def print_gbe_core_details(self, arp=False, cpu=False, refresh=True):
"""
Prints 10GbE core details.
:param arp: boolean, include the ARP table
:param cpu: boolean, include the CPU packet buffers
:param refresh: read the 10gbe details first
"""
if refresh or (self.core_details is None):
self.get_gbe_core_details(arp, cpu)
details = self.core_details
print('------------------------')
print('%s configuration:' % self.fullname)
print('MAC: ', Mac.mac2str(int(details['mac'])))
print('Gateway: ', details['gateway_ip'])
print('IP: ', details['ip'])
print('Fabric port: ',)
print('%5d' % details['fabric_port'])
print('Fabric interface is currently: %s' %
'Enabled' if details['fabric_en'] else 'Disabled')
print('XAUI Status: ', details['xaui_status'])
for ctr in range(0, 4):
print('\tlane sync %i: %i' % (ctr, details['xaui_lane_sync'][ctr]))
print('\tChannel bond: %i' % details['xaui_chan_bond'])
print('XAUI PHY config: ')
print('\tRX_eq_mix: %2X' % details['xaui_phy']['rx_eq_mix'])
print('\tRX_eq_pol: %2X' % details['xaui_phy']['rx_eq_pol'])
print('\tTX_pre-emph: %2X' % details['xaui_phy']['tx_preemph'])
print('\tTX_diff_ctrl: %2X' % details['xaui_phy']['tx_swing'])
print('Multicast:')
for k in details['multicast']:
print('\t%s: %s' % (k, details['multicast'][k]))
if arp:
self.print_arp_details(refresh=refresh, only_hits=True)
if cpu:
self.print_cpu_details(refresh=refresh)
def print_gbe_core_details(self, arp=False, cpu=False, refresh=True):
"""
Prints 40GbE core details.
"""
details = self.get_gbe_core_details()
print('------------------------')
print('%s configuration:' % self.name)
print('MAC: ', Mac.mac2str(int(details['mac'])))
print('Gateway: ', details['gateway_ip'].__str__())
print('IP: ', details['ip'].__str__())
print('Fabric port: %5d' % details['fabric_port'])
print('Fabric interface is currently: %s' %
'Enabled' if details['fabric_en'] else 'Disabled')
# print('XAUI Status: ', details['xaui_status'])
# for ctr in range(0, 4):
# print('\tlane sync %i: %i' % (ctr, details['xaui_lane_sync'][ctr]))
# print('\tChannel bond: %i' % details['xaui_chan_bond'])
# print('XAUI PHY config: ')
# print('\tRX_eq_mix: %2X' % details['xaui_phy']['rx_eq_mix'])
# print('\tRX_eq_pol: %2X' % details['xaui_phy']['rx_eq_pol'])
# print('\tTX_pre-emph: %2X' % details['xaui_phy']['tx_preemph'])
# print('\tTX_diff_ctrl: %2X' % details['xaui_phy']['tx_swing'])
print('Multicast:')
for k in details['multicast']:
print('\t%s: %s' % (k, details['multicast'][k].__str__()))
def print_gbe_core_details(self, arp=False, cpu=False, refresh=True):
"""
Prints 40GbE core details.
"""
details = self.get_gbe_core_details()
print('------------------------')
print('%s configuration:' % self.name)
print('MAC: ', Mac.mac2str(int(details['mac'])))
print('Gateway: ', details['gateway_ip'].__str__())
print('IP: ', details['ip'].__str__())
print('Fabric port: %5d' % details['fabric_port'])
print('Fabric interface is currently: %s' %
'Enabled' if details['fabric_en'] else 'Disabled')
# print('XAUI Status: ', details['xaui_status'])
# for ctr in range(0, 4):
# print('\tlane sync %i: %i' % (ctr, details['xaui_lane_sync'][ctr]))
# print('\tChannel bond: %i' % details['xaui_chan_bond'])
# print('XAUI PHY config: ')
# print('\tRX_eq_mix: %2X' % details['xaui_phy']['rx_eq_mix'])
# print('\tRX_eq_pol: %2X' % details['xaui_phy']['rx_eq_pol'])
# print('\tTX_pre-emph: %2X' % details['xaui_phy']['tx_preemph'])
# print('\tTX_diff_ctrl: %2X' % details['xaui_phy']['tx_swing'])
print('Multicast:')
for k in details['multicast']:
print('\t%s: %s' % (k, details['multicast'][k].__str__()))
def print_gbe_core_details(self, arp=False, cpu=False, refresh=True):
"""
Prints 10GbE core details.
:param arp: boolean, include the ARP table
:param cpu: boolean, include the CPU packet buffers
:param refresh: read the 10gbe details first
"""
if refresh or (self.core_details is None):
self.get_gbe_core_details(arp, cpu)
details = self.core_details
print('------------------------')
print('%s configuration:' % self.fullname)
print('MAC: ', Mac.mac2str(int(details['mac'])))
print('Gateway: ', details['gateway_ip'])
print('IP: ', details['ip'])
print('Fabric port: ',)
print('%5d' % details['fabric_port'])
print('Fabric interface is currently: %s' %
'Enabled' if details['fabric_en'] else 'Disabled')
print('XAUI Status: ', details['xaui_status'])
for ctr in range(0, 4):
print('\tlane sync %i: %i' % (ctr, details['xaui_lane_sync'][ctr]))
print('\tChannel bond: %i' % details['xaui_chan_bond'])
print('XAUI PHY config: ')
print('\tRX_eq_mix: %2X' % details['xaui_phy']['rx_eq_mix'])
print('\tRX_eq_pol: %2X' % details['xaui_phy']['rx_eq_pol'])
print('\tTX_pre-emph: %2X' % details['xaui_phy']['tx_preemph'])
print('\tTX_diff_ctrl: %2X' % details['xaui_phy']['tx_swing'])
print('Multicast:')
for k in details['multicast']:
print('\t%s: %s' % (k, details['multicast'][k]))
if arp:
self.print_arp_details(refresh=refresh, only_hits=True)
if cpu:
self.print_cpu_details(refresh=refresh)
def get_gbe_core_details(self, read_arp=False, read_cpu=False):
"""
Get the details of the ethernet core from the device memory map.
Updates local variables as well.
"""
gbebase = self.address
gbedata = []
for ctr in range(0, 0x40, 4):
gbedata.append(self._wbone_rd(gbebase + ctr))
gbebytes = []
for d in gbedata:
gbebytes.append((d >> 24) & 0xff)
gbebytes.append((d >> 16) & 0xff)
gbebytes.append((d >> 8) & 0xff)
gbebytes.append((d >> 0) & 0xff)
pd = gbebytes
returnval = {
'ip': IpAddress('{}.{}.{}.{}'.format(
*pd[self.reg_map['ip']:])),
'subnet_mask': IpAddress('{}.{}.{}.{}'.format(
*pd[self.reg_map['subnet_mask']:])),
'mac': Mac('{}:{}:{}:{}:{}:{}'.format(
*pd[self.reg_map['mac']:])),
'gateway_ip': IpAddress('{}.{}.{}.{}'.format(
*pd[self.reg_map['gateway_ip']:])),
# idx 0 and 1 are the mask so access idx 2 and 3
'fabric_port': ((pd[self.reg_map['fabric_port']+2] << 8)
+ pd[self.reg_map['fabric_port']+3]),
# idx 3 is the enable bit
'fabric_en': bool(pd[self.reg_map['fabric_en']+3] & 1),
'multicast': {
'base_ip': IpAddress('{}.{}.{}.{}'.format(
*pd[self.reg_map['multicast_ip']:])),
'ip_mask': IpAddress('{}.{}.{}.{}'.format(
*pd[self.reg_map['multicast_mask']:]))}
}
possible_addresses = [int(returnval['multicast']['base_ip'])]
mask_int = int(returnval['multicast']['ip_mask'])
for ctr in range(32):
mask_bit = (mask_int >> ctr) & 1
if not mask_bit:
new_ips = []
for ip in possible_addresses:
new_ips.append(ip & (~(1 << ctr)))
new_ips.append(new_ips[-1] | (1 << ctr))
possible_addresses.extend(new_ips)
returnval['multicast']['rx_ips'] = []
tmp = list(set(possible_addresses))
for ip in tmp:
returnval['multicast']['rx_ips'].append(IpAddress(ip))
if read_arp:
returnval['arp'] = self.get_arp_details()
if read_cpu:
# returnval.update(self.get_cpu_details(gbedata))
self.logger.warn('Retrieving CPU packet buffers not yet implemented.')
return returnval
def setup(self, mac, ipaddress, port):
"""
Set up the MAC, IP and port for this interface
:param mac: String or Integer input
:param ipaddress: String or Integer input
:param port: String or Integer input
"""
self.mac = Mac(mac)
self.ip_address = IpAddress(ipaddress)
self.port = port if isinstance(port, int) else int(port)
def mac(self):
gbedata = []
for ctr in range(0xC, 0x14, 4):
gbedata.append(self._wbone_rd(self.address + ctr))
gbebytes = []
for d in gbedata:
gbebytes.append((d >> 24) & 0xff)
gbebytes.append((d >> 16) & 0xff)
gbebytes.append((d >> 8) & 0xff)
gbebytes.append((d >> 0) & 0xff)
pd = gbebytes
return Mac('{}:{}:{}:{}:{}:{}'.format(
*pd[2:]))
def setup(self, mac, ipaddress, port, gateway=None, subnet_mask=None):
"""
Set up the MAC, IP and port for this interface
:param mac: String or Integer input, MAC address (e.g. '02:00:00:00:00:01')
:param ipaddress: String or Integer input, IP address (eg '10.0.0.1')
:param port: String or Integer input
:param gateway: String or Integer input, an IP address
:param subnet_mask: string or integer, subnet mask (e.g. '255.255.255.0')
"""
self.mac = Mac(mac)
self.ip_address = IpAddress(ipaddress)
self.port = port if isinstance(port, int) else int(port)
self.gateway = None if gateway is None else IpAddress(gateway)
self.subnet_mask = None if subnet_mask is None else IpAddress(
subnet_mask)
def get_gbe_core_details(self, read_arp=False, read_cpu=False):
"""
Get 10GbE core details.
assemble struct for header stuff...
.. code-block:: python
\"\"\"
0x00 - 0x07: MAC address
0x08 - 0x0b: Not used
0x0c - 0x0f: Gateway addr
0x10 - 0x13: IP addr
0x14 - 0x17: Not assigned
0x18 - 0x1b: Buffer sizes
0x1c - 0x1f: Not assigned
0x20 : Soft reset (bit 0)
0x21 : Fabric enable (bit 0)
0x22 - 0x23: Fabric port
0x24 - 0x27: XAUI status (bit 2,3,4,5 = lane sync, bit6 = chan_bond)
0x28 - 0x2b: PHY config
0x28 : RX_eq_mix
0x29 : RX_eq_pol
0x2a : TX_preemph
0x2b : TX_diff_ctrl
0x30 - 0x33: Multicast IP RX base address
0x34 - 0x37: Multicast IP mask
0x38 - 0x3b: Subnet mask
0x1000 : CPU TX buffer
0x2000 : CPU RX buffer
0x3000 : ARP tables start
word_width = 8
\"\"\"
self.add_field(Bitfield.Field('mac0', 0, word_width, 0, 0 * word_width))
self.add_field(Bitfield.Field('mac1', 0, word_width, 0, 1 * word_width))
self.add_field(Bitfield.Field('mac2', 0, word_width, 0, 2 * word_width))
self.add_field(Bitfield.Field('mac3', 0, word_width, 0, 3 * word_width))
self.add_field(Bitfield.Field('mac4', 0, word_width, 0, 4 * word_width))
self.add_field(Bitfield.Field('mac5', 0, word_width, 0, 5 * word_width))
self.add_field(Bitfield.Field('mac6', 0, word_width, 0, 6 * word_width))
self.add_field(Bitfield.Field('mac7', 0, word_width, 0, 7 * word_width))
self.add_field(Bitfield.Field('unused_1', 0, (0x0c - 0x08) * word_width, 0, 8 * word_width))
self.add_field(Bitfield.Field('gateway_ip0', 0, word_width, 0, 0x0c * word_width))
self.add_field(Bitfield.Field('gateway_ip1', 0, word_width, 0, 0x0d * word_width))
self.add_field(Bitfield.Field('gateway_ip2', 0, word_width, 0, 0x0e * word_width))
self.add_field(Bitfield.Field('gateway_ip3', 0, word_width, 0, 0x0f * word_width))
self.add_field(Bitfield.Field('ip0', 0, word_width, 0, 0x10 * word_width))
self.add_field(Bitfield.Field('ip1', 0, word_width, 0, 0x11 * word_width))
self.add_field(Bitfield.Field('ip2', 0, word_width, 0, 0x12 * word_width))
self.add_field(Bitfield.Field('ip3', 0, word_width, 0, 0x13 * word_width))
self.add_field(Bitfield.Field('unused_2', 0, (0x18 - 0x14) * word_width, 0, 0x14 * word_width))
self.add_field(Bitfield.Field('buf_sizes', 0, (0x1c - 0x18) * word_width, 0, 0x18 * word_width))
self.add_field(Bitfield.Field('unused_3', 0, (0x20 - 0x1c) * word_width, 0, 0x1c * word_width))
self.add_field(Bitfield.Field('soft_reset', 2, 1, 0, 0x20 * word_width))
self.add_field(Bitfield.Field('fabric_enable', 2, 1, 0, 0x21 * word_width))
self.add_field(Bitfield.Field('port', 0, (0x24 - 0x22) * word_width, 0, 0x22 * word_width))
self.add_field(Bitfield.Field('xaui_status', 0, (0x28 - 0x24) * word_width, 0, 0x24 * word_width))
self.add_field(Bitfield.Field('rx_eq_mix', 0, word_width, 0, 0x28 * word_width))
self.add_field(Bitfield.Field('rq_eq_pol', 0, word_width, 0, 0x29 * word_width))
self.add_field(Bitfield.Field('tx_preempth', 0, word_width, 0, 0x2a * word_width))
self.add_field(Bitfield.Field('tx_diff_ctrl', 0, word_width, 0, 0x2b * word_width))
#self.add_field(Bitfield.Field('buffer_tx', 0, 0x1000 * word_width, 0, 0x1000 * word_width))
#self.add_field(Bitfield.Field('buffer_rx', 0, 0x1000 * word_width, 0, 0x2000 * word_width))
#self.add_field(Bitfield.Field('arp_table', 0, 0x1000 * word_width, 0, 0x3000 * word_width))
"""
if self.memmap_compliant:
data = self.parent.read(self.name, 16384)
data = list(struct.unpack('>16384B', data))
returnval = {
'ip_prefix':
'%i.%i.%i.' % (data[0x14], data[0x15], data[0x16]),
'ip':
IpAddress('%i.%i.%i.%i' %
(data[0x14], data[0x15], data[0x16], data[0x17])),
'subnet_mask':
IpAddress('%i.%i.%i.%i' %
(data[0x1c], data[0x1d], data[0x1e], data[0x1f])),
'mac':
Mac('%i:%i:%i:%i:%i:%i' %
(data[0x0e], data[0x0f], data[0x10], data[0x11],
data[0x12], data[0x13])),
'gateway_ip':
IpAddress('%i.%i.%i.%i' %
(data[0x18], data[0x19], data[0x1a], data[0x1b])),
'fabric_port': ((data[0x32] << 8) + (data[0x33])),
'fabric_en':
bool(data[0x2f] & 1),
'multicast': {
'base_ip':
IpAddress(
'%i.%i.%i.%i' %
(data[0x20], data[0x21], data[0x22], data[0x23])),
'ip_mask':
IpAddress(
'%i.%i.%i.%i' %
(data[0x24], data[0x25], data[0x26], data[0x27])),
'rx_ips': []
}
}
else:
data = self.parent.read(self.name, 16384)
data = list(struct.unpack('>16384B', data))
returnval = {
'ip_prefix':
'%i.%i.%i.' % (data[0x10], data[0x11], data[0x12]),
'ip':
IpAddress('%i.%i.%i.%i' %
(data[0x10], data[0x11], data[0x12], data[0x13])),
'subnet_mask':
IpAddress('%i.%i.%i.%i' %
(data[0x38], data[0x39], data[0x3a], data[0x3b])),
'mac':
Mac('%i:%i:%i:%i:%i:%i' %
(data[0x02], data[0x03], data[0x04], data[0x05],
data[0x06], data[0x07])),
'gateway_ip':
IpAddress('%i.%i.%i.%i' %
(data[0x0c], data[0x0d], data[0x0e], data[0x0f])),
'fabric_port': ((data[0x22] << 8) + (data[0x23])),
'fabric_en':
bool(data[0x21] & 1),
'xaui_lane_sync': [
bool(data[0x27] & 4),
bool(data[0x27] & 8),
bool(data[0x27] & 16),
bool(data[0x27] & 32)
],
'xaui_status':
[data[0x24], data[0x25], data[0x26], data[0x27]],
'xaui_chan_bond':
bool(data[0x27] & 64),
'xaui_phy': {
'rx_eq_mix': data[0x28],
'rx_eq_pol': data[0x29],
'tx_preemph': data[0x2a],
'tx_swing': data[0x2b]
},
'multicast': {
'base_ip':
IpAddress(
'%i.%i.%i.%i' %
(data[0x30], data[0x31], data[0x32], data[0x33])),
'ip_mask':
IpAddress(
'%i.%i.%i.%i' %
(data[0x34], data[0x35], data[0x36], data[0x37])),
'rx_ips': []
}
}
possible_addresses = [int(returnval['multicast']['base_ip'])]
mask_int = int(returnval['multicast']['ip_mask'])
for ctr in range(32):
mask_bit = (mask_int >> ctr) & 1
if not mask_bit:
new_ips = []
for ip in possible_addresses:
new_ips.append(ip & (~(1 << ctr)))
new_ips.append(new_ips[-1] | (1 << ctr))
possible_addresses.extend(new_ips)
tmp = list(set(possible_addresses))
for ip in tmp:
returnval['multicast']['rx_ips'].append(IpAddress(ip))
if read_arp:
returnval['arp'] = self.get_arp_details(data)
if read_cpu:
returnval.update(self.get_cpu_details(data))
self.core_details = returnval
return returnval
def get_core_details(self,read_arp=False, read_cpu=False):
"""
Get the details of the ethernet core from the device memory map.
Updates local variables as well.
:return:
"""
from tengbe import IpAddress, Mac
gbebase = self.address
gbedata = []
for ctr in range(0, 0x40, 4):
gbedata.append(self._wbone_rd(gbebase + ctr))
gbebytes = []
for d in gbedata:
gbebytes.append((d >> 24) & 0xff)
gbebytes.append((d >> 16) & 0xff)
gbebytes.append((d >> 8) & 0xff)
gbebytes.append((d >> 0) & 0xff)
pd = gbebytes
returnval = {
'ip_prefix': '%i.%i.%i.' % (pd[0x10], pd[0x11], pd[0x12]),
'ip': IpAddress('%i.%i.%i.%i' % (pd[0x10], pd[0x11],
pd[0x12], pd[0x13])),
'mac': Mac('%i:%i:%i:%i:%i:%i' % (pd[0x02], pd[0x03], pd[0x04],
pd[0x05], pd[0x06], pd[0x07])),
'gateway_ip': IpAddress('%i.%i.%i.%i' % (pd[0x0c], pd[0x0d],
pd[0x0e], pd[0x0f])),
'fabric_port': ((pd[0x22] << 8) + (pd[0x23])),
'fabric_en': bool(pd[0x21] & 1),
'xaui_lane_sync': [
bool(pd[0x27] & 4), bool(pd[0x27] & 8),
bool(pd[0x27] & 16), bool(pd[0x27] & 32)],
'xaui_status': [
pd[0x24], pd[0x25], pd[0x26], pd[0x27]],
'xaui_chan_bond': bool(pd[0x27] & 64),
'xaui_phy': {
'rx_eq_mix': pd[0x28],
'rx_eq_pol': pd[0x29],
'tx_preemph': pd[0x2a],
'tx_swing': pd[0x2b]},
'multicast': {
'base_ip': IpAddress('%i.%i.%i.%i' % (pd[0x30], pd[0x31],
pd[0x32], pd[0x33])),
'ip_mask': IpAddress('%i.%i.%i.%i' % (pd[0x34], pd[0x35],
pd[0x36], pd[0x37])),
'subnet_mask': IpAddress('%i.%i.%i.%i' % (pd[0x38], pd[0x39],
pd[0x3a], pd[0x3b]))}
}
possible_addresses = [int(returnval['multicast']['base_ip'])]
mask_int = int(returnval['multicast']['ip_mask'])
for ctr in range(32):
mask_bit = (mask_int >> ctr) & 1
if not mask_bit:
new_ips = []
for ip in possible_addresses:
new_ips.append(ip & (~(1 << ctr)))
new_ips.append(new_ips[-1] | (1 << ctr))
possible_addresses.extend(new_ips)
returnval['multicast']['rx_ips'] = []
tmp = list(set(possible_addresses))
for ip in tmp:
returnval['multicast']['rx_ips'].append(IpAddress(ip))
if read_arp:
returnval['arp'] = self.get_arp_details(data)
#LOGGER.warn("Retrieving ARP details not yet implemented.")
if read_cpu:
returnval.update(self.get_cpu_details(data))
LOGGER.warn("Retrieving CPU packet buffers not yet implemented.")
return returnval
def get_gbe_core_details(self, read_arp=False, read_cpu=False):
"""
Get the details of the ethernet core from the device memory map.
Updates local variables as well.
"""
gbebase = self.address
gbedata = []
for ctr in range(0, 0x40, 4):
gbedata.append(self._wbone_rd(gbebase + ctr))
gbebytes = []
for d in gbedata:
gbebytes.append((d >> 24) & 0xff)
gbebytes.append((d >> 16) & 0xff)
gbebytes.append((d >> 8) & 0xff)
gbebytes.append((d >> 0) & 0xff)
pd = gbebytes
if self.legacy_reg_map:
returnval = {
# no longer meaningful, since subnet can be less than 256?
# 'ip_prefix': '%i.%i.%i.' % (pd[0x10], pd[0x11], pd[0x12]),
'ip': IpAddress('%i.%i.%i.%i' % (
pd[0x10], pd[0x11], pd[0x12], pd[0x13])),
'subnet_mask': IpAddress('%i.%i.%i.%i' % (
pd[0x38], pd[0x39], pd[0x3a], pd[0x3b])),
'mac': Mac('%i:%i:%i:%i:%i:%i' % (
pd[0x02], pd[0x03], pd[0x04], pd[0x05], pd[0x06], pd[0x07])),
'gateway_ip': IpAddress('%i.%i.%i.%i' % (
pd[0x0c], pd[0x0d], pd[0x0e], pd[0x0f])),
'fabric_port': ((pd[0x22] << 8) + (pd[0x23])),
'fabric_en': bool(pd[0x21] & 1),
'xaui_lane_sync': [
bool(pd[0x27] & 4), bool(pd[0x27] & 8),
bool(pd[0x27] & 16), bool(pd[0x27] & 32)],
'xaui_status': [
pd[0x24], pd[0x25], pd[0x26], pd[0x27]],
'xaui_chan_bond': bool(pd[0x27] & 64),
'xaui_phy': {
'rx_eq_mix': pd[0x28],
'rx_eq_pol': pd[0x29],
'tx_preemph': pd[0x2a],
'tx_swing': pd[0x2b]},
'multicast': {
'base_ip': IpAddress('%i.%i.%i.%i' % (
pd[0x30], pd[0x31], pd[0x32], pd[0x33])),
'ip_mask': IpAddress('%i.%i.%i.%i' % (
pd[0x34], pd[0x35], pd[0x36], pd[0x37]))}
}
else:
returnval = {
# no longer meaningful, since subnet can be less than 256?
# 'ip_prefix': '%i.%i.%i.' % (pd[0x10], pd[0x11], pd[0x12]),
'ip': IpAddress('%i.%i.%i.%i' % (
pd[0x14], pd[0x15], pd[0x16], pd[0x17])),
'subnet_mask': IpAddress('%i.%i.%i.%i' % (
pd[0x24], pd[0x25], pd[0x26], pd[0x27])),
'mac': Mac('%i:%i:%i:%i:%i:%i' % (
pd[0x0E], pd[0x0F], pd[0x10], pd[0x11], pd[0x12], pd[0x13])),
'gateway_ip': IpAddress('%i.%i.%i.%i' % (
pd[0x18], pd[0x19], pd[0x20], pd[0x21])),
'fabric_port': ((pd[0x2E] << 8) + (pd[0x2F])),
'fabric_en': bool(pd[0x29] & 1),
# 'xaui_lane_sync': [
# bool(pd[0x27] & 4), bool(pd[0x27] & 8),
# bool(pd[0x27] & 16), bool(pd[0x27] & 32)],
# 'xaui_status': [
# pd[0x24], pd[0x25], pd[0x26], pd[0x27]],
# 'xaui_chan_bond': bool(pd[0x27] & 64),
# 'xaui_phy': {
# 'rx_eq_mix': pd[0x28],
# 'rx_eq_pol': pd[0x29],
# 'tx_preemph': pd[0x2a],
# 'tx_swing': pd[0x2b]},
'multicast': {
'base_ip': IpAddress('%i.%i.%i.%i' % (
pd[0x20], pd[0x21], pd[0x22], pd[0x23])),
'ip_mask': IpAddress('%i.%i.%i.%i' % (
pd[0x24], pd[0x25], pd[0x26], pd[0x27]))}
}
possible_addresses = [int(returnval['multicast']['base_ip'])]
mask_int = int(returnval['multicast']['ip_mask'])
for ctr in range(32):
mask_bit = (mask_int >> ctr) & 1
if not mask_bit:
new_ips = []
for ip in possible_addresses:
new_ips.append(ip & (~(1 << ctr)))
new_ips.append(new_ips[-1] | (1 << ctr))
possible_addresses.extend(new_ips)
returnval['multicast']['rx_ips'] = []
tmp = list(set(possible_addresses))
for ip in tmp:
returnval['multicast']['rx_ips'].append(IpAddress(ip))
if read_arp:
returnval['arp'] = self.get_arp_details()
if read_cpu:
# returnval.update(self.get_cpu_details(gbedata))
self.logger.warn('Retrieving CPU packet buffers not yet implemented.')
self.mac = returnval['mac']
self.ip_address = returnval['ip']
self.port = returnval['fabric_port']
return returnval
def get_gbe_core_details(self,
read_arp=False,
read_cpu=False,
read_multicast=False):
"""
Get 10GbE core details.
:param read_arp (bool): Get ARP table details (default False)
:param read_cpu (bool): Get CPU details (default False)
:param read_multicast (bool): Get multicast address table (default False)
:returns: dictionary of core details (IP address, subnet mask, MAC address, port, etc).
"""
IP_ADDR = self._memmap_read('IP_ADDR')
IP_PREFIX = '.'.join(IpAddress(IP_ADDR).ip_str.split('.')[:3])
returnval = {
'ip_prefix': IP_PREFIX,
'ip': IpAddress(IP_ADDR),
'subnet_mask': IpAddress(self._memmap_read('NETMASK')),
'mac': Mac(self._memmap_read('MAC_ADDR')),
'gateway_ip': IpAddress(self._memmap_read('GW_ADDR')),
'fabric_port': self._memmap_read('PORT'),
'fabric_en': self._memmap_read('ENABLE'),
'multicast': {
'base_ip': IpAddress(self._memmap_read('MC_IP')),
'ip_mask': IpAddress(self._memmap_read('MC_MASK')),
'rx_ips': []
}
}
if not self.memmap_compliant:
data = self.parent.read(self.name, 16384)
data = list(struct.unpack('>16384B', data))
returnval_legacy_dict = {
'xaui_lane_sync': [
bool(data[0x27] & 4),
bool(data[0x27] & 8),
bool(data[0x27] & 16),
bool(data[0x27] & 32)
],
'xaui_status':
[data[0x24], data[0x25], data[0x26], data[0x27]],
'xaui_chan_bond':
bool(data[0x27] & 64),
'xaui_phy': {
'rx_eq_mix': data[0x28],
'rx_eq_pol': data[0x29],
'tx_preemph': data[0x2a],
'tx_swing': data[0x2b]
},
}
returnval.update(returnval_legacy_dict)
if read_multicast:
possible_addresses = [int(returnval['multicast']['base_ip'])]
mask_int = int(returnval['multicast']['ip_mask'])
for ctr in range(32):
mask_bit = (mask_int >> ctr) & 1
if not mask_bit:
new_ips = []
for ip in possible_addresses:
new_ips.append(ip & (~(1 << ctr)))
new_ips.append(new_ips[-1] | (1 << ctr))
possible_addresses.extend(new_ips)
tmp = list(set(possible_addresses))
for ip in tmp:
returnval['multicast']['rx_ips'].append(IpAddress(ip))
if read_arp:
returnval['arp'] = self.get_arp_details()
if read_cpu:
returnval.update(self.get_cpu_details())
self.core_details = returnval
return returnval
