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Thanks to Lazycat's great idea. He told us how to use the CallWindowProc API to run machine code. So I wrote some codes in Sphinx C--, and run them in AutoIt. Here are MD5, SHA1, CRC32, RC4, and BASE64 algorithm in the attachment. (My CRC32 Code is a bit faster then Lazycat's version) SHA1_MD5_RC4_BASE64_CRC32.zip If someone needs other algorithm, please let me know, and I will try my best. If you are looking for SHA2 or AES, here and here. 2008/08/02 Update Note: Corrected Block TEA (XXTEA) block cipher is added. Take a look at Wikipedia for detail. SHA1_MD5_RC4_BASE64_CRC32_XXTEA.zip 2008/08/24 Update Note: Add a parameter $LineBreak to _Base64Encode(). This function will break output line in every 76 characters by default. Thanks to trancexx. SHA1_MD5_RC4_BASE64_CRC32_XXTEA.zip 2008/09/27 Update Note: Optimize machine code in _Base64Encode() and _Base64Decode(). Fix _Base64Encode() crash problem. Thanks to trancexx. SHA1_MD5_RC4_BASE64_CRC32_XXTEA.zip

Network Interface Info, Statistics, and Traffic (incl. IP, TCP, UDP and ICMP) This is an example of getting and displaying Network Interface Information, Statistics and Traffic. Previously this was just a means to getting Network statistics (specifically IP, TCP, UDP, and ICMP), but now it includes Internet Interface information, as well as Interface-specific statistics. Since this UDF can be used in different ways, let me cover Statistics first: Network Statistics Information Stats example output To retrieve Statistics information, you can call one of the four _Network_xxxxStatistics() functions for IP, TCP, UDP, or ICMP Statistics. These functions accept 1 argument which specifies which protocol to use. Basically, zero is IPv4 and non-zero is IPv6. It defaults to IPv4 if no arguments. Here's the functions: Protocol Statistics Functions: _Network_IPStatistics() -> receives IP statistics _Network_TCPStatistics() -> TCP statistics _Network_UDPStatistics() -> UDP statistics _Network_ICMPStatistics() -> ICMP statistics - To get per-interface statistics requires 2 calls. One call is required to collect information on adapters into an array. Once this information is retrieved, multiple calls to _Network_InterfaceEntryInfo() can be made for each indexed network interface. Note that _Network_IPv4AdaptersInfo() is the only adapter/interface information function which doesn't get index information - so don't use it unless you want further interface information. The main UDF functions to use are: Network Adapter & Interface Functions: _Network_IPv4AdaptersInfo() -> Retrieves information on Physical IPv4 adapters _Network_IPv4AdaptersInfoEx() -> Retrieves much more info on Physical IPv4 adapters _Network_IPv4AddressTable() -> Retrieves information on IPv4 Interfaces _Network_IPAllAddressTable() -> Retrieves information on both IPv4 and IPv6 interfaces Network Statistics for a Given Interface: _Network_InterfaceEntryInfo() -> For a given interface index, retrieves statistics - The simplest way to get overall traffic is to use _Network_IPAllAddressTable() (or _Network_IPv4AddressTable() for IPv4 only) to collect an array of info about interfaces. This needs to be done only once. Then, to collect statistics, for each row in the interface array, call _Network_InterfaceEntryInfo() with $aIPAddressTable[$i][0] to get the statistics for that network interface. IMPORTANT: Note that for all statistics, the data received/sent are represented as 32-bit numbers, and subject to wraparound after 4GBs of data has been transferred. Network Interface Information Regarding Network Interface Information, nearly every function except those ending in xxStatistics(), will return various info regarding the network adapters or interfaces. Currently, IPv4 and IPv6 addresses are retrieved for the interface, as well as for Gateway, DHCP, DNS and WINS servers (there's some XP issues here as to which functions to use - see UDFs). The number of IP addresses (since there can be more than one assigned to each interface) is controlled via a parameter $bGetAllIPs. If this value is non-zero, multiple IP addresses are returned in a string separated by "|" (pipe symbol). Also note that the MAC/Physical Address is returned by most functions as well. These are properly formatted into a hex string in the form "01-23-45-67-89-ab". There is one issue with converting IPv6 addresses - on pre-Vista O/S's (Win XP I'm looking at you) WSAStartup must be called by the code. This is all handled internally, but if you have code that relies on WSAStartup/Cleanup, keep it in mind and let me know if I can better accommodate any potential conflicts. Further notes: - The TCP Statistics gives information about the number of segments sent/received, rather than the # of packets. I'm not totally clear on the association, however here's some links: What's the difference between a TCP segment and a TCP packet? Whats the difference between a Packet, Segment and Frame? - I'm not sure how segments, packets, or datagrams map to # of bytes, or what API functions I might use to figure this out. Any help there would be appreciated. Alternatives: While I have opened access to a lot of detailed network and performance information, there are alternatives - check out Netstat (-e for performance stats) or my >Performance Counters UDF's, which has a lot of varied stats (one example of these: >Network Usage). Following is the example, included in the ZIP file. Note there's a cr@pload of info dumped to the console, so you'll probably want to redirect output or copy-and-paste from the output console: ; ======================================================================================================== ; <NetworkStatsExample.au3> ; ; Example of reading and displaying Network Interface Information and Statistics ; (using <NetworkStatistics.au3> UDF) ; Statistics information, including IP, TCP*, UDP, and ICMP and internet interface traffic, ; are displayed in a 'Splash' window - with both IPv4 and IPv6 data separated ; ; Author: Ascend4nt ; ======================================================================================================== #include "_NetworkStatistics.au3" ; -------------------- HOTKEY FUNCTION & VARIABLE -------------------- Global $bHotKeyPressed = False Func _EscPressed() $bHotKeyPressed=True EndFunc ; -------------------- MAIN PROGRAM CODE -------------------- HotKeySet("{Esc}", "_EscPressed") Local $hSplash, $sSplashText ; Network Stats Local $aUDPStats, $aTCPStats, $aIPStats, $aICMPStats Local $aUDPv6Stats, $aTCPv6Stats, $aIPv6Stats, $aICMPv6Stats Local $aIPv4Adapters, $nAdapters Local $aIPv4AddrTable, $aIPAllAddrTable, $nInterfaces, $aNIEntryInfo Local $sSeparator = "-----------------------------------------" ; IP Stats: IPv4 and IPv6 For $i = 0 To 1 $aIPStats = _Network_IPStatistics($i) If @error Then ConsoleWrite("_Network_IPStatistics("&$i&") error: "&@error&", @extended="&@extended&@CRLF) ContinueLoop EndIf If $i Then ConsoleWrite("IP [IPv6] Stats:") Else ConsoleWrite("IP [IPv4] Stats:") EndIf ConsoleWrite( _ " [0] = IP Forwarding Status: [1 = Enabled, 2 = Disabled] : " & $aIPStats[0] & _ ", [1] = Default initial time-to-live (TTL) for datagrams : " & $aIPStats[1] & @CRLF & _ ", [2] = # Received Datagrams : " & $aIPStats[2] & _ ", [3] = # Received Datagrams w/Header errors : " & $aIPStats[3] & _ ", [4] = # Received Datagrams w/Address errors : " & $aIPStats[4] & @CRLF & _ ", [5] = # Forwarded Datagrams : " & $aIPStats[5] & _ ", [6] = # Received Datagrams w/Unknown Protocol : " & $aIPStats[6] & _ ", [7] = # Received Datagrams Discarded : " & $aIPStats[7] & @CRLF & _ ", [8] = # Received Datagrams Delivered : " & $aIPStats[8] & _ ", [9] = # Requested Outgoing Datagrams : " & $aIPStats[9] & _ ", [10] = # Outgoing Datagrams Discarded : " & $aIPStats[10] & @CRLF & _ ", [11] = # Transmitted Datagrams Discarded : " & $aIPStats[11] & _ ", [12] = # Datagrams w/o Routes that were Discarded : " & $aIPStats[12] & _ ", [13] = TimeOut for Reassembling Incoming Fragmented Datagrams : " & $aIPStats[13] & @CRLF & _ ", [14] = # Datagrams Requiring Reassembly : " & $aIPStats[14] & _ ", [15] = # Datagrams Successfully Reassembled : " & $aIPStats[15] & _ ", [16] = # Datagrams that Failed to be Reassembled : " & $aIPStats[16] & @CRLF & _ ", [17] = # Datagrams that were Fragmented Successfully : " & $aIPStats[17] & _ ", [18] = # Datagrams not Fragmented, and Discarded : " & $aIPStats[18] & _ ", [19] = # Fragments created (for Datagrams) : " & $aIPStats[19] & @CRLF & _ ", [20] = # of Interfaces : " & $aIPStats[20] & _ ", [21] = # of IP addresses associated with PC : " & $aIPStats[21] & _ ", [22] = # of Routes in the Routing table : " & $aIPStats[22] & _ @CRLF) ConsoleWrite($sSeparator & @CRLF) Next ; TCP Stats: IPv4 and IPv6 For $i = 0 To 1 $aTCPStats = _Network_TCPStatistics($i) If @error Then ConsoleWrite("_Network_TCPStatistics("&$i&") error: "&@error&", @extended="&@extended&@CRLF) ContinueLoop EndIf If $i Then ConsoleWrite("TCP [IPv6] Stats:") Else ConsoleWrite("TCP [IPv4] Stats:") EndIf ConsoleWrite( _ "[0] Rto Algorithm = " & $aTCPStats[0] & _ ",[1] Rto Min = " & $aTCPStats[1] & _ ",[2] Rto Max = " & $aTCPStats[2] & _ ",[3] #Max Connections = " & $aTCPStats[3] & _ ",[4] #Active Opens = " & $aTCPStats[4] & _ ",[5] #Passive Opens = " & $aTCPStats[5] & @CRLF & _ " [6] #Failed Connection Attempts = " & $aTCPStats[6] & _ ",[7] #Established Connections that were Reset = " & $aTCPStats[7] & _ ",[8] #Established Connections [current] = " & $aTCPStats[8] & @CRLF & _ " [9] #Recvd Segments = " & $aTCPStats[9] & _ ",[10] #Sent Segments = " & $aTCPStats[10] & _ ",[11] #Retransmitted Segments = " & $aTCPStats[11] & @CRLF & _ " [12] #Receive Errors = " & $aTCPStats[12] & _ ",[13] #Sent Segments with Reset Flag = " & $aTCPStats[13] & _ ",[14] #Connections = " & $aTCPStats[14] & _ @CRLF) ConsoleWrite($sSeparator & @CRLF) Next ; UDP Stats: IPv4 and IPv6 For $i = 0 To 1 $aUDPStats = _Network_UDPStatistics($i) If @error Then ConsoleWrite("_Network_UDPStatistics("&$i&") error: "&@error&", @extended="&@extended&@CRLF) ContinueLoop EndIf If $i Then ConsoleWrite("UDP [IPv6] Stats:") Else ConsoleWrite("UDP [IPv4] Stats:") EndIf ConsoleWrite( _ " [0] #Recvd Datagrams = " & $aUDPStats[0] & _ ",[1] #Discarded Datagrams [invalid port] = " & $aUDPStats[1] & _ ",[2] #Erroneous Datagrams = " & $aUDPStats[2] & @CRLF & _ " [3] #Sent Datagrams = " & $aUDPStats[3] & _ ",[4] #UDP Listener Entries = " & $aUDPStats[4] & _ @CRLF) ConsoleWrite($sSeparator & @CRLF) Next ; ICMP Stats: IPv4 and IPv6 For $i = 0 To 1 $aICMPStats = _Network_ICMPStatistics($i) If @error Then ConsoleWrite("_Network_ICMPStatistics("&$i&") error: "&@error&", @extended="&@extended&@CRLF) ContinueLoop EndIf ConsoleWrite("ICMP [IPv"&4+($i*2)&"] Stats:" & _ " [0] = # Incoming ICMP Messages : " & $aICMPStats[0] & _ ", [1] = # Incoming ICMP Errors : " & $aICMPStats[1] & _ ", [2] = # Outgoing ICMP Messages : " & $aICMPStats[2] & _ ", [3] = # Outgoing ICMP Errors : " & $aICMPStats[3] & _ @CRLF) ConsoleWrite($sSeparator & @CRLF) Next ; IPv4 Adapters Info (very basic info) _Network_IPv4AdaptersInfo() ConsoleWrite($sSeparator & @CRLF) ; IPv4 Adapters Info (comprehensive info) $aIPv4Adapters = _Network_IPv4AdaptersInfoEx() $nAdapters = @extended ConsoleWrite("# of Adapters: "&$nAdapters&@CRLF) For $i = 0 To $nAdapters - 1 ConsoleWrite("Adapter #"&$i+1&":" & _ " [0] Index #"& $aIPv4Adapters[$i][0] & _ ", [1] Type = " & $aIPv4Adapters[$i][1] & _ ", [2] DHCP Enabled Flag = " & $aIPv4Adapters[$i][2] & _ ", [3] WINS Enabled Flag = " & $aIPv4Adapters[$i][3] & _ ", [4] Physical [MAC] Address: " & $aIPv4Adapters[$i][4] & _ ", [5] (0) = " & $aIPv4Adapters[$i][5] & @CRLF & _ ", [6] Description: "& $aIPv4Adapters[$i][6] & _ ", [7] [Empty '']: " & $aIPv4Adapters[$i][7] & _ ", [8] Adapter/Service Name [GUID] = " & $aIPv4Adapters[$i][8] & _ ", [9] [Empty] = " & $aIPv4Adapters[$i][9] & _ ", [10] [Empty] = " & $aIPv4Adapters[$i][10] & @CRLF & _ ", [11] IPv4 Address(es): "& $aIPv4Adapters[$i][11] & _ ", [12] IP Address Mask(s): "& $aIPv4Adapters[$i][12] & @CRLF & _ ", [13] Gateway IPv4 Address(es): "& $aIPv4Adapters[$i][13] & _ ", [14] Gateway Address Mask(s) : "& $aIPv4Adapters[$i][14] & @CRLF & _ ", [15] DHCP IPv4 Address(es) = " & $aIPv4Adapters[$i][15] & _ ", [16] DHCP Address Mask(s) = " & $aIPv4Adapters[$i][16] & _ ", [17] DHCP LeaseObtained Time = " & $aIPv4Adapters[$i][17] & _ ", [18] DHCP LeaseExpires Time = " & $aIPv4Adapters[$i][18] & @CRLF & _ ", [19] Primary WINS Server IP = " & $aIPv4Adapters[$i][19] & _ ", [20] Primary WINS Server Address Mask = " & $aIPv4Adapters[$i][20] & _ ", [21] Secondary WINS Server IP(s) = " & $aIPv4Adapters[$i][21] & _ ", [22] Secondary WINS Server Address Mask(s) = " & $aIPv4Adapters[$i][22] & @CRLF) ConsoleWrite($sSeparator & @CRLF) Next ; IPv4 Interface Info alt #2 $aIPv4AddrTable = _Network_IPv4AddressTable() $nInterfaces = @extended ConsoleWrite(@CRLF) For $i = 0 To $nInterfaces - 1 ConsoleWrite("Adapter #"&$i+1&": [0] Interface Index # = " & $aIPv4AddrTable[$i][0] & _ ", [1] IPv4 Address = " & $aIPv4AddrTable[$i][1] & _ ", [2] Subnet Mask = " & $aIPv4AddrTable[$i][2] & _ ", [3] Broadcast Address = " & $aIPv4AddrTable[$i][3] & @CRLF & _ " [4] Max Reassembly Size = " & $aIPv4AddrTable[$i][4] & _ ", [5] Address Type/State = " & $aIPv4AddrTable[$i][5] & @CRLF) Next ConsoleWrite($sSeparator & @CRLF) ; IPv4 and IPv6 Interface Info (includes everything except Address Masks) ; params: 0 (IPv4 AND IPv6), 0 (don't get all IP's), 0 (don't include down-status interfaces) $aIPAllAddrTable = _Network_IPAllAddressTable(0, 0, 0) $nInterfaces = @extended ConsoleWrite($sSeparator & @CRLF) For $i = 0 To $nInterfaces - 1 ConsoleWrite("Interface #"&$i+1&": [0] Index #"& $aIPAllAddrTable[$i][0] & _ ", [1] Type = " & $aIPAllAddrTable[$i][1] & _ ", [2] Operational Status = " & $aIPAllAddrTable[$i][2] & _ ", [3] Flags = 0x" & Hex($aIPAllAddrTable[$i][3], 8) & _ ", [4] Physical [MAC] Address: " & $aIPAllAddrTable[$i][4] & _ ", [5] MTU = " & $aIPAllAddrTable[$i][5] & @CRLF & _ ", [6] Description: "& $aIPAllAddrTable[$i][6] & _ ", [7] Friendly Name: " & $aIPAllAddrTable[$i][7] & _ ", [8] Adapter/Service Name [GUID] = " & $aIPAllAddrTable[$i][8] & @CRLF & _ ", [9] Max Receive Speed [Vista+] = " & $aIPAllAddrTable[$i][9] & _ ", [10] Max Transmit Speed [Vista+] = " & $aIPAllAddrTable[$i][10] & @CRLF & _ ", [11] IPv4 Address(es): "& $aIPAllAddrTable[$i][11] & _ ", [12] IPv6 Address(es): "& $aIPAllAddrTable[$i][12] & @CRLF & _ ", [13] DNS IPv4 Address(es): "& $aIPAllAddrTable[$i][13] & _ ", [14] DNS IPv6 Address(es): "& $aIPAllAddrTable[$i][14] & @CRLF & _ ", [15] Gateway IPv4 Address(es) [Vista+]: "& $aIPAllAddrTable[$i][15] & _ ", [16] Gateway IPv6 Address(es) [Vista+]: "& $aIPAllAddrTable[$i][16] & @CRLF & _ ", [17] DHCP IPv4 Address(es) [Vista+]: "& $aIPAllAddrTable[$i][17] & _ ", [18] DHCP IPv6 Address(es) [Vista+]: "& $aIPAllAddrTable[$i][18] & @CRLF & _ ", [19] WINS IPv4 Address(es) [Vista+]: "& $aIPAllAddrTable[$i][19] & _ ", [20] WINS IPv6 Address(es) [Vista+]: "& $aIPAllAddrTable[$i][20] & @CRLF & _ ", [21] Connection Type [Vista+] = " & $aIPAllAddrTable[$i][21] & _ ", [22] Tunnel Type [Vista+] = " & $aIPAllAddrTable[$i][22] & @CRLF) ; Interface Statistics & Info for Given index $aNIEntryInfo = _Network_InterfaceEntryInfo($aIPAllAddrTable[$i][0]) ;~ ConsoleWrite("_Network_InterfaceEntryInfo return, @error = " & @error & ", @extended = " & @extended & @CRLF) ConsoleWrite("Interface #"&$i+1&" Entry Info: [0] Interface Index = " & $aNIEntryInfo[0] & _ ", [1] Interface Type = " & $aNIEntryInfo[1] & _ ", [2] Operational Status = " & $aNIEntryInfo[2] & _ ", [3] Admin Status = " & $aNIEntryInfo[3] & _ ", [4] Physical Address = " & $aNIEntryInfo[4] & _ ", [5] MTU [Max Trans. Unit] in bytes = " & $aNIEntryInfo[5] & @CRLF & _ ", [6] Description = " & $aNIEntryInfo[6] & _ ", [7] Interface Name = " & $aNIEntryInfo[7] & @CRLF & _ ", [8] Last change [1/100th second] = " & $aNIEntryInfo[8] & _ ", [9] Interface Speed [bps] = " & $aNIEntryInfo[9] & @CRLF & _ ", [10] # Recvd Data [in Octets] = " & $aNIEntryInfo[10] & _ ", [11] # Recvd Unicast Packets = " & $aNIEntryInfo[11] & _ ", [12] # Recvd Non-Unicast Packets = " & $aNIEntryInfo[12] & _ ", [13] # Recvd Packets Discarded [no error] = " & $aNIEntryInfo[13] & _ ", [14] # Recvd Packets Discarded [error] = " & $aNIEntryInfo[14] & _ ", [15] # Recvd Packets Discarded [unk. protocol] = " & $aNIEntryInfo[15] & @CRLF & _ ", [16] # Sent Data [in Octets] = " & $aNIEntryInfo[16] & _ ", [17] # Sent Unicast Packets = " & $aNIEntryInfo[17] & _ ", [18] # Sent Non-Unicast Packets = " & $aNIEntryInfo[18] & _ ", [19] # Sent Packets Discarded [no error] = " & $aNIEntryInfo[19] & _ ", [20] # Sent Packets Discarded [error] = " & $aNIEntryInfo[20] & @CRLF & _ ", [21] Transmit Queue Length [n/a] = " & $aNIEntryInfo[21] & @CRLF) ConsoleWrite($sSeparator & @CRLF) Next $hSplash=SplashTextOn("Network Usage Information", "", 520, 24 + (19 * 15) + ($nInterfaces * (5.5 * 15)), Default, Default, 16+4, "Lucida Console", 11) ; Start loop Do $aIPStats = _Network_IPStatistics() $aTCPStats = _Network_TCPStatistics() $aUDPStats = _Network_UDPStatistics() $aICMPStats = _Network_ICMPStatistics() $aIPv6Stats = _Network_IPStatistics(1) $aTCPv6Stats = _Network_TCPStatistics(1) $aUDPv6Stats = _Network_UDPStatistics(1) $aICMPv6Stats = _Network_ICMPStatistics(1) $sSplashText = StringFormat("%35s", "== TCP Stats ==") & @CRLF $sSplashText &= StringFormat("IPv4: [Segments] Recvd = %10u | Sent = %10u", $aTCPStats[9], $aTCPStats[10]) & @CRLF $sSplashText &= StringFormat("IPv6: [Segments] Recvd = %10u | Sent = %10u", $aTCPv6Stats[9], $aTCPv6Stats[10]) & @CRLF $sSplashText &= StringFormat("<Total Connections> IPv4: %10u | IPv6: %10u", $aTCPStats[14], $aTCPv6Stats[14]) & @CRLF $sSplashText &= @CRLF & StringFormat("%35s", "== UDP Stats ==") & @CRLF $sSplashText &= StringFormat("IPv4: [Datagrams] Recvd = %10u | Sent = %10u", $aUDPStats[0], $aUDPStats[3]) & @CRLF $sSplashText &= StringFormat("IPv6: [Datagrams] Recvd = %10u | Sent = %10u", $aUDPv6Stats[0], $aUDPv6Stats[3]) & @CRLF $sSplashText &= StringFormat("<Total Listeners> IPv4: %10u | IPv6: %10u", $aUDPStats[4], $aUDPv6Stats[4]) & @CRLF $sSplashText &= @CRLF & StringFormat("%35s", "== IP Stats ==") & @CRLF $sSplashText &= StringFormat("IPv4: [Datagrams] Recvd = %10u | Sent = %10u", $aIPStats[2], $aIPStats[9]) & @CRLF $sSplashText &= StringFormat("IPv6: [Datagrams] Recvd = %10u | Sent = %10u", $aIPv6Stats[2], $aIPv6Stats[9]) & @CRLF $sSplashText &= @CRLF & StringFormat("%35s", "== ICMP Stats ==") & @CRLF $sSplashText &= StringFormat("IPv4: [Messages] Recvd = %10u | Sent = %10u", $aICMPStats[0], $aICMPStats[2]) & @CRLF $sSplashText &= StringFormat("IPv6: [Messages] Recvd = %10u | Sent = %10u", $aICMPv6Stats[0], $aICMPv6Stats[2]) & @CRLF For $i = 0 To $nInterfaces - 1 ;~ $aNIEntryInfo = _Network_InterfaceEntryInfo($aIPv4AddrTable[$i][0]) ;~ $sSplashText &= @CRLF & StringFormat("%35s", "== IP " & $aIPv4AddrTable[$i][1] & " ==" ) & @CRLF $aNIEntryInfo = _Network_InterfaceEntryInfo($aIPAllAddrTable[$i][0]) If @error Then ConsoleWrite("_Network_InterfaceEntryInfo return, @error = " & @error & ", @extended = " & @extended & @CRLF) ExitLoop EndIf If $aIPAllAddrTable[$i][11] <> "" Then $sSplashText &= @CRLF & StringFormat("%40s", "== IPv4 " & $aIPAllAddrTable[$i][11] & " ==" ) & @CRLF Else $sSplashText &= @CRLF & StringFormat("%52s", "== IPv6 " & $aIPAllAddrTable[$i][12] & " ==" ) & @CRLF EndIf $sSplashText &= StringFormat("%45.56s", $aNIEntryInfo[6]) & @CRLF ; Octet *should* be the same as Bytes.. $sSplashText &= StringFormat("Data (Octets/Bytes): Recvd = %10u | Sent = %10u", $aNIEntryInfo[10], $aNIEntryInfo[16]) & @CRLF $sSplashText &= StringFormat("Unicast Packets: Recvd = %10u | Sent = %10u", $aNIEntryInfo[11], $aNIEntryInfo[17]) & @CRLF $sSplashText &= StringFormat("Non-Unicast Packets: Recvd = %10u | Sent = %10u", $aNIEntryInfo[12], $aNIEntryInfo[18]) & @CRLF Next $sSplashText &= @CRLF & StringFormat("%35s", "[ESC] Exits") & @CRLF ControlSetText($hSplash, "", "[CLASS:Static; INSTANCE:1]", $sSplashText) Sleep(500) Until $bHotKeyPressed NetworkStatistics.zip ~prev version. downloads: >100 Updates: 2013-07-11: Changed: _Network_IPv4AdaptersInfoEx() now returns all IP's (if requested) and Address Masks Fixed: WSALastError call possible crash with non-array variable Changed: _Network_IPAllAddressTable() now allows 'down' status interfaces to be returned Added: Some comments on development, info on getting additional stats in the UDF 2013-07-06: Added: Much more Adapter Information Changed: Example is now separate from the UDF Fixed some minor issues here and there Changed: Global Handle to IPHLPAPI.DLL is now contained in the UDF and used to speed up function calls Misc. Other fixes I didn't keep track of! 2013-07-02: Hotfix: Ipv6 indexing error Fixed: indexing, updated and enhanced output Changed: Various functions return arrays even if failure - this is to make XP pre-SP1 and also collection of IPv6 less troublesome. @error should still be checked on return though! Added: Adapter and Interface information and statistics collection 2013-06-20: Now covers all the 'p's - IP and ICMP now added

I was needing to get SHA-256 from some file. and I made this. #include <File.au3> Opt("MustDeclareVars",1) Global Const $iHashLen=32 Global Const $Advapi32="Advapi32.dll" Global Const $PROV_RSA_AES=24 Global Const $CALG_SHA_256=0x0000800c Global Const $CRYPT_VERIFYCONTEXT = 0xF0000000 Global Const $HP_HASHVAL=0x0002 Local $aFiles=_FileListToArray(@SystemDir,"*.exe",1,True) _ArrayDisplay($aFiles) Local $aFiles2[UBound($aFiles)-1][2] For $i= 1 to $aFiles[0] $aFiles2[$i-1][0]=$aFiles[$i] $aFiles2[$i-1][1]=SHA256($aFiles[$i]) Next _ArrayDisplay($aFiles2) Func SHA256($sFile) Local $hCryptProv=0 Local $hHash=0 Local $Ret = 0 Local $iSize=0 Local $tBuffer=0 Local $hHash=0 Local $tHashData=0 Local $sHASH="" if not FileExists($sFile) Then Return "" $iSize=FileGetSize($sFile) $Ret = DllCall($Advapi32, "bool", "CryptAcquireContextW", "handle*", 0, "ptr", NULL, "ptr", Null,"dword",$PROV_RSA_AES,"dword",$CRYPT_VERIFYCONTEXT) ConsoleWrite("+ CryptAcquireContextW Ret= " & $Ret[0] & @TAB & '>Error code: ' & @error & @CRLF) $hCryptProv=$Ret[1] ConsoleWrite("$hCryptProv= " & $hCryptProv & @CRLF) $Ret = DllCall($Advapi32, "bool", "CryptCreateHash", "handle", $hCryptProv, "dword",$CALG_SHA_256,"dword",0,"dword",0,"handle*",0) ConsoleWrite("+ CryptCreateHash Ret= " & $Ret[0] & @TAB & '>Error code: ' & @error & @CRLF) $hHash=$Ret[5] ConsoleWrite("$pHash= " & $hHash & @CRLF) $tBuffer=DllStructCreate("byte Data[" & $iSize & "]") $tBuffer.Data=FileRead($sFile) $Ret = DllCall($Advapi32, "bool", "CryptHashData", "handle", $hHash,"ptr",DllStructGetPtr($tBuffer),"dword",DllStructGetSize($tBuffer),"dword",0) ConsoleWrite("+ CryptHashData Ret= " & $Ret[0] & @TAB & '>Error code: ' & @error & @CRLF) $tHashData=DllStructCreate("byte[" & $iHashLen & "]") $Ret = DllCall($Advapi32, "bool", "CryptGetHashParam", "handle", $hHash, "dword",$HP_HASHVAL,"ptr",DllStructGetPtr($tHashData),"dword*",$iHashLen,"dword",0) ConsoleWrite("+ CryptGetHashParam Ret= " & $Ret[0] & @TAB & '>Error code: ' & @error & @CRLF) For $i=1 to $iHashLen $sHASH&=Hex(DllStructGetData($tHashData, 1, $i), 2) Next if $hHash Then $Ret = DllCall($Advapi32, "bool", "CryptDestroyHash", "handle",$hHash) ConsoleWrite("+ CryptDestroyHash Ret= " & $Ret[0] & @TAB & '>Error code: ' & @error & @CRLF) EndIf If $hCryptProv Then $Ret = DllCall($Advapi32, "bool", "CryptReleaseContext", "handle", $hCryptProv, "dword",0) ConsoleWrite("+ CryptReleaseContext Ret= " & $Ret[0] & @TAB & '>Error code: ' & @error & @CRLF) EndIf $tBuffer=Null $tHashData=Null Return $sHASH EndFunc Saludos

a little improvement could be like this: (pass the date and the part you want to be returned as: 0=day 1=month 2=minutes 3=seconds) also easly modifiable if date format change, for example also year is included. MsgBox(0, "Day", _SplitDate("25 dec 23:59", 0)) ; return day MsgBox(0, "Month", _SplitDate("21 dec 17:36", 1)) ; return month MsgBox(0, "Minutes", _SplitDate("2 nov 3:36", 2)) ; return minutes MsgBox(0, "Seconds", _SplitDate("9 oct 6:00", 3)) ; return seconds Func _SplitDate($sString, $iPart = 0) Local $aParts = StringSplit(StringStripWS($sString, 7), " :", 2) Return $aParts[$iPart] EndFunc ;==>_SplitDate

a couple of passes with stringtrim msgbox (0 , '' , _Hour("21 dec 17:36")) msgbox (0 , '' , _Hour("2 nov 3:36")) msgbox (0 , '' , _Hour("9 oct 6:00")) Func _Hour($sString) $sStrip1 = stringtrimright(stringtrimleft($sString , 5) , 3) If stringleft($sStrip1 , 1) = " " Then $sStrip2 = stringtrimleft($sStrip1 , 1) Else $sStrip2 = stringtrimleft($sStrip1 , 2) EndIf Return $sStrip2 EndFunc

You need to use a regular expression, example : #Include <Array.au3> $str = "21 dec 17:36" $res = StringRegExp($str, '(\d+)\s*(\w+)\s*(\d+):(\d+)', 3) _ArrayDisplay($res) $res1 = StringRegExp($str, '(\d+):', 3) _ArrayDisplay($res1) Of course usual String* funcs also work $str = "21 dec 17:36" Msgbox(0,"", StringMid($str, 8, 2) )

Try it this way: ConsoleWrite(TestFunc("A") & @CRLF) ConsoleWrite(TestFunc("%") & @CRLF) ConsoleWrite(TestFunc("g") & @CRLF) ConsoleWrite(TestFunc("™") & @CRLF) ConsoleWrite(TestFunc("5") & @CRLF) ConsoleWrite(TestFunc("?") & @CRLF) Func TestFunc($Char) Switch Asc($Char) Case 45 To 46, 48 to 57, 65 To 90, 95, 97 To 122, 126 Return $Char Case Else Return "#" EndSwitch EndFunc Br, UEZ

>this link could interest you.

There is so MUCH work that has to go into an intelligent OCR. More so than I'm sure any one/many person(s) on this forum would be willing to partake in without payment or first child contract. Having said that, there have been many many many threads/example scripts/etc on this subject in the short (almost) 10 years I've been a part of this forum, one that pops to mind is tesseract (sp?), I believe even microsoft had a built in one at one time. Food for thought: The only thing I see the request most for anymore is what you've tried to emphasize it isn't for (captcha). Assurances mean little when you present the possible doubt without probable and undeniable and detailed example/proof per say that you aren't. Especially from someone that says they have been using the program for weeks and has only 2 posts. On a personal note: If all of you are novice programmers, it really makes me wonder what use novices would have for an ocr other than 1 of 2 options. Wish you well, good luck.

I looked for awhile on the forums and Google in general, and I couldn't find any code that returned the path to the base dropbox folder, so I wrote this small snippet. I hope this helps someone! Now, all my computers and virtual machines can run easily easily by referring to it as simply DropboxFolder(). This small script REQUIRES the installation of a base64 decoder. Here's the one I use, written by Ward: '?do=embed' frameborder='0' data-embedContent>> ; #FUNCTION# ;=============================================================================== ; ; Name...........: DropboxFolder ; Description ...: Simply returns the file path to the currently logged on user's dropbox folder ; Syntax.........: DropboxFolder() ; Parameters ....: ; Return values .: Success - Returns the dropbox folder path ; Failure - Returns 0 and Sets @Error: ; |0 - No error. ; |1 - Dropbox settings file not found in @appdatadir & "\Dropbox" ; |2 - Folder path returned does not exist (possibly an error with decoding) ; Author ........: FlashpointBlack ; Modified.......: ; Remarks .......: ; Related .......: ; Link ..........; ; Example .......; No ; ; ;========================================================================================== Func DropboxFolder() if not fileexists(@appdatadir & "\Dropbox\host.db") then ;file does not exist SetError(1,0,0) EndIf $Folder = _Base64Decode(FileReadLine(@appdatadir & "\Dropbox\host.db", 2)) if not FileExists($Folder) then ;returned folder does not exist SetError(2,0,0) endif Return $Folder Endfunc