""" Please make sure you read the README COMPLETELY BEFORE reading anything below.
It is very critical that you read coding guidelines in Section E in README file.
"""
from xnu import *
from utils import *
from string import *
from net import *
import xnudefines
def IterateProcChannels(proc):
""" Iterate through all channels in the given process
params:
proc - the proc object
returns: nothing, this is meant to be used as a generator function
kc - yields each kern_channel in the process
"""
proc_filedesc = proc.p_fd
proc_lastfile = unsigned(proc_filedesc.fd_lastfile)
proc_ofiles = proc_filedesc.fd_ofiles
count = 0
while count <= proc_lastfile:
if unsigned(proc_ofiles[count]) != 0:
proc_fd_fglob = proc_ofiles[count].fp_glob
if (unsigned(proc_fd_fglob.fg_ops.fo_type) == 10):
yield Cast(proc_fd_fglob.fg_data, 'kern_channel *')
count += 1
def IterateKernChannelRings(kc, kind):
""" Iterate through all rings on a given channel
"""
NR_RX = 0
NR_TX = 1
NR_A = 2
NR_F = 3
if kind == NR_RX:
rings = kc.ch_na.na_rx_rings
elif kind == NR_TX :
rings = kc.ch_na.na_tx_rings
elif kind == NR_A :
rings = kc.ch_na.na_alloc_rings
else :
rings = kc.ch_na.na_free_rings
for i in xrange(kc.ch_first[kind], kc.ch_last[kind]):
yield addressof(rings[i])
@lldb_type_summary(['kern_channel_t', 'kern_channel *'])
@header('{:<20s} {:<36s}'.format('kern_channel', 'uuid'))
def GetKernChannelSummary(kc):
""" Summarizes a kern_channel and related information
returns: str - summary of kern_channel
"""
format_string = '{o: <#020x} {u: <36s}'
return format_string.format(
o=kc,
u=GetUUIDSummary(kc.ch_info.cinfo_ch_id))
@lldb_type_summary(['__kern_channel_ring *'])
@header('{:<20s} {:<65s} {:>10s} | {:<5s} {:<5s} | {:<5s} {:<5s} | {:<5s} {:<5s}'.format(
'kernchannelring', 'name', 'flags', 'kh', 'kt', 'rh', 'rt', 'h', 't'))
def GetKernChannelRingSummary(kring):
""" Summarizes a __kern_channel_ring and related information
returns: str - summary of kern_channel_ring
"""
format_string = '{o: <#020x} "{name: <63s}" {flags: >#010x} | {kh: <5d} {kt: <5d} | {rh: <5d} {rt: <5d} | {h: <5d} {t: <5d}'
return format_string.format(
o=kring,
name=kring.ckr_name,
flags=kring.ckr_flags,
kh=kring.ckr_khead,
kt=kring.ckr_ktail,
rh=kring.ckr_rhead,
rt=kring.ckr_rtail,
h=kring.ckr_ring.ring_head,
t=kring.ckr_ring.ring_tail)
@lldb_command('showprocchannels')
def ShowProcChannels(cmd_args=None):
""" Show the skywalk channels for a given process.
usage: showprocchannels <proc_t>
"""
if not cmd_args:
raise ArgumentError('missing struct proc * argument')
proc = kern.GetValueFromAddress(cmd_args[0], 'proc_t')
print GetKernChannelSummary.header
for kc in IterateProcChannels(proc):
print GetKernChannelSummary(kc)
@lldb_command('showchannelrings')
def ShowChannelRings(cmd_args=None):
""" Show the skywalk rings for a given channel.
usage: showchannelrings <struct kern_channel *>
"""
if not cmd_args:
raise ArgumentError('missing struct kern_channel * argument')
kc = kern.GetValueFromAddress(cmd_args[0], 'kern_channel *')
print "RX rings:"
print GetKernChannelRingSummary.header
for ring in IterateKernChannelRings(kc, 0) :
print GetKernChannelRingSummary(ring)
print "TX rings:"
print GetKernChannelRingSummary.header
for ring in IterateKernChannelRings(kc, 1) :
print GetKernChannelRingSummary(ring)
print "ALLOC rings:"
print GetKernChannelRingSummary.header
for ring in IterateKernChannelRings(kc, 2) :
print GetKernChannelRingSummary(ring)
print "FREE rings:"
print GetKernChannelRingSummary.header
for ring in IterateKernChannelRings(kc, 3) :
print GetKernChannelRingSummary(ring)
def SkmemCacheModeAsString(mode) :
out_string = ""
SKM_MODE_NOCACHE = 0x1
SKM_MODE_AUDIT = 0x2
if (mode & SKM_MODE_NOCACHE) :
out_string += "n"
else :
out_string += "-"
if (mode & SKM_MODE_AUDIT) :
out_string += "a"
else :
out_string += "-"
return out_string
@lldb_command('showskmemcache')
def ShowSkmemCache(cmd_args=None) :
""" Show the global list of skmem caches
"""
format_string = "{:<4s} {:<18s} {:<4s} {:<4s} {:<4s} {:<4s} {:<4s} {:<4s} {:<4s} {:<4s} {:<4s} {:<s}"
print format_string.format("", "ADDR", "BUFI", "BUFM", "RESC", "SLCR", "SLDE", "SLAL", "SLFR", "DECO", "MODE", "NAME")
i = 1
skmhead = kern.globals.skmem_cache_head
for skm in IterateTAILQ_HEAD(skmhead, "skm_link") :
format_string = "{:>4d}: 0x{:<08x} {:<4d} {:<4d} {:<4d} {:<4d} {:<4d} {:<4d} {:<4d} {:<4d} {:<4s} \"{:<s}\""
print format_string.format(i, skm, skm.skm_bufinuse, skm.skm_bufmax, skm.skm_rescale, skm.skm_sl_create, skm.skm_sl_destroy, skm.skm_sl_alloc, skm.skm_sl_free, skm.skm_depot_contention, SkmemCacheModeAsString(skm.skm_mode), str(skm.skm_name))
i += 1
@lldb_command('showskmemslab')
def ShowBufCtl(cmd_args=None) :
""" Show slabs and bufctls of a skmem cache
"""
if (cmd_args == None or len(cmd_args) == 0) :
print "Missing argument 0 (skmem_cache address)."
return
skm = kern.GetValueFromAddress(cmd_args[0], 'skmem_cache *')
for slab in IterateTAILQ_HEAD(skm.skm_sl_partial, "sl_link") :
format_string = "{:<18s} {:<4s} {:18s} {:18s}"
print format_string.format("slab", "ref", "base", "basem")
format_string = "0x{:<08x} {:<4d} 0x{:<08x} 0x{:08x}"
print format_string.format(slab, slab.sl_refcnt, slab.sl_base, slab.sl_basem)
print "\t========================= free ========================="
format_string = "\t{:<18s} {:18s} {:18s}"
print format_string.format("bufctl", "buf_addr", "buf_addrm")
for bc in IterateListEntry(slab.sl_head, 'struct skmem_bufctl *',
'bc_link', list_prefix='s') :
format_string = "\t0x{:<08x} 0x{:<08x} 0x{:<08x}"
print format_string.format(bc, bc.bc_addr, bc.bc_addrm)
for slab in IterateTAILQ_HEAD(skm.skm_sl_empty, "sl_link") :
format_string = "{:<18s} {:<4s} {:18s} {:18s}"
print format_string.format("slab", "ref", "base", "basem")
format_string = "0x{:<08x} {:<4d} 0x{:<08x} 0x{:08x}"
print format_string.format(slab, slab.sl_refcnt, slab.sl_base, slab.sl_basem)
print "\t========================= free ========================="
format_string = "\t{:<18s} {:18s} {:18s}"
print format_string.format("bufctl", "buf_addr", "buf_addrm")
for bc in IterateListEntry(slab.sl_head, 'struct skmem_bufctl *',
'bc_link', list_prefix='s') :
format_string = "\t0x{:<08x} 0x{:<08x} 0x{:<08x}"
print format_string.format(bc, bc.bc_addr, bc.bc_addrm)
print " "
for i in range(0, skm.skm_hash_mask + 1) :
format_string = "{:<18s} {:<4s}"
print format_string.format("bucket", "idx")
format_string = "0x{:<08x} {:<4d}"
print format_string.format(addressof(skm.skm_hash_table[i]), i)
print "\t====================== allocated ======================="
format_string = "\t{:<18s} {:18s} {:18s}"
print format_string.format("bufctl", "buf_addr", "buf_addrm")
for bc in IterateListEntry(skm.skm_hash_table[i].bcb_head,
'struct skmem_bufctl *', 'bc_link', list_prefix='s') :
format_string = "\t0x{:<08x} 0x{:<08x} 0x{:<08x}"
print format_string.format(bc, bc.bc_addr, bc.bc_addrm)
def SkmemArenaTypeAsString(type) :
out_string = ""
SKMEM_ARENA_TYPE_NEXUS = 0
SKMEM_ARENA_TYPE_NECP = 1
SKMEM_ARENA_TYPE_SYSTEM = 2
if (type == SKMEM_ARENA_TYPE_NEXUS) :
out_string += "NEXUS"
elif (type == SKMEM_ARENA_TYPE_NECP) :
out_string += "NECP"
elif (type == SKMEM_ARENA_TYPE_SYSTEM) :
out_string += "SYSTEM"
else :
out_string += "?"
return out_string
@lldb_command('showskmemarena')
def ShowSkmemArena(cmd_args=None) :
""" Show the global list of skmem arenas
"""
i = 1
arhead = kern.globals.skmem_arena_head
for ar in IterateTAILQ_HEAD(arhead, "ar_link") :
format_string = "{:>4d}: 0x{:<08x} {:<6s} {:>5d} KB \"{:<s}\""
print format_string.format(i, ar, SkmemArenaTypeAsString(ar.ar_type), ar.ar_mapsize >> 10, str(ar.ar_name))
i += 1
@lldb_command('showskmemregions')
def ShowSkmemRegions(cmd_args=None) :
""" Show the global list of skmem regions
"""
i = 1
skrhead = kern.globals.skmem_region_head
for skr in IterateTAILQ_HEAD(skrhead, "skr_link") :
format_string = "{:>4d}: 0x{:<08x} \"{:<s}\""
print format_string.format(i, skr, str(skr.skr_name))
i += 1
@lldb_command('showskmemregion')
def ShowSkmemRegion(cmd_args=None) :
""" Show segments of a skmem region
"""
if (cmd_args == None or len(cmd_args) == 0) :
print "Missing argument 0 (skmem_region address)."
return
skr = kern.GetValueFromAddress(cmd_args[0], 'skmem_region *')
print "\t========================= free ========================="
for sg in IterateTAILQ_HEAD(skr.skr_seg_free, "sg_link") :
format_string = "{:<18s} {:<4s} {:18s} {:18s}"
print format_string.format("segment", "idx", "start", "end")
format_string = "0x{:<08x} {:<4d} 0x{:<08x} 0x{:08x}"
print format_string.format(sg, sg.sg_index, sg.sg_start, sg.sg_end)
format_string = "\t{:<18s} {:18s} {:18s}"
print format_string.format("bufctl", "buf_addr", "buf_addrm")
print " "
for i in range(0, skr.skr_hash_mask + 1) :
format_string = "{:<18s} {:<4s}"
print format_string.format("bucket", "idx")
format_string = "0x{:<08x} {:<4d}"
print format_string.format(addressof(skr.skr_hash_table[i]), i)
print "\t====================== allocated ======================="
format_string = "\t{:<18s} {:4s} {:18s} {:18s}"
print format_string.format("segment", "idx", "start", "end")
for sg in IterateTAILQ_HEAD(skr.skr_hash_table[i].sgb_head, "sg_link") :
format_string = "\t0x{:<08x} {:<4d} 0x{:<08x} 0x{:<08x}"
print format_string.format(sg, sg.sg_index, sg.sg_start, sg.sg_end)
@lldb_command('showchannelupphash')
def ShowChannelUppHash(cmd_args=None) :
""" Show channel user packet pool hash chain
"""
if (cmd_args == None or len(cmd_args) == 0) :
print "Missing argument 0 (skmem_cache address)."
return
ch = kern.GetValueFromAddress(cmd_args[0], 'kern_channel *')
KERN_CHANNEL_UPP_HTBL_SIZE = 256
for i in range(KERN_CHANNEL_UPP_HTBL_SIZE) :
bkt = addressof(ch.ch_upp_hash_table[i])
format_string = "{:>4d} 0x{:<08x}"
print format_string.format(i, bkt)
for kqum in IterateListEntry(bkt.upp_head, 'struct __kern_quantum *',
'qum_upp_link', list_prefix='s') :
format_string = "0x{:<08x}"
print format_string.format(kqum)
@lldb_type_summary(['struct ns *'])
@header('{:<20s} {:<5s} {:<48s} {:<4s}'.format('ns', 'proto', 'addr', 'nreservations'))
def GetStructNsSummary(ns):
""" Summarizes a struct ns from the netns
returns: str - summary of struct ns
"""
if (ns.ns_proto == IPPROTO_TCP):
proto = "tcp"
elif (ns.ns_proto == IPPROTO_UDP):
proto = "udp"
else:
proto = str(ns.ns_proto)
if (ns.ns_addr_len == sizeof('struct in_addr')):
addr = GetInAddrAsString(addressof(ns.ns_inaddr))
elif (ns.ns_addr_len == sizeof('struct in6_addr')):
addr = GetIn6AddrAsString(ns.ns_in6addr.__u6_addr.__u6_addr8)
else:
addr = str(ns_addr) + " bad len {:u}".format(ns.ns_addr_len)
format_string = '{o:#020x} {p:<5s} {a:<48s} {n:<4d}'
""" show ports and refs, one per line
"""
ports_string = "ports & refs\n"
for f in IterateRBTreeEntry(ns.ns_reservations, 'struct ns_reservation *', 'nsr_link'):
ports_string += "\t%u" % f.nsr_port
ports_string += "\tlisten %d\tskywalk %d\tbsd %d\tpf %d\n" % (f.nsr_refs[0], f.nsr_refs[1], f.nsr_refs[2], f.nsr_refs[3])
""" show just the ports, not refs
offs = 0
ports_string = "\nports:\t"
for f in IterateRBTreeEntry(ns.ns_reservations, 'struct ns_reservation *', 'nsr_link'):
if (len(ports_string)-offs > 70):
ports_string += "\n\t"
offs = len(ports_string)
ports_string += " %u" % f.nsr_port
"""
return format_string.format(
o=ns,
p=proto,
a=addr,
n=ns.ns_n_reservations) + ports_string
@lldb_command('shownetns')
def ShowNetNS(cmd_args=None):
""" Show the netns table
"""
print"\nnetns_namespaces:"
print GetStructNsSummary.header
namespaces = kern.globals.netns_namespaces
for ns in IterateRBTreeEntry(namespaces, 'struct ns *', 'ns_link'):
print GetStructNsSummary(ns)
print "\nwild: (these should be duplicated above)"
print GetStructNsSummary.header
for i in range(0,4):
print GetStructNsSummary(kern.globals.netns_global_wild[i])
print "\nnon wild:"
print GetStructNsSummary.header
for i in range(0,4):
print GetStructNsSummary(kern.globals.netns_global_non_wild[i])
@lldb_type_summary(['struct ns_token *'])
@header('{:<20s} {:<5s} {:<48s} {:<12s} {:<8s} {:<38s} {:<38s} {:<12s}'.format('nt', 'proto', 'addr', 'port', 'owner', 'ifp', 'parent', 'flags'))
def GetNsTokenSummary(nt):
""" Summarizes a struct ns from the netns
returns: str - summary of struct ns
"""
if (nt.nt_proto == IPPROTO_TCP):
proto = "tcp"
elif (nt.nt_proto == IPPROTO_UDP):
proto = "udp"
else:
proto = str(nt.nt_proto)
if (nt.nt_addr_len == sizeof('struct in_addr')):
addr = GetInAddrAsString(addressof(nt.nt_inaddr))
elif (nt.nt_addr_len == sizeof('struct in6_addr')):
addr = GetIn6AddrAsString(nt.nt_in6addr.__u6_addr.__u6_addr8)
else:
addr = str(nt_addr) + " bad len {:u}".format(nt.nt_addr_len)
format_string = '{o:#020x} {p:<5s} {a:<48s} {pt:<12s} {wn:<8s} {ifp:38s} {pa:38s} {f:#012x}'
ports = "%u" % nt.nt_port
ifp = "(struct ifnet *)" + hex(nt.nt_ifp)
if ((nt.nt_flags & 0x7) == 0x00):
owner = "LISTENER"
parent = "(void *)" + hex(nt.nt_parent)
elif ((nt.nt_flags & 0x7) == 0x01):
owner = "SKYWALK"
parent = "(struct flow_entry *)" + hex(nt.nt_parent_skywalk)
elif ((nt.nt_flags & 0x7) == 0x02): owner = "BSD"
parent = "(struct inpcb *)" + hex(nt.nt_parent_bsd)
elif ((nt.nt_flags & 0x7) == 0x03): owner = "PF"
parent = "(void *)" + hex(nt.nt_parent)
return format_string.format(
o=nt,
p=proto,
a=addr,
pt=ports,
wn=owner,
ifp=ifp,
pa=parent,
f=nt.nt_flags)
@lldb_command("showallnetnstokens")
def ShowAllNetNSTokens(cmd_args=None):
""" show all netns tokens
"""
tokenhead = kern.globals.netns_all_tokens
print GetNsTokenSummary.header
for nt in IterateListEntry(tokenhead, 'struct ns_token *', 'nt_all_link', list_prefix='s'):
print GetNsTokenSummary(nt)
@lldb_command("shownetnstokens")
def ShowNetNSTokens(cmd_args=None):
""" show netns tokens attached to an ifp
with no args, shows unbound tokens
"""
if (cmd_args == None or len(cmd_args) == 0):
print "No ifp argument provided, showing unbound tokens"
tokenhead = kern.globals.netns_unbound_tokens
elif len(cmd_args) > 0:
ifp = kern.GetValueFromAddress(cmd_args[0], 'ifnet *')
print "Showing tokens for ifp %r" % ifp
tokenhead = ifp.if_netns_tokens
else:
print "Missing ifp argument 0 in shownetnstokens"
print cmd_args
return
print GetNsTokenSummary.header
for nt in IterateListEntry(tokenhead, 'struct ns_token *', 'nt_ifp_link', list_prefix='s'):
print GetNsTokenSummary(nt)
def IterateSTAILQ_HEAD(headval, element_name):
iter_val = headval.stqh_first
while unsigned(iter_val) != 0 :
yield iter_val
iter_val = iter_val.__getattr__(element_name).stqe_next
@lldb_command("shownexuschannels")
def ShowNexusChannels(cmd_args=None):
""" show nexus channels
"""
if (cmd_args == None or len(cmd_args) == 0):
print "Missing argument 0 (kern_nexus address)."
return
nx = kern.GetValueFromAddress(cmd_args[0], 'kern_nexus *')
i = 1
format_string = "{:>4s} {:<18s} {:>4s} {:<7s} {:<7s} {:<18s} {:<18s} {:<18s} {:>8s} {:6s} {:<18s} {:>4s} {:s}"
print format_string.format("", "addr", "refs", "txrings", "rxrings", "arena", "ioskmap", "mapaddr", "mapsize", "maprdr", "na", "fd", "process")
for ch in IterateSTAILQ_HEAD(nx.nx_ch_head, "ch_link"):
format_string = "{:>4d}: 0x{:<08x} {:>4d} [{:2d},{:2d}] [{:2d},{:2d}] 0x{:<08x} 0x{:<08x} 0x{:<16x} {:>8d} {:>6d} 0x{:<08x} {:>4d} {:s}({:d})"
print format_string.format(i, ch, ch.ch_refcnt, ch.ch_first[0], ch.ch_last[0], ch.ch_first[1], ch.ch_last[1], ch.ch_mmap.ami_arena, ch.ch_mmap.ami_mapref, ch.ch_mmap.ami_mapaddr, ch.ch_mmap.ami_mapsize, ch.ch_mmap.ami_redirect, ch.ch_na, ch.ch_fd, ch.ch_name, ch.ch_pid)
i += 1
for ch in IterateSTAILQ_HEAD(nx.nx_ch_nonxref_head, "ch_link"):
format_string = "{:>4d}: 0x{:<08x} {:>4d} [{:2d},{:2d}] [{:2d},{:2d}] 0x{:<08x} 0x{:<08x} 0x{:<16x} {:>8d} {:>6d} 0x{:<08x} {:>4d} {:s}({:d})"
print format_string.format(i, ch, ch.ch_refcnt, ch.ch_first[0], ch.ch_last[0], ch.ch_first[1], ch.ch_last[1], ch.ch_mmap.ami_arena, ch.ch_mmap.ami_mapref, ch.ch_mmap.ami_mapaddr, ch.ch_mmap.ami_mapsize, ch.ch_mmap.ami_redirect, ch.ch_na, ch.ch_fd, ch.ch_name, ch.ch_pid)
i += 1
def IterateProcNECP(proc):
""" Iterate through all NECP descriptors in the given process
params:
proc - the proc object
returns: nothing, this is meant to be used as a generator function
necp - yields each necp_fd_data in the process
"""
proc_filedesc = proc.p_fd
proc_lastfile = unsigned(proc_filedesc.fd_lastfile)
proc_ofiles = proc_filedesc.fd_ofiles
count = 0
while count <= proc_lastfile:
if unsigned(proc_ofiles[count]) != 0:
proc_fd_fglob = proc_ofiles[count].fp_glob
if (unsigned(proc_fd_fglob.fg_ops.fo_type) == 9):
yield Cast(proc_fd_fglob.fg_data, 'necp_fd_data *')
count += 1
def GetNECPClientBitFields(necp):
""" Return the bit fields in necp_client as string
returns: str - string representation of necp_client bit fields
"""
bitfields_string = ''
if necp.result_read != 0:
bitfields_string += 'r'
else:
bitfields_string += '-'
if necp.allow_multiple_flows != 0:
bitfields_string += 'm'
else:
bitfields_string += '-'
if necp.background != 0:
bitfields_string += 'b'
else:
bitfields_string += '-'
if necp.background_update != 0:
bitfields_string += 'B'
else:
bitfields_string += '-'
if necp.platform_binary != 0:
bitfields_string += 'p'
else:
bitfields_string += '-'
return bitfields_string
def GetNECPFlowBitFields(flow_registration):
""" Return the bit fields in necp_client_flow_registration as string
returns: str - string representation of necp_client_flow_registration bit fields
"""
bitfields_string = ''
if flow_registration.flow_result_read != 0:
bitfields_string += 'r'
else:
bitfields_string += '-'
if flow_registration.defunct != 0:
bitfields_string += 'd'
else:
bitfields_string += '-'
return bitfields_string
@lldb_type_summary(['necp_fd_data *'])
@header('{:<20s} {:<8s}'.format('necp_fd_data', "flags"))
def GetNECPSummary(necp):
""" Summarizes a necp_fd_data and related information
returns: str - summary of necp_fd_data
"""
format_string = '{o: <#020x} {u:<#08x}'
stats_arenas_string = "\n\n\t%-18s %-39s %-4s %-10s\n" % ("stats_arenas", "mmap", "refs", "flags")
for sa in IterateListEntry(necp.stats_arena_list, 'struct necp_arena_info *', 'nai_chain'):
stats_arenas_string += "\t0x%016x " % sa
stats_arenas_string += "[0x%016x-0x%016x) " % (sa.nai_mmap.ami_mapaddr,(sa.nai_mmap.ami_mapaddr+sa.nai_mmap.ami_mapsize))
stats_arenas_string += "%4u " % sa.nai_use_count
stats_arenas_string += "0x%08x " % sa.nai_flags
stats_arenas_string += "\n"
clients_string = ""
for c in IterateRBTreeEntry(necp.clients, 'struct necp_client *', 'link'):
clients_string += "\n\t%-18s %-36s %-4s %-5s\n" % ("necp_clients", "client_id", "refs", "flags")
clients_string += "\t0x%016x " % c
clients_string += "%36s " % GetUUIDSummary(c.client_id)
clients_string += "%4u " % c.reference_count
clients_string += "%5s " % GetNECPClientBitFields(c)
count = 0;
for f in IterateRBTreeEntry(c.flow_registrations, 'struct necp_client_flow_registration *', 'client_link'):
if count == 0:
clients_string += "\n\t\t%-18s %-36s %-2s %-18s %-18s %-18s\n" % ("flow_registration", "registraton_id", "flags", "stats_arena", "kstats_obj", "ustats_obj")
clients_string += "\t\t0x%016x " % f
clients_string += "%36s " % GetUUIDSummary(f.registration_id)
clients_string += "%2s " % GetNECPFlowBitFields(f)
clients_string += "0x%016x " % f.stats_arena
clients_string += "0x%016x " % f.kstats_kaddr
clients_string += "0x%016x " % f.ustats_uaddr
clients_string += "\n"
return format_string.format(
o=necp,
u=necp.flags) + stats_arenas_string + clients_string
@lldb_command('showprocnecp')
def ShowProcNECP(cmd_args=None):
""" Show NECP descriptors for a given process.
usage: showprocnecp <proc_t>
"""
if not cmd_args:
raise ArgumentError('missing struct proc * argument')
proc = kern.GetValueFromAddress(cmd_args[0], 'proc_t')
print GetNECPSummary.header
for kc in IterateProcNECP(proc):
print GetNECPSummary(kc)
def NexusTypePtr(nx):
if nx.nx_prov.nxprov_params.nxp_type == GetEnumValue("nexus_type_t::NEXUS_TYPE_FLOW_SWITCH"):
return "(struct nx_flowswitch *){:18s}".format(hex(nx.nx_arg))
elif nx.nx_prov.nxprov_params.nxp_type == GetEnumValue("nexus_type_t::NEXUS_TYPE_NET_IF"):
return " (struct nx_netif *){:18s}".format(hex(nx.nx_arg))
elif nx.nx_prov.nxprov_params.nxp_type == GetEnumValue("nexus_type_t::NEXUS_TYPE_USER_PIPE"):
return " (struct nx_upipe *){:18s}".format(hex(nx.nx_arg))
elif nx.nx_prov.nxprov_params.nxp_type == GetEnumValue("nexus_type_t::NEXUS_TYPE_KERNEL_PIPE"):
return " (struct kern_nexus *){:18s}".format(hex(nx))
else:
return "unknown"
def GetStructNexusSummary(nx):
nexus_summary_string = ""
nexus_summary_string += "{0:s} ".format(NexusTypePtr(nx))
nexus_summary_string += "{0:30s} ".format(str(Cast(addressof(nx.nx_prov.nxprov_params.nxp_name), 'char *')))
nexus_summary_string += "rings: tx {:2d} rx {:2d} slots: {:4d} rx {:4d} bufsize {:5d} metasize {:5d} mhints {:2d} ".format(
nx.nx_prov.nxprov_params.nxp_tx_rings,
nx.nx_prov.nxprov_params.nxp_rx_rings,
nx.nx_prov.nxprov_params.nxp_rx_slots,
nx.nx_prov.nxprov_params.nxp_tx_slots,
nx.nx_prov.nxprov_params.nxp_buf_size,
nx.nx_prov.nxprov_params.nxp_meta_size,
nx.nx_prov.nxprov_params.nxp_mhints)
return nexus_summary_string
@lldb_command('shownexuses')
def ShowNexuses(cmd_args=None):
""" Show Nexus.
usage: shownexues
"""
nexus_summaries = []
nexuses = kern.globals.nx_head
for nx in IterateRBTreeEntry(nexuses, 'struct kern_nexus*', 'nx_link'):
nexus_summaries.append(GetStructNexusSummary(nx))
nexus_summaries.sort()
for nx_str in nexus_summaries:
print "{0:s}".format(nx_str)
def GetSockAddr4(in_addr):
return inet_ntoa(struct.pack("!I", in_addr.sin_addr))
def GetSockAddr6(in6_addr):
addr = in6_addr.__u6_addr.__u6_addr8
addr_raw_string = ":".join(["{0:02x}{0:02x}".format(unsigned(addr[i]),
unsigned(addr[i+1])) for i in range(0, 16, 2)])
return inet_ntop(AF_INET6, inet_pton(AF_INET6, addr_raw_string))
def FlowKeyStr(fk):
if fk.fk_ipver == 0x4:
src_str = GetSockAddr4(fk.fk_src._v4)
dst_str = GetSockAddr4(fk.fk_dst._v4)
elif fk.fk_ipver == 0x60:
src_str = GetSockAddr6(fk.fk_src._v6)
dst_str = GetSockAddr6(fk.fk_dst._v6)
else:
return "unkown ipver"
return "src={},dst={},proto={},sport={},dport={}".format(src_str, dst_str,
unsigned(fk.fk_proto), ntohs(fk.fk_sport), ntohs(fk.fk_dport))
def FlowEntryStr(fe):
return "(struct flow_entry*){} {} ".format(hex(fe), FlowKeyStr(fe.fe_key))
def GetFlowEntryPid(fe):
return fe.fe_pid
def GetFlowswitchFlowEntries(fsw):
fm = kern.GetValueFromAddress(unsigned(fsw.fsw_flow_mgr), 'struct flow_mgr *')
cht = kern.GetValueFromAddress(unsigned(fm.fm_flow_table), 'struct cuckoo_hashtable *')
flows = []
def GetCuckooNodeAsFLowEntry(node, hashValue):
fe = containerof(node, 'struct flow_entry', 'fe_cnode')
flows.append(fe)
CuckooHashtableForeach(cht, GetCuckooNodeAsFLowEntry)
return flows
def IsNexusAFlowswitch(nx):
return nx.nx_prov.nxprov_params.nxp_type == GetEnumValue('nexus_type_t::NEXUS_TYPE_FLOW_SWITCH')
def GetNexusAsFlowswitch(nx):
return kern.GetValueFromAddress(unsigned(nx.nx_arg), 'struct nx_flowswitch *')
def FlowswitchStr(fsw):
return "{}:\n(struct nx_flowswitch *){}".format(str(fsw.fsw_ifp.if_xname), hex(fsw))
@lldb_command('showflowswitches')
def ShowFlowswitches(cmd_args=None):
""" Show flow switches
usage: showflowswitches [ifname]
"""
ifname = ""
if len(cmd_args) == 1:
ifname = cmd_args[0]
nexuses = kern.globals.nx_head
for nx in IterateRBTreeEntry(nexuses, 'struct kern_nexus*', 'nx_link'):
if not IsNexusAFlowswitch(nx):
continue
fsw = GetNexusAsFlowswitch(nx)
if ifname not in str(fsw.fsw_ifp.if_xname):
continue
print "{}".format(FlowswitchStr(fsw))
flows = GetFlowswitchFlowEntries(fsw)
flows.sort(key=GetFlowEntryPid)
for fe in flows:
print " {}".format(FlowEntryStr(fe))
def CuckooHashtableForeachSlot(cht, slotHandler):
for i in range(0, cht._n_buckets):
b = cht._buckets[i]
if unsigned(b._inuse) == 0:
continue
for j in range(0, kern.globals._CHT_BUCKET_SLOTS):
s = b._slots[j]
if unsigned(s._node) != 0:
slotHandler(s)
def CuckooHashtableForeach(cht, handler):
def CuckooHashtableSlotHandler(s):
if unsigned(s._node) == 0:
return
node = s._node
while unsigned(node) != 0:
handler(node, s._hash)
node = node.next
CuckooHashtableForeachSlot(cht, CuckooHashtableSlotHandler)
@lldb_command('showcuckoohashtable')
def ShowCuckooHashtable(cmd_args=None):
""" Show Cuckoo Hashtable.
usage: showcuckoohashtable <struct cuckoo_hashtable *>
"""
if not cmd_args:
raise ArgumentError('missing struct cuckoo_hashtable * argument')
cht = kern.GetValueFromAddress(cmd_args[0], 'struct cuckoo_hashtable *')
print "(struct cuckoo_hashtable *){:18s} capacity {:d} entries {:d}".format(hex(cht), cht._capacity, cht._n_entries)
def CuckooHashtablePrintNode(node, hashValue):
print " node {} hash 0x{:08x}".format(hex(node), int(hashValue))
CuckooHashtableForeach(cht, CuckooHashtablePrintNode)
@lldb_command('showprotons')
def ShowProtoNS(cmd_args=None):
""" Show the protons table
"""
protons_tokens = kern.globals.protons_tokens
for pt in IterateRBTreeEntry(protons_tokens, 'struct protons_token *', 'pt_link'):
print "(struct protons_token *){} protocol {:3} pid {:5} epid {:5} ref {:2} flags {}".format(
hex(pt), int(pt.pt_protocol), int(pt.pt_pid), int(pt.pt_epid),
int(pt.pt_refcnt.ref_count), hex(pt.pt_flags))