mirror of
https://github.com/xcat2/confluent.git
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83 lines
3.4 KiB
Python
83 lines
3.4 KiB
Python
import argparse
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import struct
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import os
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import sys
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# This script will create a PXE or HTTP boot entry specific for a linux nic using
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# convenience of the linux interface name. It can help produce precise network boot order
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# configuration more easily if that is useful
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# only tested with Lenovo system firmware on PCIe network adapters
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parser = argparse.ArgumentParser(description='Generate an efivars boot entry file')
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parser.add_argument('interface', help='Current linux interface name to boot from')
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parser.add_argument('outfile', help='The file to write, e.g. /sys/firmware/efi/efivars/Boot0007-8be4df61-93ca-11d2-aa0d-00e098032b8c')
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parser.add_argument('-u', help='The HTTP url to boot, "" for generic HTTP boot instead of PXE')
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args = parser.parse_args()
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with open('/sys/class/net/{0}/address'.format(sys.argv[1])) as macaddr:
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macaddr = macaddr.read()
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macaddr = macaddr.split(':')
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macaddr = [ int(x, 16) for x in macaddr ]
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macaddr = bytes(macaddr)
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olddir = os.getcwd()
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os.chdir('/sys/class/net/{0}'.format(sys.argv[1]))
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devdir = os.readlink('/sys/class/net/{0}/device'.format(sys.argv[1]))
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os.chdir(devdir)
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pcipath = os.getcwd()
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pcipath = pcipath.split('/')
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os.chdir('/'.join(pcipath[:4]))
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acpiid = os.readlink('firmware_node')
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os.chdir(acpiid)
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hid = '0A03' # do not adapt, always say pciroot, pcieroot doesn't work open('hid').read().replace('PNP', '')
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hid = int(hid, 16) << 16 | 0x41d0
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hid = struct.pack('<I', hid)
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uid = open('uid').read()
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uid = struct.pack('<I', int(uid, 16))
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pcipath = pcipath[4:]
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os.chdir(olddir)
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url = args.u
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if url is not None:
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url = url.encode('utf8')
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with open(sys.argv[2], 'wb') as output:
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output.write(struct.pack('<I', 7)) # write out attributes, for now always 7
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output.write(struct.pack('<I', 1)) # write out attributes, for now always 1
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# 0x50 is smallest, acpi, mac, and ip devpaths, each pci path hop adds 6 bytes
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baselen = 0x50
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if url is not None: #well, we need more length for http boot
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baselen += len(url) + 4
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output.write(struct.pack('<H', baselen + (len(pcipath) * 6)))
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desc = sys.argv[1]
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if url is None:
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desc += '-pxe'
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else:
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desc += '-http'
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output.write(desc.encode('utf16')[2:])
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output.write(b'\x00\x00') # terminate the description
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# first we need pciroot, which is an acpi path, table 52, HID is PNP0A03
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output.write(b'\x02\x01\x0c\x00') # acpi devpath header
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output.write(hid) # ACPI hid, either PciRoot or PcieRoot
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output.write(uid) # ACPI uid of the pci root complex
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for pcihop in pcipath:
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pcihop = pcihop.rsplit(':', 1)[-1]
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output.write(b'\x01\x01\x06\x00')
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devnum, funnum = pcihop.split('.')
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devnum = int(devnum, 16)
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funnum = int(funnum, 16)
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output.write(struct.pack('BB', funnum, devnum))
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output.write(b'\x03\x0b\x25\x00')
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output.write(macaddr)
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output.write(b'\x00' * (32 - len(macaddr))) # pad out to the rest of the 32 bytes
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output.write(b'\x01') # type is ethernet, 1, per rfc 3232
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output.write(b'\x03\x0c\x1b\x00') # ipv4 header, table 71 from section 10.3.4.12
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output.write(b'\x00' * 23) # all zero for the data
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# if args.u, we need a Messaging device path, subtypee 24, uri, table 83
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if url is not None:
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output.write(b'\x03\x18')
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output.write(struct.pack('<H', 4 + len(url)))
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if url:
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output.write(url)
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output.write(b'\x7f\xff\x04\x00') # table 45, device path end structure
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