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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u-boot/drivers/net/npe/IxEthAccMii.c

411 lines
10 KiB

/**
* @file IxEthAccMii.c
*
* @author Intel Corporation
* @date
*
* @brief MII control functions
*
* Design Notes:
*
* IXP400 SW Release version 2.0
*
* -- Copyright Notice --
*
* @par
* Copyright 2001-2005, Intel Corporation.
* All rights reserved.
*
* @par
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. Neither the name of the Intel Corporation nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific prior written permission.
*
* @par
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER OR CONTRIBUTORS BE LIABLE
* FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
* OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
* LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
* OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
* SUCH DAMAGE.
*
* @par
* -- End of Copyright Notice --
*/
#include "IxOsal.h"
#include "IxEthAcc.h"
#include "IxEthAcc_p.h"
#include "IxEthAccMac_p.h"
#include "IxEthAccMii_p.h"
PRIVATE UINT32 miiBaseAddressVirt;
PRIVATE IxOsalMutex miiAccessLock;
PUBLIC UINT32 ixEthAccMiiRetryCount = IX_ETH_ACC_MII_TIMEOUT_10TH_SECS;
PUBLIC UINT32 ixEthAccMiiAccessTimeout = IX_ETH_ACC_MII_10TH_SEC_IN_MILLIS;
/* -----------------------------------
* private function prototypes
*/
PRIVATE void
ixEthAccMdioCmdWrite(UINT32 mdioCommand);
PRIVATE void
ixEthAccMdioCmdRead(UINT32 *data);
PRIVATE void
ixEthAccMdioStatusRead(UINT32 *data);
PRIVATE void
ixEthAccMdioCmdWrite(UINT32 mdioCommand)
{
REG_WRITE(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_1,
mdioCommand & 0xff);
REG_WRITE(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_2,
(mdioCommand >> 8) & 0xff);
REG_WRITE(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_3,
(mdioCommand >> 16) & 0xff);
REG_WRITE(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_4,
(mdioCommand >> 24) & 0xff);
}
PRIVATE void
ixEthAccMdioCmdRead(UINT32 *data)
{
UINT32 regval;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_1,
regval);
*data = regval & 0xff;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_2,
regval);
*data |= (regval & 0xff) << 8;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_3,
regval);
*data |= (regval & 0xff) << 16;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_CMD_4,
regval);
*data |= (regval & 0xff) << 24;
}
PRIVATE void
ixEthAccMdioStatusRead(UINT32 *data)
{
UINT32 regval;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_STS_1,
regval);
*data = regval & 0xff;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_STS_2,
regval);
*data |= (regval & 0xff) << 8;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_STS_3,
regval);
*data |= (regval & 0xff) << 16;
REG_READ(miiBaseAddressVirt,
IX_ETH_ACC_MAC_MDIO_STS_4,
regval);
*data |= (regval & 0xff) << 24;
}
/********************************************************************
* ixEthAccMiiInit
*/
IxEthAccStatus
ixEthAccMiiInit()
{
if(ixOsalMutexInit(&miiAccessLock)!= IX_SUCCESS)
{
return IX_ETH_ACC_FAIL;
}
miiBaseAddressVirt = (UINT32) IX_OSAL_MEM_MAP(IX_ETH_ACC_MAC_0_BASE, IX_OSAL_IXP400_ETHA_MAP_SIZE);
if (miiBaseAddressVirt == 0)
{
ixOsalLog(IX_OSAL_LOG_LVL_FATAL,
IX_OSAL_LOG_DEV_STDOUT,
"EthAcc: Could not map MII I/O mapped memory\n",
0, 0, 0, 0, 0, 0);
return IX_ETH_ACC_FAIL;
}
return IX_ETH_ACC_SUCCESS;
}
void
ixEthAccMiiUnload(void)
{
IX_OSAL_MEM_UNMAP(miiBaseAddressVirt);
miiBaseAddressVirt = 0;
}
PUBLIC IxEthAccStatus
ixEthAccMiiAccessTimeoutSet(UINT32 timeout, UINT32 retryCount)
{
if (retryCount < 1) return IX_ETH_ACC_FAIL;
ixEthAccMiiRetryCount = retryCount;
ixEthAccMiiAccessTimeout = timeout;
return IX_ETH_ACC_SUCCESS;
}
/*********************************************************************
* ixEthAccMiiReadRtn - read a 16 bit value from a PHY
*/
IxEthAccStatus
ixEthAccMiiReadRtn (UINT8 phyAddr,
UINT8 phyReg,
UINT16 *value)
{
UINT32 mdioCommand;
UINT32 regval;
UINT32 miiTimeout;
if (!IX_ETH_ACC_IS_SERVICE_INITIALIZED())
{
return (IX_ETH_ACC_FAIL);
}
if ((phyAddr >= IXP425_ETH_ACC_MII_MAX_ADDR)
|| (phyReg >= IXP425_ETH_ACC_MII_MAX_REG))
{
return (IX_ETH_ACC_FAIL);
}
if (value == NULL)
{
return (IX_ETH_ACC_FAIL);
}
ixOsalMutexLock(&miiAccessLock, IX_OSAL_WAIT_FOREVER);
mdioCommand = phyReg << IX_ETH_ACC_MII_REG_SHL
| phyAddr << IX_ETH_ACC_MII_ADDR_SHL;
mdioCommand |= IX_ETH_ACC_MII_GO;
ixEthAccMdioCmdWrite(mdioCommand);
miiTimeout = ixEthAccMiiRetryCount;
while(miiTimeout)
{
ixEthAccMdioCmdRead(&regval);
if((regval & IX_ETH_ACC_MII_GO) == 0x0)
{
break;
}
/* Sleep for a while */
ixOsalSleep(ixEthAccMiiAccessTimeout);
miiTimeout--;
}
if(miiTimeout == 0)
{
ixOsalMutexUnlock(&miiAccessLock);
*value = 0xffff;
return IX_ETH_ACC_FAIL;
}
ixEthAccMdioStatusRead(&regval);
if(regval & IX_ETH_ACC_MII_READ_FAIL)
{
ixOsalMutexUnlock(&miiAccessLock);
*value = 0xffff;
return IX_ETH_ACC_FAIL;
}
*value = regval & 0xffff;
ixOsalMutexUnlock(&miiAccessLock);
return IX_ETH_ACC_SUCCESS;
}
/*********************************************************************
* ixEthAccMiiWriteRtn - write a 16 bit value to a PHY
*/
IxEthAccStatus
ixEthAccMiiWriteRtn (UINT8 phyAddr,
UINT8 phyReg,
UINT16 value)
{
UINT32 mdioCommand;
UINT32 regval;
UINT16 readVal;
UINT32 miiTimeout;
if (!IX_ETH_ACC_IS_SERVICE_INITIALIZED())
{
return (IX_ETH_ACC_FAIL);
}
if ((phyAddr >= IXP425_ETH_ACC_MII_MAX_ADDR)
|| (phyReg >= IXP425_ETH_ACC_MII_MAX_REG))
{
return (IX_ETH_ACC_FAIL);
}
/* ensure that a PHY is present at this address */
if(ixEthAccMiiReadRtn(phyAddr,
IX_ETH_ACC_MII_CTRL_REG,
&readVal) != IX_ETH_ACC_SUCCESS)
{
return (IX_ETH_ACC_FAIL);
}
ixOsalMutexLock(&miiAccessLock, IX_OSAL_WAIT_FOREVER);
mdioCommand = phyReg << IX_ETH_ACC_MII_REG_SHL
| phyAddr << IX_ETH_ACC_MII_ADDR_SHL ;
mdioCommand |= IX_ETH_ACC_MII_GO | IX_ETH_ACC_MII_WRITE | value;
ixEthAccMdioCmdWrite(mdioCommand);
miiTimeout = ixEthAccMiiRetryCount;
while(miiTimeout)
{
ixEthAccMdioCmdRead(&regval);
/*The "GO" bit is reset to 0 when the write completes*/
if((regval & IX_ETH_ACC_MII_GO) == 0x0)
{
break;
}
/* Sleep for a while */
ixOsalSleep(ixEthAccMiiAccessTimeout);
miiTimeout--;
}
ixOsalMutexUnlock(&miiAccessLock);
if(miiTimeout == 0)
{
return IX_ETH_ACC_FAIL;
}
return IX_ETH_ACC_SUCCESS;
}
/*****************************************************************
*
* Phy query functions
*
*/
IxEthAccStatus
ixEthAccMiiStatsShow (UINT32 phyAddr)
{
UINT16 regval;
printf("Regisers on PHY at address 0x%x\n", phyAddr);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_CTRL_REG, &regval);
printf(" Control Register : 0x%4.4x\n", regval);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_STAT_REG, &regval);
printf(" Status Register : 0x%4.4x\n", regval);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_PHY_ID1_REG, &regval);
printf(" PHY ID1 Register : 0x%4.4x\n", regval);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_PHY_ID2_REG, &regval);
printf(" PHY ID2 Register : 0x%4.4x\n", regval);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_AN_ADS_REG, &regval);
printf(" Auto Neg ADS Register : 0x%4.4x\n", regval);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_AN_PRTN_REG, &regval);
printf(" Auto Neg Partner Ability Register : 0x%4.4x\n", regval);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_AN_EXP_REG, &regval);
printf(" Auto Neg Expansion Register : 0x%4.4x\n", regval);
ixEthAccMiiReadRtn(phyAddr, IX_ETH_ACC_MII_AN_NEXT_REG, &regval);
printf(" Auto Neg Next Register : 0x%4.4x\n", regval);
return IX_ETH_ACC_SUCCESS;
}
/*****************************************************************
*
* Interface query functions
*
*/
IxEthAccStatus
ixEthAccMdioShow (void)
{
UINT32 regval;
if (!IX_ETH_ACC_IS_SERVICE_INITIALIZED())
{
return (IX_ETH_ACC_FAIL);
}
ixOsalMutexLock(&miiAccessLock, IX_OSAL_WAIT_FOREVER);
ixEthAccMdioCmdRead(&regval);
ixOsalMutexUnlock(&miiAccessLock);
printf("MDIO command register\n");
printf(" Go bit : 0x%x\n", (regval & BIT(31)) >> 31);
printf(" MDIO Write : 0x%x\n", (regval & BIT(26)) >> 26);
printf(" PHY address : 0x%x\n", (regval >> 21) & 0x1f);
printf(" Reg address : 0x%x\n", (regval >> 16) & 0x1f);
ixOsalMutexLock(&miiAccessLock, IX_OSAL_WAIT_FOREVER);
ixEthAccMdioStatusRead(&regval);
ixOsalMutexUnlock(&miiAccessLock);
printf("MDIO status register\n");
printf(" Read OK : 0x%x\n", (regval & BIT(31)) >> 31);
printf(" Read Data : 0x%x\n", (regval >> 16) & 0xff);
return IX_ETH_ACC_SUCCESS;
}