<<6))){ // Reset timeout
pr_err("AQR105 FW reset timeout 1E.CC00=%x\n",val);
}; */
val = bdx_mdio_read(priv, r1, port, 0x20);
val2 = bdx_mdio_read(priv, r1, port, 0xC885);
val1 = val >> 8;
val &= 0xFF;
val2 &= 0xFF;
pr_info("AQR105 FW ver: %x.%x.%x\n", val1, val, val2);
/*Enable AQRate speeds */
msleep(20);
BDX_MDIO_WRITE(priv, 0x07, 0x10, 0x9101);
BDX_MDIO_WRITE(priv, 0x07, 0xC400, 0x9C5A);
BDX_MDIO_WRITE(priv, 0x07, 0x20, 0x1001);
/* restart autoneg */
val = (1 << 12) | (1 << 9) | (1 << 13);
BDX_MDIO_WRITE(priv, 0x07, 0x0, val);
#if 1 /* led setup */
/*
0xC430=f // Act led (right) black-no link or no act; green-link blink on act
0xC431=80 // Speed led Amber -on on 10G
Tehuti settings
0xC432=C040 // Speed led Green -on on 5G/2.5G/1G (black on 100M)
D-link settings
0xC432=C060 // Speed led Green -on on 5G/2.5/1G/100M
*/
{
/*ACT Led - off on no link */
sv = priv->subsystem_vendor;
sd = priv->subsystem_device;
if ((sv == 0x105A) && (sd == 0x7203)) { /* Promise */
BDX_MDIO_WRITE(priv, r1, 0xC430, 0xc0ef);
BDX_MDIO_WRITE(priv, r1, 0xC431, 0xC080);
BDX_MDIO_WRITE(priv, r1, 0xC432, 0xC040);
} else {
BDX_MDIO_WRITE(priv, r1, 0xC430, 0x00);
BDX_MDIO_WRITE(priv, r1, 0xC431, 0x80);
if ((sv == 0x1186) && (sd == 0x2900)) { /*isDlink */
BDX_MDIO_WRITE(priv, r1, 0xC432, 0xC060);
} else {
BDX_MDIO_WRITE(priv, r1, 0xC432, 0xC040);
}
}
}
#endif
return rVal;
}
static int AQR105_get_link_speed(struct bdx_priv *priv)
{
unsigned short val; /*, leds; */
int link = 0;
u16 ActLnk_MSK = 0;
u16 sd, sv;
val = bdx_mdio_read(priv, 7, priv->phy_mdio_port, 0xC810);
val = bdx_mdio_read(priv, 7, priv->phy_mdio_port, 0xC810);
val = val >> 9;
val &= 0x1f;
if (val == 4) { /* Link up */
val = bdx_mdio_read(priv, 7, priv->phy_mdio_port, 0xC800);
val = bdx_mdio_read(priv, 7, priv->phy_mdio_port, 0xC800);
val &= 0xF;
if ((val >> 1) > 0) {
sv = priv->subsystem_vendor;
sd = priv->subsystem_device;
if (!((sv == 0x1186) && (sd == 0x2900))) { /*isNotDlink */
ActLnk_MSK = 0xC0E0;
}
bdx_mdio_write(priv, 0x1E, priv->phy_mdio_port, 0xC430,
0x0f | ActLnk_MSK);
}
switch (val >> 1) {
case 5: /*SPEED_RES_5GIG */
link = SPEED_5000;
pr_debug("AQR105 5G link detected\n");
break;
case 4: /*SPEED_RES_2.5GIG */
link = SPEED_2500;
pr_debug("AQR105 2.5G link detected\n");
break;
case 3: /*SPEED_RES_10GIG */
link = SPEED_10000;
pr_debug("AQR105 10G link detected\n");
break;
case 2: /* SPEED_RES_1GIG */
link = SPEED_1000;
pr_debug("AQR105 1G link detected\n");
break;
case 1: /* SPEED_RES_100M */
link = SPEED_100;
pr_debug("AQR105 100M %s link detected\n",
(val & 1) ? "" : "Half Duplex");
break;
case 0: /* SPEED_RES_10M */
link = 0;
bdx_mdio_write(priv, 0x1E, priv->phy_mdio_port, 0xC430,
0x0);
pr_debug("AQR105 10M %s link detected. Not Supported\n",
(val & 1) ? "" : "Half Duplex");
break;
}
priv->errmsg_count = 0;
} else {
bdx_mdio_write(priv, 0x1E, priv->phy_mdio_port, 0xC430, 0x0);
if (++priv->errmsg_count < MAX_ERRMSGS) {
pr_debug("AQR105 link down.\n");
}
}
return link;
}
u32 AQR105_link_changed(struct bdx_priv *priv)
{
u32 link, speed;
speed = AQR105_get_link_speed(priv);
pr_debug("AQR105_link_changed speed=%u priv->link_speed=%u\n", speed,
priv->link_speed);
if (speed != (u32) priv->link_speed) {
switch (speed) {
case SPEED_10000:
pr_debug("AQR105 10G link detected\n");
break;
case SPEED_5000:
pr_debug("AQR105 5G link detected\n");
break;
case SPEED_2500:
pr_debug("AQR105 2.5G link detected\n");
break;
case SPEED_1000:
pr_debug("AQR105 1G link detected\n");
break;
case SPEED_100:
pr_debug("AQR105 100M link detected\n");
break;
case SPEED_10:
pr_debug("AQR105 10M link detected\n");
break;
default:
pr_debug("AQR105 link down.\n");
break;
}
bdx_speed_changed(priv, speed);
}
link = 0;
if ((!speed) || (!(link = (READ_REG(priv, regMAC_LNK_STAT) & MAC_LINK_STAT)))) { /* // XAUI link */
u32 timeout;
if (speed) {
timeout = 1000000; /* 1/5 sec */
if (priv->link_loop_cnt++ > LINK_LOOP_MAX) {
bdx_speed_changed(priv, 0);
priv->link_loop_cnt = 0;
pr_debug
("AQR105 trying to recover link after %d tries\n",
LINK_LOOP_MAX);
}
} else {
timeout = 5000000; /* 1 sec */
}
pr_debug("AQR105 link = 0x%x speed = 0x%x setting %d timer\n",
link, speed, timeout);
WRITE_REG(priv, 0x5150, timeout);
}
return link;
}
void AQR105_leds(struct bdx_priv *priv, enum PHY_LEDS_OP op)
{
u16 dev = 0x1e, led = 0xC430, led_off = 0, led_on = (1 << 8);
switch (op) {
case PHY_LEDS_SAVE:
priv->phy_ops.leds[0] =
bdx_mdio_read(priv, dev, priv->phy_mdio_port, led);
bdx_mdio_write(priv, dev, priv->phy_mdio_port, led, led_off);
break;
case PHY_LEDS_RESTORE:
bdx_mdio_write(priv, dev, priv->phy_mdio_port, led,
priv->phy_ops.leds[0]);
break;
case PHY_LEDS_ON:
bdx_mdio_write(priv, dev, priv->phy_mdio_port, led, led_on);
break;
case PHY_LEDS_OFF:
bdx_mdio_write(priv, dev, priv->phy_mdio_port, led, led_off);
break;
default:
pr_debug("AQR105_leds() unknown op 0x%x\n", op);
break;
}
}
__init enum PHY_TYPE AQR105_register(struct bdx_priv *priv)
{
priv->isr_mask =
IR_RX_FREE_0 | IR_LNKCHG0 | IR_LNKCHG1 | IR_PSE | IR_TMR0 |
IR_RX_DESC_0 | IR_TX_FREE_0;
priv->phy_ops.mdio_reset = AQR105_mdio_reset;
priv->phy_ops.link_changed = AQR105_link_changed;
priv->phy_ops.ledset = AQR105_leds;
priv->phy_ops.mdio_speed = MDIO_SPEED_6MHZ;
AQR105_register_settings(priv);
return PHY_TYPE_AQR105;
}