| Current Path : /proc/2/root/usr/share/nmap/nselib/ |
| Current File : //proc/2/root/usr/share/nmap/nselib/iscsi.lua |
--- An iSCSI library implementing written by Patrik Karlsson <patrik@cqure.net>
-- The library currently supports target discovery and login.
--
-- The implementation is based on packetdumps and the iSCSI RFC
-- * http://tools.ietf.org/html/rfc3720
--
-- The library contains the protocol message pairs in <code>Packet</code>
-- E.g. <code>LoginRequest</code> and <code>LoginResponse</code>
--
-- Each request can be "serialized" to a string using:
-- <code>tostring(request)</code>.
-- All responses can be read and instantiated from the socket by calling:
-- <code>local status,resp = Response.fromSocket(sock)</code>
--
-- In addition the library has the following classes:
-- * <code>Packet</code>
-- ** A class containing the request and response packets
-- * <code>Comm</code>
-- ** A class used to send and receive packet between the library and server
-- ** The class handles some of the packet "counting" and value updating
-- * <code>Socket</code>
-- ** A buffered socket class that allows reading of exakt number of bytes
-- * <code>KVP</code>
-- ** A key/value pair class that holds key value pairs
-- * <code>Helper</code>
-- ** A class that wraps the <code>Comm</code> and <code>Packet</code> classes
-- ** The purpose of the class is to provide easy access to common iSCSI task
--
--
-- @author "Patrik Karlsson <patrik@cqure.net>"
-- @copyright Same as Nmap--See http://nmap.org/book/man-legal.html
-- Version 0.2
-- Created 2010/11/18 - v0.1 - created by Patrik Karlsson <patrik@cqure.net>
-- Revised 2010/11/28 - v0.2 - improved error handling, fixed discovery issues
-- with multiple addresses <patrik@cqure.net>
module(... or "iscsi",package.seeall)
require("bin")
require("ipOps")
Packet = {
Opcode = {
LOGIN = 0x03,
TEXT = 0x04,
LOGOUT = 0x06,
},
LoginRequest = {
CSG = {
SecurityNegotiation = 0,
LoginOperationalNegotiation = 1,
FullFeaturePhase = 3,
},
NSG = {
SecurityNegotiation = 0,
LoginOperationalNegotiation = 1,
FullFeaturePhase = 3,
},
--- Creates a new instance of LoginRequest
--
-- @return instance of LoginRequest
new = function( self )
local o = {}
setmetatable(o, self)
self.__index = self
o.immediate = 0
o.opcode = Packet.Opcode.LOGIN
o.flags = {}
o.ver_max = 0
o.ver_min = 0
o.total_ahs_len = 0
o.data_seg_len = 0
o.isid = { t=0x01, a=0x00, b=0x0001, c=0x37, d=0 }
o.tsih = 0
o.initiator_task_tag = 1
o.cid = 1
o.cmdsn = 0
o.expstatsn = 1
o.kvp = KVP:new()
return o
end,
setImmediate = function(self, b) self.immediate = ( b and 1 or 0 ) end,
--- Sets the transit bit
--
-- @param b boolean containing the new transit value
setTransit = function(self, b) self.flags.transit = ( b and 1 or 0 ) end,
--- Sets the continue bit
--
-- @param b boolean containing the new continue value
setContinue = function(self, b) self.flags.continue = ( b and 1 or 0 ) end,
--- Sets the CSG values
--
-- @param csg number containing the new NSG value
setCSG = function(self, csg) self.flags.csg = csg end,
--- Sets the NSG values
--
-- @param nsg number containing the new NSG value
setNSG = function(self, nsg) self.flags.nsg = nsg end,
--- Converts the class instance to string
--
-- @return string containing the converted instance
__tostring = function( self )
local reserved = 0
local kvps = tostring(self.kvp)
self.data_seg_len = #kvps
local pad = 4 - ((#kvps + 48) % 4)
pad = ( pad == 4 ) and 0 or pad
for i=1, pad do kvps = kvps .. "\0" end
local len = bit.lshift( self.total_ahs_len, 24 ) + self.data_seg_len
local flags = bit.lshift( ( self.flags.transit or 0 ), 7 )
flags = flags + bit.lshift( ( self.flags.continue or 0 ), 6)
flags = flags + ( self.flags.nsg or 0 )
flags = flags + bit.lshift( ( self.flags.csg or 0 ), 2 )
local opcode = self.opcode + bit.lshift((self.immediate or 0), 6)
local data = bin.pack(">CCCCICSCSSISSIILLA", opcode,
flags, self.ver_max, self.ver_min, len,
bit.lshift( self.isid.t, 6 ) + bit.band( self.isid.a, 0x3f),
self.isid.b, self.isid.c, self.isid.d, self.tsih,
self.initiator_task_tag, self.cid, reserved, self.cmdsn,
self.expstatsn, reserved, reserved, kvps )
return data
end
},
LoginResponse = {
-- Error messages
ErrorMsgs = {
[0x0000] = "Success",
[0x0101] = "Target moved temporarily",
[0x0102] = "Target moved permanently",
[0x0200] = "Initiator error",
[0x0201] = "Authentication failure",
[0x0202] = "Authorization failure",
[0x0203] = "Target not found",
[0x0204] = "Target removed",
[0x0205] = "Unsupported version",
[0x0206] = "Too many connections",
[0x0207] = "Missing parameter",
[0x0208] = "Can't include in session",
[0x0209] = "Session type not supported",
[0x020a] = "Session does not exist",
[0x020b] = "Invalid request during login",
[0x0300] = "Target error",
[0x0301] = "Service unavailable",
[0x0302] = "Out of resources",
},
-- Error constants
Errors = {
SUCCESS = 0,
AUTH_FAILED = 0x0201,
},
--- Creates a new instance of LoginResponse
--
-- @return instance of LoginResponse
new = function( self )
local o = {}
setmetatable(o, self)
self.__index = self
return o
end,
--- Returns the error message
getErrorMessage = function( self )
return Packet.LoginResponse.ErrorMsgs[self.status_code] or "Unknown error"
end,
--- Returns the error code
getErrorCode = function( self ) return self.status_code or 0 end,
--- Creates a LoginResponse with data read from the socket
--
-- @return status true on success, false on failure
-- @return resp instance of LoginResponse
fromSocket = function( s )
local status, header = s:recv(48)
if ( not(status) ) then
return false, "Failed to read header from socket"
end
local resp = Packet.LoginResponse:new()
local pos, len = bin.unpack(">I", header, 5)
resp.total_ahs_len = bit.rshift(len, 24)
resp.data_seg_len = bit.band(len, 0x00ffffff)
pos, resp.status_code = bin.unpack(">S", header, 37)
local pad = ( 4 - ( resp.data_seg_len % 4 ) )
pad = ( pad == 4 ) and 0 or pad
local status, data = s:recv( resp.data_seg_len + pad )
if ( not(status) ) then
return false, "Failed to read data from socket"
end
resp.kvp = KVP:new()
for _, kvp in ipairs(stdnse.strsplit( "\0", data )) do
local k, v = kvp:match("(.*)=(.*)")
if ( v ) then resp.kvp:add( k, v ) end
end
return true, resp
end,
},
TextRequest = {
--- Creates a new instance of TextRequest
--
-- @return instance of TextRequest
new = function( self )
local o = {}
setmetatable(o, self)
self.__index = self
o.opcode = Packet.Opcode.TEXT
o.flags = {}
o.flags.final = 0
o.flags.continue = 0
o.total_ahs_len = 0
o.data_seg_len = 0
o.lun = 0
o.initiator_task_tag = 1
o.target_trans_tag = 0xffffffff
o.cmdsn = 2
o.expstatsn = 1
o.kvp = KVP:new()
return o
end,
--- Sets the final bit of the TextRequest
setFinal = function( self, b ) self.flags.final = ( b and 1 or 0 ) end,
--- Sets the continue bit of the TextRequest
setContinue = function( self, b ) self.flags.continue = ( b and 1 or 0 ) end,
--- Converts the class instance to string
--
-- @return string containing the converted instance
__tostring = function(self)
local flags = bit.lshift( ( self.flags.final or 0 ), 7 )
flags = flags + bit.lshift( (self.flags.continue or 0), 6 )
local kvps = tostring(self.kvp)
for i=1, (#kvps % 2) do kvps = kvps .. "\0" end
self.data_seg_len = #kvps
local len = bit.lshift( self.total_ahs_len, 24 ) + self.data_seg_len
local reserved = 0
local data = bin.pack(">CCSILIIIILLA", self.opcode, flags, reserved,
len, self.lun, self.initiator_task_tag, self.target_trans_tag,
self.cmdsn, self.expstatsn, reserved, reserved, kvps)
return data
end,
},
TextResponse = {
--- Creates a new instance of TextResponse
--
-- @return instance of TextResponse
new = function( self )
local o = {}
setmetatable(o, self)
self.__index = self
return o
end,
--- Creates a TextResponse with data read from the socket
--
-- @return status true on success, false on failure
-- @return instance of TextResponse
-- err string containing error message
fromSocket = function( s )
local resp = Packet.TextResponse:new()
local textdata = ""
repeat
local status, header = s:recv(48)
local pos, _, flags, _, _, len = bin.unpack(">CCCCI", header)
local cont = ( bit.band(flags, 0x40) == 0x40 )
resp.total_ahs_len = bit.rshift(len, 24)
resp.data_seg_len = bit.band(len, 0x00ffffff)
local data
status, data = s:recv( resp.data_seg_len )
textdata = textdata .. data
until( not(cont) )
resp.records = {}
local kvps = stdnse.strsplit( "\0", textdata )
local record
-- Each target record starts with one text key of the form:
-- TargetName=<target-name-goes-here>
-- Followed by zero or more address keys of the form:
-- TargetAddress=<hostname-or-ipaddress>[:<tcp-port>],
-- <portal-group-tag>
for _, kvp in ipairs(kvps) do
local k, v = kvp:match("(.*)%=(.*)")
if ( k == "TargetName" ) then
if ( record ) then
table.insert(resp.records, record)
record = {}
end
if ( #resp.records == 0 ) then record = {} end
record.name = v
elseif ( k == "TargetAddress" ) then
record.addr = record.addr or {}
table.insert( record.addr, v )
elseif ( not(k) ) then
-- this should be the ending empty kvp
table.insert(resp.records, record)
break
else
stdnse.print_debug("ERROR: iscsi.TextResponse: Unknown target record (%s)", k)
end
end
return true, resp
end,
},
--- Class handling a login request
LogoutRequest = {
--- Creates a new instance of LogoutRequest
--
-- @return instance of LogoutRequest
new = function( self )
local o = {}
setmetatable(o, self)
self.__index = self
o.opcode = Packet.Opcode.LOGOUT
o.immediate = 1
o.reasoncode = 0
o.total_ahs_len = 0
o.data_seg_len = 0
o.initiator_task_tag = 2
o.cid = 1
o.cmdsn = 0
o.expstatsn = 1
return o
end,
--- Converts the class instance to string
--
-- @return string containing the converted instance
__tostring = function(self)
local opcode = self.opcode + bit.lshift((self.immediate or 0), 6)
local reserved = 0
local len = bit.lshift( self.total_ahs_len, 24 ) + self.data_seg_len
local data = bin.pack(">CCSILISSIILL", opcode, (0x80 + self.reasoncode),
reserved, len, reserved,self.initiator_task_tag, self.cid,
reserved, self.cmdsn, self.expstatsn, reserved, reserved )
return data
end,
},
--- Class handling the Logout response
LogoutResponse = {
--- Creates a new instance of LogoutResponse
--
-- @return instance of LogoutResponse
new = function( self )
local o = {}
setmetatable(o, self)
self.__index = self
return o
end,
--- Creates a LogoutResponse with data read from the socket
--
-- @return status true on success, false on failure
-- @return instance of LogoutResponse
-- err string containing error message
fromSocket = function( s )
local resp = Packet.LogoutResponse:new()
local status, header = s:recv(48)
if ( not(status) ) then return status, header end
return true, resp
end
}
}
--- The communication class handles socket reads and writes
-- In addition it keeps track of both immediate packets and the amount of read
-- packets and updates cmdsn and expstatsn accordingly.
Comm = {
--- Creates a new instance of Comm
--
-- @return instance of Comm
new = function(self, socket)
local o = {}
setmetatable(o, self)
self.__index = self
o.expstatsn = 0
o.cmdsn = 1
o.socket = socket
return o
end,
--- Sends a packet and retrieves the response
--
-- @param out_packet instance of a packet to send
-- @param in_class class of the packet to read
-- @return status true on success, false on failure
-- @return r decoded instance of in_class
exchange = function( self, out_packet, in_class )
local expstatsn = ( self.expstatsn == 0 ) and 1 or self.expstatsn
if ( out_packet.immediate and out_packet.immediate == 1 ) then
self.cmdsn = self.cmdsn + 1
end
out_packet.expstatsn = expstatsn
out_packet.cmdsn = self.cmdsn
self.socket:send( tostring( out_packet ) )
local status, r = in_class.fromSocket( self.socket )
self.expstatsn = self.expstatsn + 1
return status, r
end,
}
--- A buffered socket implementation
Socket =
{
--- Creates a new instance of Socket
--
-- @return instance of Socket
new = function(self)
local o = {}
setmetatable(o, self)
self.__index = self
o.Socket = nmap.new_socket()
o.Buffer = nil
return o
end,
--- Establishes a connection.
--
-- @param hostid Hostname or IP address.
-- @param port Port number.
-- @param protocol <code>"tcp"</code>, <code>"udp"</code>, or
-- @return Status (true or false).
-- @return Error code (if status is false).
connect = function( self, hostid, port, protocol )
self.Socket:set_timeout(10000)
return self.Socket:connect( hostid, port, protocol )
end,
--- Closes an open connection.
--
-- @return Status (true or false).
-- @return Error code (if status is false).
close = function( self )
return self.Socket:close()
end,
--- Opposed to the <code>socket:receive_bytes</code> function, that returns
-- at least x bytes, this function returns the amount of bytes requested.
--
-- @param count of bytes to read
-- @return true on success, false on failure
-- @return data containing bytes read from the socket
-- err containing error message if status is false
recv = function( self, count )
local status, data
self.Buffer = self.Buffer or ""
if ( #self.Buffer < count ) then
status, data = self.Socket:receive_bytes( count - #self.Buffer )
if ( not(status) ) then
return false, data
end
self.Buffer = self.Buffer .. data
end
data = self.Buffer:sub( 1, count )
self.Buffer = self.Buffer:sub( count + 1)
return true, data
end,
--- Sends data over the socket
--
-- @return Status (true or false).
-- @return Error code (if status is false).
send = function( self, data )
return self.Socket:send( data )
end,
}
--- Key/Value pairs class
KVP = {
--- Creates a new instance of KVP
--
-- @return instance of KVP
new = function( self )
local o = {}
setmetatable(o, self)
self.__index = self
o.kvp = {}
return o
end,
--- Adds a key/value pair
--
-- @param key string containing the key name
-- @param value string containing the value
add = function( self, key, value )
table.insert( self.kvp, {[key]=value} )
end,
--- Gets all values for a specific key
--
-- @param key string containing the name of the key to retrieve
-- @return values table containing all values for the specified key
get = function( self, key )
local values = {}
for _, kvp in ipairs(self.kvp) do
for k, v in pairs( kvp ) do
if ( key == k ) then
table.insert( values, v )
end
end
end
return values
end,
--- Returns all key value pairs as string delimited by \0
-- eg. "key1=val1\0key2=val2\0"
--
-- @return string containing all key/value pairs
__tostring = function( self )
local ret = ""
for _, kvp in ipairs(self.kvp) do
for k, v in pairs( kvp ) do
ret = ret .. ("%s=%s\0"):format(k,v)
end
end
return ret
end,
}
--- CHAP authentication class
CHAP = {
--- Calculate a CHAP - response
--
-- @param identifier number containing the CHAP identifier
-- @param challenge string containing the challenge
-- @param secret string containing the users password
-- @return response string containing the CHAP response
calcResponse = function( identifier, challenge, secret )
return openssl.md5( identifier .. secret .. challenge )
end,
}
--- The helper class contains functions with more descriptive names
Helper = {
--- Creates a new instance of the Helper class
--
-- @param host table as received by the script action function
-- @param port table as received by the script action function
-- @return o instance of Helper
new = function( self, host, port )
local o = {}
setmetatable(o, self)
self.__index = self
o.host, o.port = host, port
o.socket = Socket:new()
return o
end,
--- Connects to the iSCSI target
--
-- @return status true on success, false on failure
-- @return err string containing error message is status is false
connect = function( self )
local status, err = self.socket:connect(self.host, self.port, "tcp")
if ( not(status) ) then return false, err end
self.comm = Comm:new( self.socket )
return true
end,
--- Attempts to discover accessible iSCSI targets on the remote server
--
-- @return status true on success, false on failure
-- @return targets table containing discovered targets
-- each table entry is a target table with <code>name</code>
-- and <code>addr</code>.
-- err string containing an error message is status is false
discoverTargets = function( self )
local p = Packet.LoginRequest:new()
p:setTransit(true)
p:setNSG(Packet.LoginRequest.NSG.LoginOperationalNegotiation)
p.kvp:add( "InitiatorName", "iqn.1991-05.com.microsoft:nmap_iscsi_probe" )
p.kvp:add( "SessionType", "Discovery" )
p.kvp:add( "AuthMethod", "None" )
local status, resp = self.comm:exchange( p, Packet.LoginResponse )
if ( not(status) ) then
return false, ("ERROR: iscsi.Helper.discoverTargets: %s"):format(resp)
end
local auth_method = resp.kvp:get("AuthMethod")[1]
if ( auth_method:upper() ~= "NONE" ) then
return false, "ERROR: iscsi.Helper.discoverTargets: Unsupported authentication method"
end
p = Packet.LoginRequest:new()
p:setTransit(true)
p:setNSG(Packet.LoginRequest.NSG.FullFeaturePhase)
p:setCSG(Packet.LoginRequest.CSG.LoginOperationalNegotiation)
p.kvp:add( "HeaderDigest", "None")
p.kvp:add( "DataDigest", "None")
p.kvp:add( "MaxRecvDataSegmentLength", "65536")
p.kvp:add( "DefaultTime2Wait", "0")
p.kvp:add( "DefaultTime2Retain", "60")
status, resp = self.comm:exchange( p, Packet.LoginResponse )
p = Packet.TextRequest:new()
p:setFinal(true)
p.kvp:add( "SendTargets", "All" )
status, resp = self.comm:exchange( p, Packet.TextResponse )
if ( not(resp.records) ) then
return false, "iscsi.discoverTargets: response returned no targets"
end
for _, record in ipairs(resp.records) do
table.sort( record.addr, function(a, b) local c = ipOps.compare_ip(a:match("(.-):"), "le", b:match("(.-):")); return c end )
end
return true, resp.records
end,
--- Logs out from the iSCSI target
--
-- @return status true on success, false on failure
logout = function(self)
local p = Packet.LogoutRequest:new()
local status, resp = self.comm:exchange( p, Packet.LogoutResponse )
return status
end,
--- Authenticate to the iSCSI service
--
-- @param target_name string containing the name of the iSCSI target
-- @param username string containing the username
-- @param password string containing the password
-- @param auth_method string containing either "None" or "Chap"
-- @return status true on success false on failure
-- @return response containing the loginresponse or
-- err string containing an error message if status is false
login = function( self, target_name, username, password, auth_method )
local auth_method = auth_method or "None"
if ( not(target_name) ) then
return false, "No target name specified"
end
if ( auth_method:upper()~= "NONE" and
auth_method:upper()~= "CHAP" ) then
return false, "Unknown authentication method"
end
local p = Packet.LoginRequest:new()
p:setTransit(true)
p:setNSG(Packet.LoginRequest.NSG.LoginOperationalNegotiation)
p.kvp:add( "InitiatorName", "iqn.1991-05.com.microsoft:nmap_iscsi_probe" )
p.kvp:add( "SessionType", "Normal" )
p.kvp:add( "TargetName", target_name )
p.kvp:add( "AuthMethod", auth_method )
if ( not(self.comm) ) then
return false, "ERROR: iscsi.Helper.login: Not connected"
end
local status, resp = self.comm:exchange( p, Packet.LoginResponse )
if ( not(status) ) then
return false, ("ERROR: iscsi.Helper.login: %s"):format(resp)
end
if ( resp.status_code ~= 0 ) then
stdnse.print_debug(3, "ERROR: iscsi.Helper.login: Authentication failed (error code: %d)", resp.status_code)
return false, resp
elseif ( auth_method:upper()=="NONE" ) then
return true, resp
end
p = Packet.LoginRequest:new()
p.kvp:add( "CHAP_A", "5" )
status, resp = self.comm:exchange( p, Packet.LoginResponse )
if ( not(status) ) then
return false, ("ERROR: iscsi.Helper.login: %s"):format(resp)
end
local alg = resp.kvp:get("CHAP_A")[1]
if ( alg ~= "5" ) then return false, "Unsupported authentication algorithm" end
local chall = resp.kvp:get("CHAP_C")[1]
if ( not(chall) ) then return false, "Failed to decode challenge" end
chall = bin.pack("H", chall:sub(3))
local ident = resp.kvp:get("CHAP_I")[1]
if (not(ident)) then return false, "Failed to decoded identifier" end
ident = string.char(tonumber(ident))
local resp = CHAP.calcResponse( ident, chall, password )
resp = "0x" .. select(2, bin.unpack("H16", resp))
p = Packet.LoginRequest:new()
p:setImmediate(true)
p:setTransit(true)
p:setNSG(Packet.LoginRequest.NSG.LoginOperationalNegotiation)
p.kvp:add("CHAP_N", username)
p.kvp:add("CHAP_R", resp)
status, resp = self.comm:exchange( p, Packet.LoginResponse )
if ( not(status) ) then
return false, ("ERROR: iscsi.Helper.login: %s"):format(resp)
end
if ( resp:getErrorCode() ~= Packet.LoginResponse.Errors.SUCCESS ) then
return false, "Login failed"
end
return true, resp
end,
--- Disconnects the socket from the server
close = function(self) self.socket:close() end
}
Copyright 2K16 - 2K18 Indonesian Hacker Rulez
;?>)