Example #1
0
 def setFEC(self, enable):
     """
     set FEC configuration
     """
     # get back data first
     data = self.mdio.cfp_adaptor_read(DEVICE_1, FEC_CONTROL)
     # only set the configuration if it has changed
     value = (data | bit(3)) if enable else (data & invert(bit(3)))
     self.mdio.cfp_adaptor_write(DEVICE_1, FEC_CONTROL, value)
     time.sleep(0.5)
     return ""
Example #2
0
    def setAN(self, enable):
        """
        set AN configuration
        """
        # select lane 0
        self.mdio.cfp_adaptor_write(DEVICE_7, SLICE_REGISTER, 0x3b80)
        # set lane0 for AN DME
        self.mdio.cfp_adaptor_write(DEVICE_1, LOGIC_TO_PHY_LANE0_MAP, 0x203)

        if enable:
            # AN Adv3 bit14=1 FEC Ability
            self.mdio.cfp_adaptor_write(DEVICE_7, AN_ADVERTISEMENT_3, 0x4000)
            # AN Adv2 bit13=1 100G-CR4
            self.mdio.cfp_adaptor_write(DEVICE_7, AN_ADVERTISEMENT_2, 0x2000)
            # AN Adv1
            self.mdio.cfp_adaptor_write(DEVICE_7, AN_ADVERTISEMENT_1, 0x1)
            # Enable/Restart AN process
            self.mdio.cfp_adaptor_write(DEVICE_7, AN_CONTROL, 0x1200)
            # PHY= Front Panel
            self.mdio.cfp_adaptor_write(DEVICE_1, FRONT_PANEL, 0x1)
            # trigger FW changes
            self.mdio.cfp_adaptor_write(DEVICE_1, AN_TRIGGER, 0x1)
            data = 0xffff
            read_count = 0
            while (data & bit(0) != 0x0) and read_count < MAX_FW_READ_COUNT:
                data = self.mdio.cfp_adaptor_read(DEVICE_1, AN_TRIGGER)
                read_count += 1
            time.sleep(1)

        else:
            # reset and disable AN
            self.mdio.cfp_adaptor_write(DEVICE_7, AN_CONTROL, 0x8000)
            # trigger changes
            self.mdio.cfp_adaptor_write(DEVICE_1, AN_TRIGGER, 0x1)
            while (data & bit(0) != 0x0) and read_count < MAX_FW_READ_COUNT:
                data = self.mdio.cfp_adaptor_read(DEVICE_1, AN_TRIGGER)
                read_count += 1
            time.sleep(0.01)
            # disable AN
            self.mdio.cfp_adaptor_write(DEVICE_7, AN_CONTROL, 0x0)
            # trigger changes
            self.mdio.cfp_adaptor_write(DEVICE_1, AN_TRIGGER, 0x1)
            while (data & bit(0) != 0x0) and read_count < MAX_FW_READ_COUNT:
                data = self.mdio.cfp_adaptor_read(DEVICE_1, AN_TRIGGER)
                read_count += 1
            time.sleep(0.2)

        return ""
Example #3
0
    def wait_done(self):
        """
        Wait for the ready bit
        """
        doneBit = bit(31)
        for attempt in xrange(10):
            time.sleep(0.01)
            data = self.spam.read(self.cmd_reg)
            if data & doneBit:
                return

        # if the done bit does not get set raise an Exception
        print "MDIO Failure"
Example #4
0
"""
port module for proteus
"""
import portColossus
import time
from pci import Pci
from Mdio import Mdio
from I2c import I2c
from l1constants import bit, invert

GEARBOX_PORT_ADDR = 0x7
DEVICE_1 = 0x1
DEVICE_7 = 0x7
MODE_CONTROL_0 = 0xa101
FEC_ENABLE = bit(13)
SLICE_REGISTER = 0x8000

class Proteus(Pci):
    """
    port class implementation
    """
    def __init__(self, bar, port):
        Pci.__init__(self, '174a:0a0f', bar, port)


class MdioAccess(portColossus.MdioAccess):
    """
    Proteus Mdio implementation
    """
    def __init__(self, port, bar=0):
        self.mdio = Mdio(port, bar, portColossus.MDIO_CMD_REG, portColossus.MDIO_DATA_REG)
Example #5
0
Port Colossus Module
"""
import time
from pci import Pci
from Mdio import Mdio
from I2c import I2c
from l1constants import bit, invert
# Bar 0 Registers

MDIO_CMD_REG = 0x0078
MDIO_DATA_REG = 0x007c
I2C_CMD_REG = 0x0044

# Bar 1 Registers
FRAMER_PCS_PMA = 0x204
LOCAL_FAULT = bit(0)
REMOTE_FAULT = bit(1)
RX_GTH_RESET = bit(11)
RX_CORE_RESET = bit(12)

STICKY_REGISTER = 0x208
HSEC_ERROR = bit(2)
# MDIO and I2C Constants
CFP_PORT_ADDR = 0x1
GEARBOX_PORT_ADDR = 0x0
CFP_ADAPTOR_PORT_ADDR = 0xe
DEVICE_1 = 0x1
DEVICE_7 = 0x7
FEC_CONTROL = 0x8a05
GEARBOX_LOOPBACK = 0xf457
GEARBOX_COMMON_CTRL1 = 0xf402
Example #6
0
"""
I2c base module
"""
import time
import getHwHandle
from l1constants import bit

i2cDoneBit = bit(31)
i2cErrorBit = bit(29)
i2cDoneMask = i2cDoneBit | i2cErrorBit
READ_WRITE_BIT = bit(30)
class I2c():
    """
    I2c base class implementation
    """
    def __init__(self, port, bar, cmd_reg):
        """
        Initialization of I2c class
        """
        self.port = port
        if bar:
            self.spam = getHwHandle.getBar1Handle(self.port)
        else:
            self.spam = getHwHandle.getBar0Handle(self.port)

        self.cmd_reg = cmd_reg

    def buildReadCmd(self, devAddr, regAddr, busSel):
        """
        helper function to build i2c read cmd
        """
Example #7
0
"""
Mdio Base module
"""
import time
import getHwHandle
from l1constants import bit

READ_WRITE_BIT = bit(30)
PORT_ADDR_MASK = 0x1f
PORT_ADDR_SHIFT = 21
DEV_ADDR_MASK = 0x1f
DEV_ADDR_SHIFT = 16
REG_ADDR_MASK = 0xffff
DATA_MASK = 0x1ffff
mdioDoneBit = bit(31)
mdioWriteBit = bit(16)

class Mdio():
    """
    Mdio base class implementation
    """
    def __init__(self, port, bar, cmd_reg, data_reg):
        """
        initialization of MDIO class
        """
        self.port = port
        if bar:
            self.spam = getHwHandle.getBar1Handle(self.port)
        else:
            self.spam = getHwHandle.getBar0Handle(self.port)