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gfiber / kernel / prism / b039f01b229423950d516e553f5f4a69e29ac5cd / . / arch / arm / mach-feroceon-kw2 / kw2_family / boardEnv / mvBoardEnvSpec.c
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/*******************************************************************************
Copyright (C) Marvell International Ltd. and its affiliates
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********************************************************************************
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are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
* 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.
* Neither the name of Marvell nor the names of its contributors may be
used to endorse or promote products derived from this software without
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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
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(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*******************************************************************************/
#include "mvCommon.h"
#include "mvBoardEnvLib.h"
#include "mvBoardEnvSpec.h"
#include "gpp/mvGpp.h"
#include "twsi/mvTwsi.h"
/***************************************************************************
** RD-88F6510-SFU
****************************************************************************/
#define RD_88F6510_BOARD_NAND_READ_PARAMS 0x000C0282
#define RD_88F6510_BOARD_NAND_WRITE_PARAMS 0x00010305
/* NAND care support for small page chips */
#define RD_88F6510_BOARD_NAND_CONTROL 0x01c00543
MV_BOARD_TWSI_INFO rd88f6510InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO rd88f6510InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_1000M, 0x0}
,
{BOARD_MAC_SPEED_1000M, 0x9},
{N_A,N_A}
/* {BOARD_MAC_SPEED_AUTO, 0x9} */
};
MV_BOARD_MPP_TYPE_INFO rd88f6510InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_TDM_2CH,
.ethSataComplexOpt = ESC_OPT_MAC0_2_SW_P4 | ESC_OPT_MAC1_2_SW_P5 | ESC_OPT_FE3PHY | ESC_OPT_GEPHY_SW_P0,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO rd88f6510InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_SYS_LED, 44},
{BOARD_GPP_PON_LED, 45},
{BOARD_GPP_PEX_RESET, 67},
{BOARD_GPP_PON_XVR_TX, 68}
};
MV_DEV_CS_INFO rd88f6510InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#if defined(MTD_NAND_LNC)
{NAND_NOR_CS, N_A, BOARD_DEV_NAND_FLASH, 8}, /* NAND DEV */
#endif
#if defined(MV_SPI)
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MTD_NAND_LNC) && !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO rd88f6510InfoBoardMppConfigValue[] = {
{{
RD_88F6510_MPP0_7,
RD_88F6510_MPP8_15,
RD_88F6510_MPP16_23,
RD_88F6510_MPP24_31,
RD_88F6510_MPP32_39,
RD_88F6510_MPP40_47,
RD_88F6510_MPP48_55,
RD_88F6510_MPP56_63,
RD_88F6510_MPP64_71,
RD_88F6510_MPP72_79,
RD_88F6510_MPP80_87,
RD_88F6510_MPP88_88
}
}
};
MV_BOARD_SWITCH_INFO rd88f6510InfoBoardSwitchValue[] = {
{
.switchIrq = 29, /* set to -1 for timer operation */
.switchPort = {1, 2, 3, 0, -1, -1, -1, -1},
.cpuPort = 4,
.connectedPort = {4, 5, -1},
.smiScanMode = 1,
.quadPhyAddr = 0,
.forceLinkMask = 0x0
}
};
MV_BOARD_TDM_INFO rd88f6510Tdm880[] = { {1} };
MV_BOARD_TDM_SPI_INFO rd88f6510TdmSpiInfo[] = { {0} };
MV_BOARD_INFO rd88f6510Info = {
.boardName = "RD-88F6510-SFU",
.numBoardMppTypeValue = MV_ARRAY_SIZE(rd88f6510InfoBoardMppTypeInfo),
.pBoardMppTypeValue = rd88f6510InfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(rd88f6510InfoBoardMppConfigValue),
.pBoardMppConfigValue = rd88f6510InfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(rd88f6510InfoBoardDeCsInfo),
.pDevCsInfo = rd88f6510InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(rd88f6510InfoBoardTwsiDev),
.pBoardTwsiDev = rd88f6510InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(rd88f6510InfoBoardMacInfo),
.pBoardMacInfo = rd88f6510InfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(rd88f6510InfoBoardGppInfo),
.pBoardGppInfo = rd88f6510InfoBoardGppInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = RD_88F6510_GPP_OUT_ENA_LOW,
.gppOutEnValMid = RD_88F6510_GPP_OUT_ENA_MID,
.gppOutEnValHigh = RD_88F6510_GPP_OUT_ENA_HIGH,
.gppOutValLow = RD_88F6510_GPP_OUT_VAL_LOW,
.gppOutValMid = RD_88F6510_GPP_OUT_VAL_MID,
.gppOutValHigh = RD_88F6510_GPP_OUT_VAL_HIGH,
.gppPolarityValLow = RD_88F6510_GPP_POL_LOW,
.gppPolarityValMid = RD_88F6510_GPP_POL_MID,
.gppPolarityValHigh = RD_88F6510_GPP_POL_HIGH,
/* External Switch Configuration */
.pSwitchInfo = rd88f6510InfoBoardSwitchValue,
.switchInfoNum = MV_ARRAY_SIZE(rd88f6510InfoBoardSwitchValue),
/* PON configuration. */
.ponConfigValue = BOARD_PON_AUTO,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {1}
,
.pBoardTdmInt2CsInfo = {rd88f6510Tdm880,
}
,
.boardTdmInfoIndex = 0,
.deepIdlePwrUpDelay = 0x80000,
/* NAND init params */
.nandFlashParamsValid = MV_TRUE,
.nandFlashReadParams = RD_88F6510_BOARD_NAND_READ_PARAMS,
.nandFlashWriteParams = RD_88F6510_BOARD_NAND_WRITE_PARAMS,
.nandFlashControl = RD_88F6510_BOARD_NAND_CONTROL,
.pBoardTdmSpiInfo = rd88f6510TdmSpiInfo,
/* Disable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
/***************************************************************************
** RD-88F6560-GW
****************************************************************************/
#define RD_88F6560_BOARD_NAND_READ_PARAMS 0x000C0282
#define RD_88F6560_BOARD_NAND_WRITE_PARAMS 0x00010305
/* NAND care support for small page chips */
#define RD_88F6560_BOARD_NAND_CONTROL 0x01c00543
MV_BOARD_TWSI_INFO rd88f6560InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO rd88f6560InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_1000M, 0x8}
,
{BOARD_MAC_SPEED_AUTO, 0x9},
{N_A,N_A}
};
MV_BOARD_MPP_TYPE_INFO rd88f6560InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_TDM_2CH,
.ethSataComplexOpt = ESC_OPT_QSGMII | ESC_OPT_GEPHY_MAC1 | ESC_OPT_MAC0_2_SW_P4,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO rd88f6560InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_SDIO_WP, 31},
{BOARD_GPP_HDD_POWER, 37},
{BOARD_GPP_PON_XVR_TX, 37},
{BOARD_GPP_FAN_POWER, 40},
{BOARD_GPP_WPS_BUTTON, 47},
{BOARD_GPP_SDIO_DETECT, 48},
{BOARD_GPP_PON_LED, 49},
{BOARD_GPP_USB_VBUS, 58},
{BOARD_GPP_USB_OC, 59},
{BOARD_GPP_CONF, 60},
{BOARD_GPP_CONF, 61},
{BOARD_GPP_CONF, 62},
{BOARD_GPP_SYS_LED, 68},
{BOARD_GPP_PEX_RESET, 77}
};
MV_DEV_CS_INFO rd88f6560InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#if defined(MTD_NAND_LNC)
{NAND_NOR_CS, N_A, BOARD_DEV_NAND_FLASH, 8}, /* NAND DEV */
#endif
#if defined(MV_SPI)
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MTD_NAND_LNC) && !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO rd88f6560InfoBoardMppConfigValue[] = {
{{
RD_88F6560_MPP0_7,
RD_88F6560_MPP8_15,
RD_88F6560_MPP16_23,
RD_88F6560_MPP24_31,
RD_88F6560_MPP32_39,
RD_88F6560_MPP40_47,
RD_88F6560_MPP48_55,
RD_88F6560_MPP56_63,
RD_88F6560_MPP64_71,
RD_88F6560_MPP72_79,
RD_88F6560_MPP80_87,
RD_88F6560_MPP88_88
}
}
};
MV_BOARD_SWITCH_INFO rd88f6560InfoBoardSwitchValue[] = {
{
.switchIrq = 29, /* set to -1 for timer operation */
.switchPort = {1, 2, 3, 0, -1, -1, -1, -1},
.cpuPort = 4,
.connectedPort = {4, -1, -1},
.smiScanMode = 2,
.quadPhyAddr = 0,
.forceLinkMask = 0x0
}
};
MV_U8 rd88f6560LedGppPin[] = { 68 };
MV_BOARD_TDM_INFO rd88f6560Tdm880[] = { {0}, {1} };
MV_BOARD_TDM_SPI_INFO rd88f6560TdmSpiInfo[] = { {1} };
MV_BOARD_SPEC_INIT rd88f6560BoardSpecInit[] = {
{
.reg = PMU_POWER_IF_POLARITY_REG,
.mask = (BIT1),
.val = 0
},
{
.reg = TBL_TERM,
.val = TBL_TERM
}
};
MV_BOARD_INFO rd88f6560Info = {
.boardName = "RD-88F6560-GW",
.numBoardMppTypeValue = MV_ARRAY_SIZE(rd88f6560InfoBoardMppTypeInfo),
.pBoardMppTypeValue = rd88f6560InfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(rd88f6560InfoBoardMppConfigValue),
.pBoardMppConfigValue = rd88f6560InfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(rd88f6560InfoBoardDeCsInfo),
.pDevCsInfo = rd88f6560InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(rd88f6560InfoBoardTwsiDev),
.pBoardTwsiDev = rd88f6560InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(rd88f6560InfoBoardMacInfo),
.pBoardMacInfo = rd88f6560InfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(rd88f6560InfoBoardGppInfo),
.pBoardGppInfo = rd88f6560InfoBoardGppInfo,
.activeLedsNumber = MV_ARRAY_SIZE(rd88f6560LedGppPin),
.pLedGppPin = rd88f6560LedGppPin,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = RD_88F6560_GPP_OUT_ENA_LOW,
.gppOutEnValMid = RD_88F6560_GPP_OUT_ENA_MID,
.gppOutEnValHigh = RD_88F6560_GPP_OUT_ENA_HIGH,
.gppOutValLow = RD_88F6560_GPP_OUT_VAL_LOW,
.gppOutValMid = RD_88F6560_GPP_OUT_VAL_MID,
.gppOutValHigh = RD_88F6560_GPP_OUT_VAL_HIGH,
.gppPolarityValLow = RD_88F6560_GPP_POL_LOW,
.gppPolarityValMid = RD_88F6560_GPP_POL_MID,
.gppPolarityValHigh = RD_88F6560_GPP_POL_HIGH,
/* External Switch Configuration */
.pSwitchInfo = rd88f6560InfoBoardSwitchValue,
.switchInfoNum = MV_ARRAY_SIZE(rd88f6560InfoBoardSwitchValue),
/* PON configuration. */
.ponConfigValue = BOARD_GPON_CONFIG,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {2},
.pBoardTdmInt2CsInfo = { rd88f6560Tdm880 },
.boardTdmInfoIndex = 0,
.pBoardSpecInit = rd88f6560BoardSpecInit,
.deepIdlePwrUpDelay = 2400, /* 12 uS */
/* NAND init params */
.nandFlashParamsValid = MV_TRUE,
.nandFlashReadParams = RD_88F6560_BOARD_NAND_READ_PARAMS,
.nandFlashWriteParams = RD_88F6560_BOARD_NAND_WRITE_PARAMS,
.nandFlashControl = RD_88F6560_BOARD_NAND_CONTROL,
.pBoardTdmSpiInfo = rd88f6560TdmSpiInfo,
/* Disable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
/***************************************************************************
** RD-88F6530-MDU
****************************************************************************/
#define RD_88F6530_BOARD_NAND_READ_PARAMS 0x000C0282
#define RD_88F6530_BOARD_NAND_WRITE_PARAMS 0x00010305
#define RD_88F6530_BOARD_NAND_CONTROL 0x01c00543
MV_BOARD_TWSI_INFO rd88f6530InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO rd88f6530InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_1000M, 0x8}
, /* This connected to SGMII to xcat ,right now forced SGMII 1G */
{BOARD_MAC_SPEED_AUTO, 0x9},
{N_A,N_A}
};
MV_BOARD_MPP_TYPE_INFO rd88f6530InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_TDM_2CH,
.ethSataComplexOpt = ESC_OPT_SGMII | ESC_OPT_GEPHY_MAC1,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO rd88f6530InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
};
MV_DEV_CS_INFO rd88f6530InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#if defined(MTD_NAND_LNC)
{NAND_NOR_CS, N_A, BOARD_DEV_NAND_FLASH, 8}, /* NAND DEV */
#endif
#if defined(MV_SPI)
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MTD_NAND_LNC) && !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO rd88f6530InfoBoardMppConfigValue[] = {
{{
RD_88F6530_MPP0_7,
RD_88F6530_MPP8_15,
RD_88F6530_MPP16_23,
RD_88F6530_MPP24_31,
RD_88F6530_MPP32_39,
RD_88F6530_MPP40_47,
RD_88F6530_MPP48_55,
RD_88F6530_MPP56_63,
RD_88F6530_MPP64_69,
RD_88F6530_MPP72_79,
RD_88F6530_MPP80_87,
RD_88F6530_MPP88_88
}
}
};
MV_BOARD_TDM_INFO rd88f6530Tdm880[] = { {1}
};
MV_BOARD_TDM_SPI_INFO rd88f6530TdmSpiInfo[] = { {0} };
MV_BOARD_INFO rd88f6530Info = {
.boardName = "RD-88F6530-MDU",
.numBoardMppTypeValue = MV_ARRAY_SIZE(rd88f6530InfoBoardMppTypeInfo),
.pBoardMppTypeValue = rd88f6530InfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(rd88f6530InfoBoardMppConfigValue),
.pBoardMppConfigValue = rd88f6530InfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(rd88f6530InfoBoardDeCsInfo),
.pDevCsInfo = rd88f6530InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(rd88f6530InfoBoardTwsiDev),
.pBoardTwsiDev = rd88f6530InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(rd88f6530InfoBoardMacInfo),
.pBoardMacInfo = rd88f6530InfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(rd88f6530InfoBoardGppInfo),
.pBoardGppInfo = rd88f6530InfoBoardGppInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = RD_88F6530_GPP_OUT_ENA_LOW,
.gppOutEnValMid = RD_88F6530_GPP_OUT_ENA_MID,
.gppOutEnValHigh = RD_88F6530_GPP_OUT_ENA_HIGH,
.gppOutValLow = RD_88F6530_GPP_OUT_VAL_LOW,
.gppOutValMid = RD_88F6530_GPP_OUT_VAL_MID,
.gppOutValHigh = RD_88F6530_GPP_OUT_VAL_HIGH,
.gppPolarityValLow = RD_88F6530_GPP_POL_LOW,
.gppPolarityValMid = RD_88F6530_GPP_POL_MID,
.gppPolarityValHigh = RD_88F6530_GPP_POL_HIGH,
/* External Switch Configuration */
.pSwitchInfo = NULL,
.switchInfoNum = 0,
/* PON configuration. */
.ponConfigValue = BOARD_GPON_CONFIG,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {1}
,
.pBoardTdmInt2CsInfo = {rd88f6530Tdm880,
}
,
.boardTdmInfoIndex = 0,
.deepIdlePwrUpDelay = 0x80000,
/* NAND init params */
.nandFlashParamsValid = MV_TRUE,
.nandFlashReadParams = RD_88F6530_BOARD_NAND_READ_PARAMS,
.nandFlashWriteParams = RD_88F6530_BOARD_NAND_WRITE_PARAMS,
.nandFlashControl = RD_88F6530_BOARD_NAND_CONTROL,
.pBoardTdmSpiInfo = rd88f6530TdmSpiInfo,
/* Disable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
/***************************************************************************
** DB-88F6560-PCAC
****************************************************************************/
#define DB_88F6560_PCAC_BOARD_NAND_READ_PARAMS 0x000C0282
#define DB_88F6560_PCAC_BOARD_NAND_WRITE_PARAMS 0x00010305
/* NAND care support for small page chips */
#define DB_88F6560_PCAC_BOARD_NAND_CONTROL 0x01c00543
MV_BOARD_TWSI_INFO db88f6560PcacInfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO db88f6560PcacInfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_AUTO, 0x8},
{BOARD_MAC_SPEED_AUTO, 0x9},
{N_A,N_A}
};
MV_BOARD_MPP_TYPE_INFO db88f6560PcacInfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_OTHER,
.ethSataComplexOpt = ESC_OPT_GEPHY_MAC1,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO db88f6560PcacInfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_USB_VBUS, 58}
};
MV_DEV_CS_INFO db88f6560PcacInfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#if defined(MTD_NAND_LNC)
{NAND_NOR_CS, N_A, BOARD_DEV_NAND_FLASH, 8}, /* NAND DEV */
#endif
#if defined(MV_SPI)
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MTD_NAND_LNC) && !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO db88f6560PcacInfoBoardMppConfigValue[] = {
{ {
DB_88F6560_PCAC_MPP0_7,
DB_88F6560_PCAC_MPP8_15,
DB_88F6560_PCAC_MPP16_23,
DB_88F6560_PCAC_MPP24_31,
DB_88F6560_PCAC_MPP32_39,
DB_88F6560_PCAC_MPP40_47,
DB_88F6560_PCAC_MPP48_55,
DB_88F6560_PCAC_MPP56_63,
DB_88F6560_PCAC_MPP64_71,
DB_88F6560_PCAC_MPP72_79,
DB_88F6560_PCAC_MPP80_87,
DB_88F6560_PCAC_MPP88_88
} }
};
MV_U8 db88f6560PcacLedGppPin[] = { 68, 69, 70, 71};
MV_BOARD_TDM_SPI_INFO db88f6560PcacTdmSpiInfo[] = { {0} };
MV_BOARD_SPEC_INIT db88f6560PcacBoardSpecInit[] = {
{
.reg = TBL_TERM,
.val = TBL_TERM
}
};
MV_BOARD_INFO db88f6560PCACPInfo = {
.boardName = "DB-88F6560-PCAC",
.numBoardMppTypeValue = MV_ARRAY_SIZE(db88f6560PcacInfoBoardMppTypeInfo),
.pBoardMppTypeValue = db88f6560PcacInfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(db88f6560PcacInfoBoardMppConfigValue),
.pBoardMppConfigValue = db88f6560PcacInfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(db88f6560PcacInfoBoardDeCsInfo),
.pDevCsInfo = db88f6560PcacInfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(db88f6560PcacInfoBoardTwsiDev),
.pBoardTwsiDev = db88f6560PcacInfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(db88f6560PcacInfoBoardMacInfo),
.pBoardMacInfo = db88f6560PcacInfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(db88f6560PcacInfoBoardGppInfo),
.pBoardGppInfo = db88f6560PcacInfoBoardGppInfo,
.activeLedsNumber = MV_ARRAY_SIZE(db88f6560PcacLedGppPin),
.pLedGppPin = db88f6560PcacLedGppPin,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = DB_88F6560_PCAC_GPP_OUT_ENA_LOW,
.gppOutEnValMid = DB_88F6560_PCAC_GPP_OUT_ENA_MID,
.gppOutEnValHigh = DB_88F6560_PCAC_GPP_OUT_ENA_HIGH,
.gppOutValLow = DB_88F6560_PCAC_GPP_OUT_VAL_LOW,
.gppOutValMid = DB_88F6560_PCAC_GPP_OUT_VAL_MID,
.gppOutValHigh = DB_88F6560_PCAC_GPP_OUT_VAL_HIGH,
.gppPolarityValLow = DB_88F6560_PCAC_GPP_POL_LOW,
.gppPolarityValMid = DB_88F6560_PCAC_GPP_POL_MID,
.gppPolarityValHigh = DB_88F6560_PCAC_GPP_POL_HIGH,
/* External Switch Configuration */
.pSwitchInfo = NULL,
.switchInfoNum = 0,
/* PON configuration. */
.ponConfigValue = BOARD_PON_NONE,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {0},
.pBoardTdmInt2CsInfo = {NULL},
.boardTdmInfoIndex = -1,
.pBoardSpecInit = db88f6560PcacBoardSpecInit,
.deepIdlePwrUpDelay = 2400, /* 12 uS */
/* NAND init params */
.nandFlashParamsValid = MV_TRUE,
.nandFlashReadParams = DB_88F6560_PCAC_BOARD_NAND_READ_PARAMS,
.nandFlashWriteParams = DB_88F6560_PCAC_BOARD_NAND_WRITE_PARAMS,
.nandFlashControl = DB_88F6560_PCAC_BOARD_NAND_CONTROL,
.pBoardTdmSpiInfo = db88f6560PcacTdmSpiInfo,
/* Disable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
/***************************************************************************
** DB-88F6560-BP
****************************************************************************/
#define DB_88F6535_BOARD_NAND_READ_PARAMS 0x000C0282
#define DB_88F6535_BOARD_NAND_WRITE_PARAMS 0x00010305
/* NAND care support for small page chips */
#define DB_88F6535_BOARD_NAND_CONTROL 0x01c00543
MV_BOARD_TWSI_INFO db88f6535InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
{BOARD_DEV_TWSI_SATR, 0x4C, ADDR7_BIT},
{BOARD_DEV_TWSI_SATR, 0x4D, ADDR7_BIT},
{BOARD_DEV_TWSI_SATR, 0x4E, ADDR7_BIT},
{BOARD_DEV_TWSI_SATR, 0x4F, ADDR7_BIT},
{BOARD_TWSI_MUX, 0x70, ADDR7_BIT}
};
MV_BOARD_MAC_INFO db88f6535InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_AUTO, 0x8},
{BOARD_MAC_SPEED_AUTO, 0x9},
{N_A,N_A}
};
MV_BOARD_MPP_TYPE_INFO db88f6535InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_AUTO,
.ethSataComplexOpt = ESC_OPT_AUTO,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO db88f6535InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_PON_XVR_TX, 17},
{BOARD_GPP_USB_VBUS, 31},
{BOARD_GPP_PEX_RESET, 67},
{BOARD_GPP_SDIO_DETECT, 68},
{BOARD_GPP_SDIO_WP, 69},
};
MV_DEV_CS_INFO db88f6535InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#ifdef MTD_NAND_LNC
{NAND_NOR_CS, N_A, BOARD_DEV_NAND_FLASH, 8}, /* NAND DEV */
#endif
#ifdef MV_SPI
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#ifdef MV_NOR
{NAND_NOR_CS, N_A, BOARD_DEV_NOR_FLASH, 16}, /* NOR DEV */
#endif
#if !defined(MTD_NAND_LNC) && !defined(MV_SPI) && !defined(MV_NOR)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO db88f6535InfoBoardMppConfigValue[] = {
{{
DB_88F6535_MPP0_7,
DB_88F6535_MPP8_15,
DB_88F6535_MPP16_23,
DB_88F6535_MPP24_31,
DB_88F6535_MPP32_39,
DB_88F6535_MPP40_47,
DB_88F6535_MPP48_55,
DB_88F6535_MPP56_63,
DB_88F6535_MPP64_71,
DB_88F6535_MPP72_79,
DB_88F6535_MPP80_87,
DB_88F6535_MPP88_88
}
}
};
MV_BOARD_SWITCH_INFO db88f6535InfoBoardSwitchValue[] = {
{
.switchIrq = 29, /* set to -1 for timer operation */
.switchPort = {1, 2, 3, 0, -1, -1, -1, -1},
.cpuPort = 4,
.connectedPort = {4, 5, -1},
.smiScanMode = 2,
.quadPhyAddr = 0,
.forceLinkMask = 0x0
}
};
MV_BOARD_TDM_INFO db88f6535Tdm880[] = {
{1},
{2}
};
MV_BOARD_TDM_INFO db88f6535Tdm890[] = {
{2}
};
MV_BOARD_TDM_INFO db88f6535Tdm792[] = {
{1},
{2},
{3},
{4},
{6},
{7}
};
MV_BOARD_TDM_INFO db88f6535Tdm3215[] = { {1} };
MV_BOARD_TDM_SPI_INFO db88f6535TdmSpiInfo[] = { {0} };
MV_BOARD_SPEC_INIT db88f6535BoardSpecInit[] = {
{
.reg = PMU_POWER_IF_POLARITY_REG,
.mask = (BIT1),
.val = 0
},
{
.reg = TBL_TERM,
.val = TBL_TERM
}
};
MV_BOARD_INFO db88f6535Info = {
.boardName = "DB-88F6560-BP",
.numBoardMppTypeValue = MV_ARRAY_SIZE(db88f6535InfoBoardMppTypeInfo),
.pBoardMppTypeValue = db88f6535InfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(db88f6535InfoBoardMppConfigValue),
.pBoardMppConfigValue = db88f6535InfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(db88f6535InfoBoardDeCsInfo),
.pDevCsInfo = db88f6535InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(db88f6535InfoBoardTwsiDev),
.pBoardTwsiDev = db88f6535InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(db88f6535InfoBoardMacInfo),
.pBoardMacInfo = db88f6535InfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(db88f6535InfoBoardGppInfo),
.pBoardGppInfo = db88f6535InfoBoardGppInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = DB_88F6535_GPP_OUT_ENA_LOW,
.gppOutEnValMid = DB_88F6535_GPP_OUT_ENA_MID,
.gppOutEnValHigh = DB_88F6535_GPP_OUT_ENA_HIGH,
.gppOutValLow = DB_88F6535_GPP_OUT_VAL_LOW,
.gppOutValMid = DB_88F6535_GPP_OUT_VAL_MID,
.gppOutValHigh = DB_88F6535_GPP_OUT_VAL_HIGH,
.gppPolarityValLow = DB_88F6535_GPP_POL_LOW,
.gppPolarityValMid = DB_88F6535_GPP_POL_MID,
.gppPolarityValHigh = DB_88F6535_GPP_POL_HIGH,
/* External Switch Configuration */
.pSwitchInfo = db88f6535InfoBoardSwitchValue,
.switchInfoNum = MV_ARRAY_SIZE(db88f6535InfoBoardSwitchValue),
/* PON configuration. */
.ponConfigValue = BOARD_PON_AUTO,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {2, 6, 1, 1},
.pBoardTdmInt2CsInfo = {db88f6535Tdm880,
db88f6535Tdm792,
db88f6535Tdm3215,
db88f6535Tdm890},
.boardTdmInfoIndex = -1,
.pBoardSpecInit = db88f6535BoardSpecInit,
.deepIdlePwrUpDelay = 2400, /* 12uS */
/* NAND init params */
.nandFlashParamsValid = MV_TRUE,
.nandFlashReadParams = DB_88F6535_BOARD_NAND_READ_PARAMS,
.nandFlashWriteParams = DB_88F6535_BOARD_NAND_WRITE_PARAMS,
.nandFlashControl = DB_88F6535_BOARD_NAND_CONTROL,
.pBoardTdmSpiInfo = db88f6535TdmSpiInfo,
/* Enable modules auto-detection. */
.moduleAutoDetect = MV_TRUE
};
/***************************************************************************
** RD-88F6601 Avanta
****************************************************************************/
/* NAND not supported */
MV_BOARD_TWSI_INFO rd88f6601InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO rd88f6601InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_AUTO, 0x0},
{BOARD_MAC_SPEED_AUTO, 0x1},
{N_A,N_A}
};
MV_BOARD_MPP_TYPE_INFO rd88f6601InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_AUTO,
.ethSataComplexOpt = ESC_OPT_GEPHY_MAC0,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO rd88f6601InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_PON_XVR_TX, 17},
{BOARD_GPP_PON_XVR_TX_POWER, 37},
{BOARD_GPP_PON_XVR_TX_IND, 24},
};
MV_DEV_CS_INFO rd88f6601InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#ifdef MV_SPI
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO rd88f6601InfoBoardMppConfigValue[] = {
{{
RD_88F6601_MPP0_7,
RD_88F6601_MPP8_15,
RD_88F6601_MPP16_23,
RD_88F6601_MPP24_31,
RD_88F6601_MPP32_37
}
}
};
MV_BOARD_INFO rd88f6601Info = {
.boardName = "RD-88F6601-BP",
.numBoardMppTypeValue = MV_ARRAY_SIZE(rd88f6601InfoBoardMppTypeInfo),
.pBoardMppTypeValue = rd88f6601InfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(rd88f6601InfoBoardMppConfigValue),
.pBoardMppConfigValue = rd88f6601InfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(rd88f6601InfoBoardDeCsInfo),
.pDevCsInfo = rd88f6601InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(rd88f6601InfoBoardTwsiDev),
.pBoardTwsiDev = rd88f6601InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(rd88f6601InfoBoardMacInfo),
.pBoardMacInfo = rd88f6601InfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(rd88f6601InfoBoardGppInfo),
.pBoardGppInfo = rd88f6601InfoBoardGppInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = RD_88F6601_GPP_OUT_ENA_LOW,
.gppOutEnValMid = RD_88F6601_GPP_OUT_ENA_MID,
.gppOutEnValHigh = 0,
.gppOutValLow = RD_88F6601_GPP_OUT_VAL_LOW,
.gppOutValMid = RD_88F6601_GPP_OUT_VAL_MID,
.gppOutValHigh = 0,
.gppPolarityValLow = RD_88F6601_GPP_POL_LOW,
.gppPolarityValMid = RD_88F6601_GPP_POL_MID,
.gppPolarityValHigh = 0,
/* External Switch Configuration */
.pSwitchInfo = NULL,
.switchInfoNum = 0,
/* PON configuration. */
.ponConfigValue = BOARD_GPON_CONFIG,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {0},
.pBoardTdmInt2CsInfo = {NULL},
.boardTdmInfoIndex = -1,
.pBoardSpecInit = NULL,
.deepIdlePwrUpDelay = 2400, /* 12uS */
/* NAND init params */
.nandFlashParamsValid = MV_FALSE,
.nandFlashReadParams = 0,
.nandFlashWriteParams = 0,
.nandFlashControl = 0,
.pBoardTdmSpiInfo = NULL,
/* Enable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
/***************************************************************************
** RD-88F6601MC2L Avanta
****************************************************************************/
/* NAND not supported */
MV_BOARD_TWSI_INFO rd88f6601MC2LInfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO rd88f6601MC2LInfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_AUTO, 0x0},
{N_A, N_A}
};
MV_BOARD_MPP_TYPE_INFO rd88f6601MC2LInfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_AUTO,
.ethSataComplexOpt = ESC_OPT_GEPHY_MAC0,
.ethPortsMode = 0x0,
}
};
MV_BOARD_GPP_INFO rd88f6601MC2LInfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_PON_XVR_TX, 17},
{BOARD_GPP_PON_XVR_TX_POWER, 37},
{BOARD_GPP_PON_XVR_TX_IND, 24},
};
MV_DEV_CS_INFO rd88f6601MC2LInfoBoardDeCsInfo[] = {
/* {deviceCS, params, devType, devWidth} */
#ifdef MV_SPI
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO rd88f6601MC2LInfoBoardMppConfigValue[] = {
{
{
RD_88F6601MC2L_MPP0_7,
RD_88F6601MC2L_MPP8_15,
RD_88F6601MC2L_MPP16_23,
RD_88F6601MC2L_MPP24_31,
RD_88F6601MC2L_MPP32_37,
}
}
};
MV_BOARD_INFO rd88f6601MC2LInfo = {
.boardName = "RD-88F6601-MC2L",
.numBoardMppTypeValue = MV_ARRAY_SIZE(rd88f6601MC2LInfoBoardMppTypeInfo),
.pBoardMppTypeValue = rd88f6601MC2LInfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(rd88f6601MC2LInfoBoardMppConfigValue),
.pBoardMppConfigValue = rd88f6601MC2LInfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(rd88f6601MC2LInfoBoardDeCsInfo),
.pDevCsInfo = rd88f6601MC2LInfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(rd88f6601MC2LInfoBoardTwsiDev),
.pBoardTwsiDev = rd88f6601MC2LInfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(rd88f6601MC2LInfoBoardMacInfo),
.pBoardMacInfo = rd88f6601MC2LInfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(rd88f6601MC2LInfoBoardGppInfo),
.pBoardGppInfo = rd88f6601MC2LInfoBoardGppInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = RD_88F6601MC2L_GPP_OUT_ENA_LOW,
.gppOutEnValMid = RD_88F6601MC2L_GPP_OUT_ENA_MID,
.gppOutEnValHigh = 0,
.gppOutValLow = RD_88F6601MC2L_GPP_OUT_VAL_LOW,
.gppOutValMid = RD_88F6601MC2L_GPP_OUT_VAL_MID,
.gppOutValHigh = 0,
.gppPolarityValLow = RD_88F6601MC2L_GPP_POL_LOW,
.gppPolarityValMid = RD_88F6601MC2L_GPP_POL_MID,
.gppPolarityValHigh = 0,
/* External Switch Configuration */
.pSwitchInfo = NULL,
.switchInfoNum = 0,
/* PON configuration. */
.ponConfigValue = BOARD_GPON_CONFIG,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {0},
.pBoardTdmInt2CsInfo = {NULL},
.boardTdmInfoIndex = -1,
.pBoardSpecInit = NULL,
.deepIdlePwrUpDelay = 2400, /* 12uS */
/* NAND init params */
.nandFlashParamsValid = MV_FALSE,
.nandFlashReadParams = 0,
.nandFlashWriteParams = 0,
.nandFlashControl = 0,
.pBoardTdmSpiInfo = NULL,
/* Enable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
/***************************************************************************
** DB-88F6601-BP Avanta
****************************************************************************/
/* NAND not supported */
MV_BOARD_TWSI_INFO db88f6601InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
{BOARD_DEV_TWSI_SATR, 0x4C, ADDR7_BIT},
{BOARD_TWSI_MUX, 0x70, ADDR7_BIT}
};
MV_BOARD_MAC_INFO db88f6601InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_AUTO, 0x0},
{BOARD_MAC_SPEED_AUTO, 0x1},
{N_A, N_A}
};
MV_BOARD_MPP_TYPE_INFO db88f6601InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_AUTO,
.ethSataComplexOpt = ESC_OPT_AUTO,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO db88f6601InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_PON_XVR_TX, 17},
{BOARD_GPP_PON_XVR_TX_POWER, 37},
{BOARD_GPP_PON_XVR_TX_IND, 19},
};
MV_DEV_CS_INFO db88f6601InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#ifdef MV_SPI
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO db88f6601InfoBoardMppConfigValue[] = {
{{
DB_88F6601_MPP0_7,
DB_88F6601_MPP8_15,
DB_88F6601_MPP16_23,
DB_88F6601_MPP24_31,
DB_88F6601_MPP32_37
}
}
};
MV_BOARD_TDM_INFO db88f6601Tdm880[] = { {0} };
MV_BOARD_TDM_SPI_INFO db88f6601TdmSpiInfo[] = { {1} };
MV_BOARD_INFO db88f6601Info = {
.boardName = "DB-88F6601-BP",
.numBoardMppTypeValue = MV_ARRAY_SIZE(db88f6601InfoBoardMppTypeInfo),
.pBoardMppTypeValue = db88f6601InfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(db88f6601InfoBoardMppConfigValue),
.pBoardMppConfigValue = db88f6601InfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(db88f6601InfoBoardDeCsInfo),
.pDevCsInfo = db88f6601InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(db88f6601InfoBoardTwsiDev),
.pBoardTwsiDev = db88f6601InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(db88f6601InfoBoardMacInfo),
.pBoardMacInfo = db88f6601InfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(db88f6601InfoBoardGppInfo),
.pBoardGppInfo = db88f6601InfoBoardGppInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = DB_88F6601_GPP_OUT_ENA_LOW,
.gppOutEnValMid = DB_88F6601_GPP_OUT_ENA_MID,
.gppOutEnValHigh = 0,
.gppOutValLow = DB_88F6601_GPP_OUT_VAL_LOW,
.gppOutValMid = DB_88F6601_GPP_OUT_VAL_MID,
.gppOutValHigh = 0,
.gppPolarityValLow = DB_88F6601_GPP_POL_LOW,
.gppPolarityValMid = DB_88F6601_GPP_POL_MID,
.gppPolarityValHigh = 0,
/* External Switch Configuration */
.pSwitchInfo = NULL,
.switchInfoNum = 0,
/* PON configuration. */
.ponConfigValue = BOARD_GPON_CONFIG,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {1},
.pBoardTdmInt2CsInfo = {db88f6601Tdm880},
.boardTdmInfoIndex = 0,
.pBoardSpecInit = NULL,
.deepIdlePwrUpDelay = 2400, /* 12uS */
/* NAND init params */
.nandFlashParamsValid = MV_FALSE,
.nandFlashReadParams = 0,
.nandFlashWriteParams = 0,
.nandFlashControl = 0,
.pBoardTdmSpiInfo = db88f6601TdmSpiInfo,
/* Enable modules auto-detection. */
.moduleAutoDetect = MV_TRUE
};
/***************************************************************************
** Customer board place holder
****************************************************************************/
#define DB_CUSTOMER_BOARD_PCI_IF_NUM 0x0
#define DB_CUSTOMER_BOARD_TWSI_DEF_NUM 0x0
#define DB_CUSTOMER_BOARD_MAC_INFO_NUM 0x0
#define DB_CUSTOMER_BOARD_GPP_INFO_NUM 0x0
#define DB_CUSTOMER_BOARD_MPP_GROUP_TYPE_NUN 0x0
#define DB_CUSTOMER_BOARD_MPP_CONFIG_NUM 0x0
#define DB_CUSTOMER_BOARD_DEVICE_CONFIG_NUM 0x0
#define DB_CUSTOMER_BOARD_DEBUG_LED_NUM 0x0
#define DB_CUSTOMER_BOARD_NAND_READ_PARAMS 0x000E02C2
#define DB_CUSTOMER_BOARD_NAND_WRITE_PARAMS 0x00010305
#define DB_CUSTOMER_BOARD_NAND_CONTROL 0x01c00543
MV_U8 dbCustomerInfoBoardDebugLedIf[] = { 0 };
MV_BOARD_MAC_INFO dbCustomerInfoBoardMacInfo[] =
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{ {BOARD_MAC_SPEED_AUTO, 0x0}
};
MV_BOARD_TWSI_INFO dbCustomerInfoBoardTwsiDev[] =
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
{ {BOARD_TWSI_OTHER, 0x0, ADDR7_BIT}
};
MV_BOARD_MPP_TYPE_INFO dbCustomerInfoBoardMppTypeInfo[] = { {MV_BOARD_OTHER, MV_BOARD_OTHER, 0x0}
};
MV_DEV_CS_INFO dbCustomerInfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#if defined(MTD_NAND_LNC)
{NAND_NOR_CS, N_A, BOARD_DEV_NAND_FLASH, 8}, /* NAND DEV */
#endif
#if defined(MV_SPI)
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MTD_NAND_LNC) && !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO dbCustomerInfoBoardMppConfigValue[] = {
{
{
DB_CUSTOMER_MPP0_7,
DB_CUSTOMER_MPP8_15,
DB_CUSTOMER_MPP16_23,
DB_CUSTOMER_MPP24_31,
DB_CUSTOMER_MPP32_39,
DB_CUSTOMER_MPP40_47,
DB_CUSTOMER_MPP48_55
}
}
};
MV_BOARD_INFO dbCustomerInfo = { };
/***************************************************************************
** GFLT200 Prism
****************************************************************************/
/* NAND not supported */
MV_BOARD_TWSI_INFO gflt200InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO gflt200InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_AUTO, 0x0},
{BOARD_MAC_SPEED_AUTO, 0x1},
{N_A,N_A}
};
MV_BOARD_MPP_TYPE_INFO gflt200InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_AUTO,
.ethSataComplexOpt = ESC_OPT_GEPHY_MAC0,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO gflt200Evt1InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
/*{BOARD_GPP_PON_XVR_TX, 17, 0},*/
/*{BOARD_GPP_PON_XVR_TX_IND, 24, 0},*/
{BOARD_GPP_PON_XVR_TX, 21, 1},
{BOARD_GPP_PON_XVR_TX_POWER, 37, 1},
};
MV_BOARD_GPP_INFO gflt200Evt2InfoBoardGppInfo[] = {
{BOARD_GPP_PON_XVR_TX, 21, 1},
{BOARD_GPP_PON_XVR_TX_POWER, 37, 0},
};
MV_DEV_CS_INFO gflt200InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#ifdef MV_SPI
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO gflt200Evt1InfoBoardMppConfigValue[] = {
{{
GFLT200_EVT1_MPP0_7,
GFLT200_EVT1_MPP8_15,
GFLT200_EVT1_MPP16_23,
GFLT200_EVT1_MPP24_31,
GFLT200_EVT1_MPP32_37
}
}
};
MV_BOARD_MPP_INFO gflt200Evt2InfoBoardMppConfigValue[] = {
{{
GFLT200_EVT2_MPP0_7,
GFLT200_EVT2_MPP8_15,
GFLT200_EVT2_MPP16_23,
GFLT200_EVT2_MPP24_31,
GFLT200_EVT2_MPP32_37
}
}
};
/*
MV_BOARD_SPEC_INIT gflt200BoardSpecInit[] = {
{
.reg = PMU_POWER_IF_POLARITY_REG,
.mask = (BIT1),
.val = 0
},
{
.reg = TBL_TERM,
.val = TBL_TERM
}
};
*/
#define GFLT200_GPP_BOARD_VER_MASK ((1 << 18) | (1 << 15) | (1 << 13))
#define GFLT200_EVT1_BOARD_VER (0)
#define GFLT200_EVT2_BOARD_VER (1 << 13)
static MV_VOID gflt200BoardInit(MV_BOARD_INFO *pBoardInfo)
{
MV_U32 board_ver;
mvGppTypeSet(0, GFLT200_GPP_BOARD_VER_MASK, GFLT200_GPP_BOARD_VER_MASK);
switch ((board_ver = mvGppValueGet(0, GFLT200_GPP_BOARD_VER_MASK))) {
case GFLT200_EVT1_BOARD_VER:
pBoardInfo->numBoardMppConfigValue
= MV_ARRAY_SIZE(gflt200Evt1InfoBoardMppConfigValue);
pBoardInfo->pBoardMppConfigValue
= gflt200Evt1InfoBoardMppConfigValue;
pBoardInfo->numBoardGppInfo
= MV_ARRAY_SIZE(gflt200Evt1InfoBoardGppInfo),
pBoardInfo->pBoardGppInfo = gflt200Evt1InfoBoardGppInfo,
pBoardInfo->gppOutEnValLow = GFLT200_EVT1_GPP_OUT_ENA_LOW;
pBoardInfo->gppOutEnValMid = GFLT200_EVT1_GPP_OUT_ENA_MID;
pBoardInfo->gppOutValLow = GFLT200_EVT1_GPP_OUT_VAL_LOW;
pBoardInfo->gppOutValMid = GFLT200_EVT1_GPP_OUT_VAL_MID;
pBoardInfo->gppPolarityValLow = GFLT200_EVT1_GPP_POL_LOW;
pBoardInfo->gppPolarityValMid = GFLT200_EVT1_GPP_POL_MID;
break;
default:
pr_err("GFLT200: unknown board version '%x'\n", board_ver);
/* fallthrough */
case GFLT200_EVT2_BOARD_VER:
pBoardInfo->numBoardMppConfigValue
= MV_ARRAY_SIZE(gflt200Evt2InfoBoardMppConfigValue);
pBoardInfo->pBoardMppConfigValue
= gflt200Evt2InfoBoardMppConfigValue;
pBoardInfo->numBoardGppInfo
= MV_ARRAY_SIZE(gflt200Evt2InfoBoardGppInfo),
pBoardInfo->pBoardGppInfo = gflt200Evt2InfoBoardGppInfo,
pBoardInfo->gppOutEnValLow = GFLT200_EVT2_GPP_OUT_ENA_LOW;
pBoardInfo->gppOutEnValMid = GFLT200_EVT2_GPP_OUT_ENA_MID;
pBoardInfo->gppOutValLow = GFLT200_EVT2_GPP_OUT_VAL_LOW;
pBoardInfo->gppOutValMid = GFLT200_EVT2_GPP_OUT_VAL_MID;
pBoardInfo->gppPolarityValLow = GFLT200_EVT2_GPP_POL_LOW;
pBoardInfo->gppPolarityValMid = GFLT200_EVT2_GPP_POL_MID;
break;
}
}
MV_BOARD_INFO gflt200Info = {
.boardName = "GFLT200",
.pBoardInit = gflt200BoardInit,
.numBoardMppTypeValue = MV_ARRAY_SIZE(gflt200InfoBoardMppTypeInfo),
.pBoardMppTypeValue = gflt200InfoBoardMppTypeInfo,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(gflt200InfoBoardDeCsInfo),
.pDevCsInfo = gflt200InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(gflt200InfoBoardTwsiDev),
.pBoardTwsiDev = gflt200InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(gflt200InfoBoardMacInfo),
.pBoardMacInfo = gflt200InfoBoardMacInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValHigh = 0,
.gppOutValHigh = 0,
.gppPolarityValHigh = 0,
/* External Switch Configuration */
.pSwitchInfo = NULL,
.switchInfoNum = 0,
/* PON configuration. */
.ponConfigValue = BOARD_PON_NONE,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {0},
.pBoardTdmInt2CsInfo = {NULL},
.boardTdmInfoIndex = -1,
.pBoardSpecInit = NULL, /* gflt200BoardSpecInit, */
.deepIdlePwrUpDelay = 2400, /* 12uS */
/* NAND init params */
.nandFlashParamsValid = MV_FALSE,
.nandFlashReadParams = 0,
.nandFlashWriteParams = 0,
.nandFlashControl = 0,
.pBoardTdmSpiInfo = NULL,
/* Enable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
/***************************************************************************
** GFLT110
****************************************************************************/
/* NAND not supported */
MV_BOARD_TWSI_INFO gflt110InfoBoardTwsiDev[] = {
/* {{MV_BOARD_DEV_CLASS devClass, MV_U8 twsiDevAddr, MV_U8 twsiDevAddrType}} */
};
MV_BOARD_MAC_INFO gflt110InfoBoardMacInfo[] = {
/* {{MV_BOARD_MAC_SPEED boardMacSpeed, MV_U8 boardEthSmiAddr}} */
{BOARD_MAC_SPEED_AUTO, 0x0},
{BOARD_MAC_SPEED_AUTO, 0x1},
{N_A,N_A}
};
MV_BOARD_MPP_TYPE_INFO gflt110InfoBoardMppTypeInfo[] = {
{
.boardMppTdm = MV_BOARD_AUTO,
.ethSataComplexOpt = ESC_OPT_GEPHY_MAC0,
.ethPortsMode = 0x0
}
};
MV_BOARD_GPP_INFO gflt110InfoBoardGppInfo[] = {
/* {{MV_BOARD_GPP_CLASS devClass, MV_U8 gppPinNum}} */
{BOARD_GPP_PON_XVR_TX, 17},
{BOARD_GPP_PON_XVR_TX_POWER, 37},
{BOARD_GPP_PON_XVR_TX_IND, 24},
};
MV_DEV_CS_INFO gflt110InfoBoardDeCsInfo[] = {
/*{deviceCS, params, devType, devWidth} */
#ifdef MV_SPI
{SPI_CS0, N_A, BOARD_DEV_SPI_FLASH, 8}, /* SPI DEV */
#endif
#if !defined(MV_SPI)
{N_A, N_A, N_A, N_A} /* No device */
#endif
};
MV_BOARD_MPP_INFO gflt110InfoBoardMppConfigValue[] = {
{{
GFLT110_MPP0_7,
GFLT110_MPP8_15,
GFLT110_MPP16_23,
GFLT110_MPP24_31,
GFLT110_MPP32_37
}
}
};
/*
MV_BOARD_SPEC_INIT gflt110BoardSpecInit[] = {
{
.reg = PMU_POWER_IF_POLARITY_REG,
.mask = (BIT1),
.val = 0
},
{
.reg = TBL_TERM,
.val = TBL_TERM
}
};
*/
MV_BOARD_INFO gflt110Info = {
.boardName = "GFLT110",
.numBoardMppTypeValue = MV_ARRAY_SIZE(gflt110InfoBoardMppTypeInfo),
.pBoardMppTypeValue = gflt110InfoBoardMppTypeInfo,
.numBoardMppConfigValue = MV_ARRAY_SIZE(gflt110InfoBoardMppConfigValue),
.pBoardMppConfigValue = gflt110InfoBoardMppConfigValue,
.intsGppMaskLow = 0,
.intsGppMaskMid = 0,
.intsGppMaskHigh = 0,
.numBoardDeviceIf = MV_ARRAY_SIZE(gflt110InfoBoardDeCsInfo),
.pDevCsInfo = gflt110InfoBoardDeCsInfo,
.numBoardTwsiDev = MV_ARRAY_SIZE(gflt110InfoBoardTwsiDev),
.pBoardTwsiDev = gflt110InfoBoardTwsiDev,
.numBoardMacInfo = MV_ARRAY_SIZE(gflt110InfoBoardMacInfo),
.pBoardMacInfo = gflt110InfoBoardMacInfo,
.numBoardGppInfo = MV_ARRAY_SIZE(gflt110InfoBoardGppInfo),
.pBoardGppInfo = gflt110InfoBoardGppInfo,
.activeLedsNumber = 0,
.pLedGppPin = NULL,
.ledsPolarity = 0,
/* GPP values */
.gppOutEnValLow = GFLT110_GPP_OUT_ENA_LOW,
.gppOutEnValMid = GFLT110_GPP_OUT_ENA_MID,
.gppOutEnValHigh = 0,
.gppOutValLow = GFLT110_GPP_OUT_VAL_LOW,
.gppOutValMid = GFLT110_GPP_OUT_VAL_MID,
.gppOutValHigh = 0,
.gppPolarityValLow = GFLT110_GPP_POL_LOW,
.gppPolarityValMid = GFLT110_GPP_POL_MID,
.gppPolarityValHigh = 0,
/* External Switch Configuration */
.pSwitchInfo = NULL,
.switchInfoNum = 0,
/* PON configuration. */
.ponConfigValue = BOARD_GPON_CONFIG,
/* TDM configuration */
/* We hold a different configuration array for each possible slic that
** can be connected to board.
** When modules are scanned, then we select the index of the relevant
** slic's information array.
** For RD and Customers boards we only need to initialize a single
** entry of the arrays below, and set the boardTdmInfoIndex to 0.
*/
.numBoardTdmInfo = {0},
.pBoardTdmInt2CsInfo = {NULL},
.boardTdmInfoIndex = -1,
.pBoardSpecInit = NULL, /* gflt110BoardSpecInit, */
.deepIdlePwrUpDelay = 2400, /* 12uS */
/* NAND init params */
.nandFlashParamsValid = MV_FALSE,
.nandFlashReadParams = 0,
.nandFlashWriteParams = 0,
.nandFlashControl = 0,
.pBoardTdmSpiInfo = NULL,
/* Enable modules auto-detection. */
.moduleAutoDetect = MV_FALSE
};
MV_BOARD_INFO *boardInfoTbl[] = {
&db88f6535Info,
&rd88f6510Info,
&rd88f6560Info,
&rd88f6530Info,
&db88f6560PCACPInfo,
&db88f6601Info,
&rd88f6601Info,
&gflt200Info,
&gflt110Info,
&rd88f6601MC2LInfo,
};