317 lines
12 KiB
Ruby
317 lines
12 KiB
Ruby
# -*- coding: binary -*-
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module Metasploit
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module Framework
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module AFP
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module Client
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def next_id
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@request_id ||= -1
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@request_id += 1
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@request_id
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end
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def get_info
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packet = "\00" # Flag: Request
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packet << "\x03" # Command: FPGetSrvrInfo
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packet << [next_id].pack('n') # requestID
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packet << "\x00\x00\x00\x00" # Data offset
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packet << "\x00\x00\x00\x00" # Length
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packet << "\x00\x00\x00\x00" # Reserved
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sock.put(packet)
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response = sock.timed_read(1024)
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return parse_info_response(response)
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end
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def open_session
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packet = "\00" # Flag: Request
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packet << "\x04" # Command: DSIOpenSession
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packet << [next_id].pack('n') # requestID
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packet << "\x00\x00\x00\x00" # Data offset
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packet << "\x00\x00\x00\x06" # Length
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packet << "\x00\x00\x00\x00" # Reserved
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packet << "\x01" # Attention Quantum
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packet << "\x04" # Length
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packet << "\x00\x00\x04\x00" # 1024
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sock.put(packet)
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response = sock.timed_read(1024)
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return parse_open_session_response(response)
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end
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def login(user, pass)
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if user == ''
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return no_user_authent_login
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end
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p = OpenSSL::BN.new("BA2873DFB06057D43F2024744CEEE75B", 16)
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g = OpenSSL::BN.new("7", 10)
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ra = OpenSSL::BN.new('86F6D3C0B0D63E4B11F113A2F9F19E3BBBF803F28D30087A1450536BE979FD42', 16)
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ma = g.mod_exp(ra, p)
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padded_user = (user.length + 1) % 2 != 0 ? user + "\x00" : user
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bin_user = [padded_user.length, padded_user].pack("Ca*")
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length = 18 + bin_user.length + ma.to_s(2).length
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packet = "\00" # Flag: Request
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packet << "\x02" # Command: DSICommand
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packet << [next_id].pack('n') # requestID
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packet << "\x00\x00\x00\x00" # Data offset
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packet << [length].pack('N') # Length (42)
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packet << "\x00\x00\x00\x00" # Reserved
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packet << "\x12" # AFPCommand: FPLogin (18)
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packet << "\x06\x41\x46\x50\x33\x2e\x31" # AFPVersion: AFP3.1
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packet << "\x09\x44\x48\x43\x41\x53\x54\x31\x32\x38" #UAM: DHCAST128
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packet << bin_user # username
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packet << ma.to_s(2) # random number
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sock.put(packet)
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begin
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response = sock.timed_read(1024, self.login_timeout)
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rescue Timeout::Error
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raise RuntimeError, "AFP Login timeout (AFP server delay response for 20 - 22 seconds after 7 incorrect logins)"
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end
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flags, command, request_id, error_code, length, reserved = parse_header(response)
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case error_code
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when -5001 #kFPAuthContinue
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return parse_login_response_add_send_login_count(response, {:p => p, :g => g, :ra => ra, :ma => ma,
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:password => pass, :user => user})
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when -5023 #kFPUserNotAuth (User dosen't exists)
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return :skip_user
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else
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return :connection_error
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end
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end
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def close_session
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packet = "\00" # Flag: Request
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packet << "\x01" # Command: DSICloseSession
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packet << [next_id].pack('n') # requestID
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packet << "\x00\x00\x00\x00" #Data offset
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packet << "\x00\x00\x00\x00" #Length
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packet << "\x00\x00\x00\x00" #Reserved
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sock.put(packet)
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end
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def no_user_authent_login
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packet = "\00" # Flag: Request
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packet << "\x02" # Command: DSICommand
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packet << [next_id].pack('n') # requestID
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packet << "\x00\x00\x00\x00" # Data offset
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packet << "\x00\x00\x00\x18" # Length (24)
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packet << "\x00\x00\x00\x00" # Reserved
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packet << "\x12" # AFPCommand: FPLogin (18)
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packet << "\x06\x41\x46\x50\x33\x2e\x31" #AFP3.1
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packet << "\x0f\x4e\x6f\x20\x55\x73\x65\x72\x20\x41\x75\x74\x68\x65\x6e\x74" #UAM: No User Authent
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sock.put(packet)
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begin
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response = sock.timed_read(1024, self.login_timeout)
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rescue Timeout::Error
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raise RuntimeError, "AFP Login timeout (AFP server delay response for 20 - 22 seconds after 7 incorrect logins)"
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end
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flags, command, request_id, error_code, length, reserved = parse_header(response)
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if error_code == 0
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return :true
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else
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return false
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end
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end
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def parse_login_response_add_send_login_count(response, data)
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dhx_s2civ = 'CJalbert'
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dhx_c2civ = 'LWallace'
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flags, command, request_id, error_code, length, reserved = parse_header(response)
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body = get_body(response, length)
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id, mb, enc_data = body.unpack("nH32a*")
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mb = OpenSSL::BN.new(mb, 16)
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k = mb.mod_exp(data[:ra], data[:p] )
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cipher = OpenSSL::Cipher.new('cast5-cbc').decrypt
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cipher.key = k.to_s(2)
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cipher.iv = dhx_s2civ
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cipher.padding = 0
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nonce = cipher.update(enc_data)
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nonce << cipher.final
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nonce = nonce[0..15]
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nonce = OpenSSL::BN.new(nonce, 2) + 1
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plain_text = nonce.to_s(2) + data[:password].ljust(64, "\x00")
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cipher = OpenSSL::Cipher.new('cast5-cbc').encrypt
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cipher.key = k.to_s(2)
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cipher.iv = dhx_c2civ
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auth_response = cipher.update(plain_text)
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auth_response << cipher.final
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packet = "\00" # Flag: Request
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packet << "\x02" # Command: DSICommand
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packet << [next_id].pack('n') # requestID
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packet << "\x00\x00\x00\x00" # Data offset
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packet << [auth_response.length + 2].pack("N") # Length
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packet << "\x00\x00\x00\x00" # Reserved
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packet << "\x13" # AFPCommand: FPLoginCont (19)
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packet << "\x00"
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packet << [id].pack('n')
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packet << auth_response
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sock.put(packet)
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begin
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response = sock.timed_read(1024, self.login_timeout)
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rescue Timeout::Error
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raise RuntimeError, "AFP Login timeout (AFP server delay response for 20 - 22 seconds after 7 incorrect logins)"
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end
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flags, command, request_id, error_code, length, reserved = parse_header(response)
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if error_code == 0
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return true
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else
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return false
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end
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end
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def parse_open_session_response(response)
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_, _, _, error_code, _, _ = parse_header(response)
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return error_code == 0 ? true : false
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end
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def parse_info_response(response)
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parsed_data = {}
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flags, command, request_id, error_code, length, reserved = parse_header(response)
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raise RuntimeError, "AFP Server response with error" if error_code != 0
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body = get_body(response, length)
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machine_type_offset, afp_versions_offset, uam_count_offset, icon_offset, server_flags =
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body.unpack('nnnnn')
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server_name_length = body.unpack('@10C').first
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parsed_data[:server_name] = body.unpack("@11A#{server_name_length}").first
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pos = 11 + server_name_length
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pos += 1 if pos % 2 != 0 #padding
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server_signature_offset, network_addresses_offset, directory_names_offset,
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utf8_servername_offset = body.unpack("@#{pos}nnnn")
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parsed_data[:machine_type] = read_pascal_string(body, machine_type_offset)
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parsed_data[:versions] = read_array(body, afp_versions_offset)
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parsed_data[:uams] = read_array(body, uam_count_offset)
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# skipped icon
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parsed_data[:server_flags] = parse_flags(server_flags)
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parsed_data[:signature] = body.unpack("@#{server_signature_offset}H32").first
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network_addresses = read_array(body, network_addresses_offset, true)
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parsed_data[:network_addresses] = parse_network_addresses(network_addresses)
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# skipped directory names
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#Error catching for offset issues on this field. Need better error handling all through here
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begin
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parsed_data[:utf8_server_name] = read_utf8_pascal_string(body, utf8_servername_offset)
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rescue
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parsed_data[:utf8_server_name] = "N/A"
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end
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return parsed_data
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end
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def parse_header(packet)
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header = packet.unpack('CCnNNN') #ruby 1.8.7 don't support unpacking signed integers in big-endian order
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header[3] = packet[4..7].reverse.unpack("l").first
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return header
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end
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def get_body(packet, body_length)
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body = packet[16..body_length + 15]
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raise RuntimeError, "AFP Invalid body length" if body.length != body_length
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return body
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end
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def read_pascal_string(str, offset)
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length = str.unpack("@#{offset}C").first
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return str.unpack("@#{offset + 1}A#{length}").first
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end
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def read_utf8_pascal_string(str, offset)
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length = str.unpack("@#{offset}n").first
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return str[offset + 2..offset + length + 1]
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end
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def read_array(str, offset, afp_network_address=false)
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size = str.unpack("@#{offset}C").first
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pos = offset + 1
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result = []
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size.times do
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result << read_pascal_string(str, pos)
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pos += str.unpack("@#{pos}C").first
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pos += 1 unless afp_network_address
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end
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return result
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end
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def parse_network_addresses(network_addresses)
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parsed_addreses = []
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network_addresses.each do |address|
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case address.unpack('C').first
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when 0 #Reserved
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next
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when 1 # Four-byte IP address
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parsed_addreses << IPAddr.ntop(address[1..4]).to_s
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when 2 # Four-byte IP address followed by a two-byte port number
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parsed_addreses << "#{IPAddr.ntop(address[1..4])}:#{address[5..6].unpack("n").first}"
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when 3 # DDP address (depricated)
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next
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when 4 # DNS name (maximum of 254 bytes)
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parsed_addreses << address[1..address.length - 1]
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when 5 # This functionality is deprecated.
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next
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when 6 # IPv6 address (16 bytes)
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parsed_addreses << "[#{IPAddr.ntop(address[1..16])}]"
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when 7 # IPv6 address (16 bytes) followed by a two-byte port number
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parsed_addreses << "[#{IPAddr.ntop(address[1..16])}]:#{address[17..18].unpack("n").first}"
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else # Something wrong?
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raise RuntimeError, "Error parsing network addresses"
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end
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end
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return parsed_addreses
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end
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def parse_flags(flags)
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flags = flags.to_s(2)
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result = {}
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result['Super Client'] = flags[0,1] == '1' ? true : false
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result['UUIDs'] = flags[5,1] == '1' ? true : false
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result['UTF8 Server Name'] = flags[6,1] == '1' ? true : false
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result['Open Directory'] = flags[7,1] == '1' ? true : false
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result['Reconnect'] = flags[8,1] == '1' ? true : false
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result['Server Notifications'] = flags[9,1] == '1' ? true : false
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result['TCP/IP'] = flags[10,1] == '1' ? true : false
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result['Server Signature'] = flags[11,1] == '1' ? true : false
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result['Server Messages'] = flags[12,1] == '1' ? true : false
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result['Password Saving Prohibited'] = flags[13,1] == '1' ? true : false
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result['Password Changing'] = flags[14,1] == '1' ? true : false
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result['Copy File'] = flags[5,1] == '1' ? true : false
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return result
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end
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end
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end
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end
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end
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