def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
"""This vmware translation layer always requires a separate metadata
layer."""
return [
requirements.TranslationLayerRequirement(name = 'base_layer', optional = False),
requirements.TranslationLayerRequirement(name = 'meta_layer', optional = False)
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = "Memory layer for the kernel",
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols", description = "Windows kernel symbols"),
requirements.BooleanRequirement(name = "wide",
description = "Match wide (unicode) strings",
default = False,
optional = True),
requirements.StringRequirement(name = "yara_rules",
description = "Yara rules (as a string)",
optional = True),
requirements.URIRequirement(name = "yara_file", description = "Yara rules (as a file)", optional = True),
requirements.IntRequirement(name = "max_size",
default = 0x40000000,
description = "Set the maximum size (default is 1GB)",
optional = True),
requirements.PluginRequirement(name = 'pslist', plugin = pslist.PsList, version = (1, 0, 0)),
requirements.VersionRequirement(name = 'yarascanner', component = yarascan.YaraScanner,
version = (2, 0, 0)),
requirements.ListRequirement(name = 'pid',
element_type = int,
description = "Process IDs to include (all other processes are excluded)",
optional = True)
]
def get_requirements(cls):
# Since we're calling the plugin, make sure we have the plugin's requirements
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.IntRequirement(
name='pid',
description=
"Process ID to include (all other processes are excluded)",
optional=True),
requirements.StringRequirement(
name="imphash",
description="Search single imphash value",
optional=True),
requirements.StringRequirement(
name="imphashlist",
description="Search imphash list file",
optional=True),
requirements.PluginRequirement(name='pslist',
plugin=pslist.PsList,
version=(1, 0, 0)),
requirements.PluginRequirement(name='vadinfo',
plugin=vadinfo.VadInfo,
version=(1, 0, 0)),
]
def get_requirements(
cls) -> List[interfaces.configuration.RequirementInterface]:
# Since we're calling the plugin, make sure we have the plugin's requirements
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.ListRequirement(
name='pid',
description='Filter on specific process IDs',
element_type=int,
optional=True),
requirements.BooleanRequirement(
name='silent',
description='Suppress common and non-persistent variables',
optional=True),
requirements.PluginRequirement(name='pslist',
plugin=pslist.PsList,
version=(2, 0, 0)),
requirements.PluginRequirement(name='hivelist',
plugin=hivelist.HiveList,
version=(1, 0, 0))
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.PluginRequirement(name='pslist',
plugin=pslist.PsList,
version=(2, 0, 0)),
requirements.VersionRequirement(name='info',
component=info.Info,
version=(1, 0, 0)),
requirements.ListRequirement(
name='pid',
element_type=int,
description=
"Process ID to include (all other processes are excluded)",
optional=True),
requirements.BooleanRequirement(
name='dump',
description="Extract listed processes",
default=False,
optional=True)
]
def get_requirements(
cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="vmlinux", description="Linux kernel symbols"),
requirements.PluginRequirement(name='pslist',
plugin=pslist.PsList,
version=(1, 0, 0)),
requirements.ListRequirement(
name='pid',
element_type=int,
description=
"Process IDs to include (all other processes are excluded)",
optional=True),
requirements.ListRequirement(
name='name',
element_type=str,
description=
"Process name to include (all other processes are excluded)",
optional=True),
requirements.StringRequirement(name='out',
description="JSON output file",
optional=True)
]
def get_requirements(cls):
# Since we're calling the plugin, make sure we have the plugin's requirements
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.ListRequirement(
name='pid',
element_type=int,
description=
"Process IDs to include (all other processes are excluded)",
optional=True),
requirements.BooleanRequirement(
name='dump',
description="Extract injected VADs",
default=False,
optional=True),
requirements.VersionRequirement(name='pslist',
component=pslist.PsList,
version=(1, 1, 0)),
requirements.VersionRequirement(name='vadinfo',
component=vadinfo.VadInfo,
version=(1, 1, 0))
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
]
def get_requirements(
cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(
name='primary',
description="Memory layer for the kernel",
architectures=["Intel32", "Intel64"]),
requirements.BooleanRequirement(
name="insensitive",
description="Makes the search case insensitive",
default=False,
optional=True),
requirements.BooleanRequirement(
name="wide",
description="Match wide (unicode) strings",
default=False,
optional=True),
requirements.StringRequirement(
name="yara_rules",
description="Yara rules (as a string)",
optional=True),
requirements.URIRequirement(name="yara_file",
description="Yara rules (as a file)",
optional=True),
requirements.IntRequirement(
name="max_size",
default=0x40000000,
description="Set the maximum size (default is 1GB)",
optional=True)
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols", description = "Windows kernel symbols"),
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.BooleanRequirement(
name='physical',
description='Display physical offsets instead of virtual',
default=cls.PHYSICAL_DEFAULT,
optional=True),
requirements.ListRequirement(
name='pid',
element_type=int,
description=
"Process ID to include (all other processes are excluded)",
optional=True),
requirements.BooleanRequirement(
name='dump',
description="Extract listed processes",
default=False,
optional=True)
]
def get_requirements(
cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.PluginRequirement(name='hivelist',
plugin=hivelist.HiveList,
version=(1, 0, 0)),
requirements.IntRequirement(name='offset',
description="Hive Offset",
default=None,
optional=True),
requirements.StringRequirement(name='key',
description="Key to start from",
default=None,
optional=True),
requirements.BooleanRequirement(
name='recurse',
description='Recurses through keys',
default=False,
optional=True)
]
def get_requirements(
cls) -> List[interfaces.configuration.RequirementInterface]:
# Since we're calling the plugin, make sure we have the plugin's requirements
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.IntRequirement(
name='pid',
description=
"Process ID to include (all other processes are excluded)",
optional=True),
requirements.IntRequirement(
name='virtaddr',
description=
"Dump a single _FILE_OBJECT at this virtual address",
optional=True),
requirements.IntRequirement(
name='physaddr',
description=
"Dump a single _FILE_OBJECT at this physical address",
optional=True),
requirements.VersionRequirement(name='pslist',
component=pslist.PsList,
version=(2, 0, 0)),
requirements.VersionRequirement(name='handles',
component=handles.Handles,
version=(1, 0, 0))
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "vmlinux", description = "Linux kernel symbols")
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.BooleanRequirement(
name="dump_memory",
description="Dumps the hidden memory to files.",
default=False,
optional=True),
requirements.PluginRequirement(name='pslist',
plugin=pslist.PsList,
version=(1, 0, 0)),
requirements.IntRequirement(
name='pid',
description=
"Process ID to include (all other processes are excluded)",
optional=True),
requirements.BooleanRequirement(
name='test_only_orphaned_pages',
description=
'Only test pages for not belonging to any VAD (detects MAS remapping).',
default=False,
optional=True)
]
def get_requirements(
cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(
name='primary',
description="Memory layer for the kernel",
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(
name="nt_symbols", description="Windows kernel symbols"),
requirements.IntRequirement(
name="max_size",
default=0x40000000,
description="Set the maximum size (default is 1GB)",
optional=True),
requirements.PluginRequirement(name='pslist',
plugin=pslist.PsList,
version=(1, 0, 0)),
requirements.IntRequirement(
name='pid',
description=
"Process ID to include (all other processes are excluded)",
optional=True),
requirements.URIRequirement(name="yara_file",
description="Yara rules (as a file)",
optional=True),
requirements.PluginRequirement(name="vadyarascan",
plugin=vadyarascan.VadYaraScan,
version=(1, 0, 0)),
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(name='primary',
description="Memory layer for the kernel",
architectures=['Intel32', 'Intel64']),
requirements.SymbolTableRequirement(name='vmlinux',
description="Linux kernel symbols"),
requirements.PluginRequirement(name='pslist',
plugin=pslist.PsList, version=(1, 0, 0)),
requirements.ListRequirement(name='pids',
description="Filter on specific process IDs. Default is pid 1",
element_type=int,
default=DEFAULT_PIDS_VALUE,
optional=True),
requirements.BooleanRequirement(name='all',
description="Shows information about mount points for each process mount "
"namespace. It could take a while depending on the number of processes "
"running. Note that if this argument is not specified it uses the root "
"mount namespace based on pid 1.",
optional=True,
default=False),
requirements.BooleanRequirement(name='mount-format',
description="Shows a brief summary of a process mount points information "
"with similar output format to the older /proc/[pid]/mounts or the "
"user-land command 'mount -l'.",
optional=True,
default=False),
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
# Since we're calling the plugin, make sure we have the plugin's requirements
return [requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols", description = "Windows kernel symbols"),
# TODO: Convert this to a ListRequirement so that people can filter on sets of ranges
requirements.IntRequirement(name = 'address',
description = "Process virtual memory address to include " \
"(all other address ranges are excluded). This must be " \
"a base address, not an address within the desired range.",
optional = True),
requirements.ListRequirement(name = 'pid',
description = 'Filter on specific process IDs',
element_type = int,
optional = True),
requirements.PluginRequirement(name = 'pslist', plugin = pslist.PsList, version = (2, 0, 0)),
requirements.BooleanRequirement(name = 'dump',
description = "Extract listed memory ranges",
default = False,
optional = True),
requirements.IntRequirement(name = 'maxsize',
description = "Maximum size for dumped VAD sections " \
"(all the bigger sections will be ignored)",
default = cls.MAXSIZE_DEFAULT,
optional = True),
]
def get_requirements(cls):
return [requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols",
description = "Windows kernel symbols"),
requirements.PluginRequirement(name = 'hivelist', plugin = hivelist.HiveList, version = (1, 0, 0))
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.VersionRequirement(name = 'macutils', component = mac.MacUtilities, version = (1, 0, 0)),
requirements.SymbolTableRequirement(name = "darwin", description = "Mac kernel symbols")
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols", description = "Windows kernel symbols"),
requirements.PluginRequirement(name = 'handles', plugin = handles.Handles, version = (1, 0, 0)),
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Kernel Address Space',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "darwin", description = "Mac Kernel"),
requirements.PluginRequirement(name = 'tasks', plugin = tasks.Tasks, version = (1, 0, 0))
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
# Since we're calling the plugin, make sure we have the plugin's requirements
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols", description = "Windows kernel symbols")
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "darwin", description = "Linux kernel symbols"),
requirements.PluginRequirement(name = 'tasks', plugin = tasks.Tasks, version = (1, 0, 0))
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(name = 'memory_layer', optional = False),
requirements.LayerListRequirement(name = 'swap_layers', optional = True),
requirements.IntRequirement(name = 'page_map_offset', optional = False),
requirements.IntRequirement(name = 'kernel_virtual_offset', optional = True),
requirements.StringRequirement(name = 'kernel_banner', optional = True)
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "darwin", description = "Mac kernel symbols"),
requirements.PluginRequirement(name = 'lsmod', plugin = lsmod.Lsmod, version = (1, 0, 0))
]
def get_requirements(
cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.ListRequirement(name='pages',
element_type=int,
min_elements=1),
requirements.TranslationLayerRequirement(name='base_layer'),
requirements.IntRequirement(name='maximum_size')
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(
name='primary',
description='Memory layer for the kernel',
architectures=["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name="darwin",
description="Mac kernel")
]
def get_requirements(cls):
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "nt_symbols", description = "Windows kernel symbols"),
requirements.PluginRequirement(name = 'poolscanner', plugin = poolscanner.PoolScanner, version = (1, 0, 0)),
requirements.PluginRequirement(name = 'bigpools', plugin = bigpools.BigPools, version = (1, 0, 0)),
]
def get_requirements(cls) -> List[interfaces.configuration.RequirementInterface]:
return [
requirements.TranslationLayerRequirement(name = 'primary',
description = 'Memory layer for the kernel',
architectures = ["Intel32", "Intel64"]),
requirements.SymbolTableRequirement(name = "vmlinux", description = "Linux kernel symbols"),
requirements.PluginRequirement(name = 'lsmod', plugin = lsmod.Lsmod, version = (1, 0, 0)),
requirements.VersionRequirement(name = 'linuxutils', component = linux.LinuxUtilities, version = (1, 0, 0))
]
