1 files changed, 380 insertions, 0 deletions

diff --git a/nselib/data/psexec/nmap_service.c b/nselib/data/psexec/nmap_service.c
new file mode 100644
index 0000000..a6a563b
--- /dev/null
+++ b/nselib/data/psexec/nmap_service.c
@@ -0,0 +1,380 @@
+/**This is the program that's uploaded to a Windows machine when psexec is run. It acts as a Windows

+ * service, since that's what Windows expects. When it is started, it's passed a list of programs to

+ * run. These programs are all expected to be at the indicated path (whether they were uploaded or

+ * they were always present makes no difference).

+ *

+ * After running the programs, the output from each of them is ciphered with a simple xor encryption

+ * (the encryption key is passed as a parameter; because it crosses the wire, it isn't really a

+ * security feature, more of validation/obfuscation to prevent sniffers from grabbing the output. This

+ * output is placed in a temp file. When the cipher is complete, the output is moved into a new file.

+ * When Nmap detects the presence of this new file, it is downloaded, then all files, temp files, and

+ * the service (this program) is deleted.

+ *

+ * One interesting note is that executable files don't require a specific extension to be used by this

+ * program. By default, at the time of this writing, Nmap appends a .txt extension to the file.

+ *

+ * @args argv[1]   The final filename where the ciphered output will go.

+ * @args argv[2]   The temporary file where output is sent before being renamed; this is sent as a parameter

+ *                 so we can delete it later (if, say, the script fails).

+ * @args argv[3]   The number of programs that are going to be run.

+ * @args argv[4]   Logging: a boolean value (1 to enable logging, 0 to disable).

+ * @args argv[5]   An 'encryption' key for simple 'xor' encryption. This string can be as long or as short

+ *                 as you want, but a longer string will be more secure (although this algorithm should

+ *                 *never* really be considered secure).

+ * @args Remaining There are two arguments for each program to run: a path (including arguments) and

+ *                 environmental variables.

+ *

+ * @auther    Ron Bowes

+ * @copyright Ron Bowes

+ * @license   "Same as Nmap--See https://nmap.org/book/man-legal.html"

+ */

+

+#include <stdio.h>

+#include <windows.h>

+

+FILE *outfile;

+

+SERVICE_STATUS ServiceStatus;

+SERVICE_STATUS_HANDLE hStatus;

+

+static char *enc_key;

+static int   enc_key_loc;

+

+static void log_message(char *format, ...)

+{

+	static int enabled = 1;

+

+	if(!format)

+	{

+		enabled = 0;

+		DeleteFile("c:\\nmap-log.txt");

+	}

+

+

+	if(enabled)

+	{

+		va_list argp;

+		FILE *file;

+

+		fopen_s(&file, "c:\\nmap-log.txt", "a");

+

+		if(file != NULL)

+		{

+			va_start(argp, format);

+			vfprintf(file, format, argp);

+			va_end(argp);

+			fprintf(file, "\n");

+			fclose(file);

+		}

+	}

+}

+

+static char cipher(char c)

+{

+	if(strlen(enc_key) == 0)

+		return c;

+

+	c = c ^ enc_key[enc_key_loc];

+	enc_key_loc = (enc_key_loc + 1) % strlen(enc_key);

+

+	return c;

+}

+

+static void output(int num, char *str, int length)

+{

+	int i;

+

+	if(length == -1)

+		length = strlen(str);

+

+	for(i = 0; i < length; i++)

+	{

+		if(str[i] == '\n')

+		{

+			fprintf(outfile, "%c", cipher('\n'));

+			fprintf(outfile, "%c", cipher('0' + (num % 10)));

+		}

+		else

+		{

+			fprintf(outfile, "%c", cipher(str[i]));

+		}

+	}

+}

+

+static void go(int num, char *lpAppPath, char *env, int headless, int include_stderr, char *readfile)

+{

+	STARTUPINFO         startupInfo;

+	PROCESS_INFORMATION processInformation;

+	SECURITY_ATTRIBUTES sa;

+	HANDLE              stdout_read, stdout_write;

+	DWORD               creation_flags;

+

+	int bytes_read;

+	char buffer[1024];

+

+	/* Create a security attributes structure. This is required to inherit handles. */

+	ZeroMemory(&sa, sizeof(SECURITY_ATTRIBUTES));

+	sa.nLength              = sizeof(SECURITY_ATTRIBUTES);

+	sa.lpSecurityDescriptor = NULL;

+

+	if(!headless)

+		sa.bInheritHandle       = TRUE;

+

+	/* Create a pipe that'll be used for stdout and stderr. */

+	if(!headless)

+		CreatePipe(&stdout_read, &stdout_write, &sa, 1);

+

+	/* Initialize the startup info struct. The most important part is setting the stdout/stderr handle to our pipe. */

+	ZeroMemory(&startupInfo, sizeof(STARTUPINFO));

+	startupInfo.cb         = sizeof(STARTUPINFO);

+

+	if(!headless)

+	{

+		startupInfo.dwFlags    = STARTF_USESTDHANDLES;

+		startupInfo.hStdOutput = stdout_write;

+		if(include_stderr)

+			startupInfo.hStdError  = stdout_write;

+	}

+

+	/* Log a couple messages. */

+	log_message("Attempting to load the program: %s", lpAppPath);

+

+	/* Initialize the PROCESS_INFORMATION structure. */

+	ZeroMemory(&processInformation, sizeof(PROCESS_INFORMATION));

+

+	/* To divide the output from one program to the next */

+	output(num, "\n", -1);

+

+	/* Decide on the creation flags */

+	creation_flags = CREATE_NO_WINDOW;

+	if(headless)

+		creation_flags = DETACHED_PROCESS;

+

+	/* Create the actual process with an overly-complicated CreateProcess function. */

+	if(!CreateProcess(NULL, lpAppPath, 0, &sa, sa.bInheritHandle, CREATE_NO_WINDOW, env, 0, &startupInfo, &processInformation))

+	{

+		output(num, "Failed to create the process", -1);

+

+		if(!headless)

+		{

+			CloseHandle(stdout_write);

+			CloseHandle(stdout_read);

+		}

+	}

+	else

+	{

+		log_message("Successfully created the process!");

+

+		/* Read the pipe, if it isn't headless */

+		if(!headless)

+		{

+			/* Close the write handle -- if we don't do this, the ReadFile() coming up gets stuck. */

+			CloseHandle(stdout_write);

+

+			/* Read from the pipe. */

+			log_message("Attempting to read from the pipe");

+			while(ReadFile(stdout_read, buffer, 1023, &bytes_read, NULL))

+			{

+				if(strlen(readfile) == 0)

+					output(num, buffer, bytes_read);

+			}

+			CloseHandle(stdout_read);

+

+			/* If we're reading an output file instead of stdout, do it here. */

+			if(strlen(readfile) > 0)

+			{

+				FILE *read;

+				errno_t err;

+

+				log_message("Trying to open output file: %s", readfile);

+				err = fopen_s(&read, readfile, "rb");

+

+				if(err)

+				{

+					log_message("Couldn't open the readfile: %d", err);

+					output(num, "Couldn't open the output file", -1);

+				}

+				else

+				{

+					char buf[1024];

+					int count;

+

+					count = fread(buf, 1, 1024, read);

+					while(count)

+					{

+						output(num, buf, count);

+						count = fread(buf, 1, 1024, read);

+					}

+

+					fclose(read);

+				}

+			}

+		}

+		else

+		{

+			output(num, "Process has been created", -1);

+		}

+

+		log_message("Done!");

+	}

+}

+

+// Control handler function

+static void ControlHandler(DWORD request)

+{

+	switch(request)

+	{

+		case SERVICE_CONTROL_STOP:

+

+			ServiceStatus.dwWin32ExitCode = 0;

+			ServiceStatus.dwCurrentState  = SERVICE_STOPPED;

+			SetServiceStatus (hStatus, &ServiceStatus);

+			return;

+

+		case SERVICE_CONTROL_SHUTDOWN:

+

+			ServiceStatus.dwWin32ExitCode = 0;

+			ServiceStatus.dwCurrentState  = SERVICE_STOPPED;

+			SetServiceStatus (hStatus, &ServiceStatus);

+			return;

+

+		default:

+			break;

+	}

+

+	SetServiceStatus(hStatus,  &ServiceStatus);

+}

+

+

+

+static void die(int err)

+{

+	// Not enough arguments

+	ServiceStatus.dwCurrentState  = SERVICE_STOPPED;

+	ServiceStatus.dwWin32ExitCode = err;

+	SetServiceStatus(hStatus, &ServiceStatus);

+}

+

+static void ServiceMain(int argc, char** argv)

+{

+	char   *outfile_name;

+	char   *tempfile_name;

+	int     count;

+	int     logging;

+	int     result;

+	int     i;

+	char   *current_directory;

+

+	/* Make sure we got the minimum number of arguments. */

+	if(argc < 6)

+		return;

+

+	/* Read the arguments. */

+	outfile_name      = argv[1];

+	tempfile_name     = argv[2];

+	count             = atoi(argv[3]);

+	logging           = atoi(argv[4]);

+	enc_key           = argv[5];

+	enc_key_loc       = 0;

+	current_directory = argv[6];

+

+	/* If they didn't turn on logging, disable it. */

+	if(logging != 1)

+		log_message(NULL);

+

+	/* Log the state. */

+	log_message("");

+	log_message("-----------------------");

+	log_message("STARTING");

+

+	/* Log all the arguments. */

+	log_message("Arguments: %d\n", argc);

+	for(i = 0; i < argc; i++)

+		log_message("Argument %d: %s", i, argv[i]);

+

+	/* Set up the service. Likely unnecessary for what we're doing, but it doesn't hurt. */

+	ServiceStatus.dwServiceType             = SERVICE_WIN32;

+	ServiceStatus.dwCurrentState            = SERVICE_RUNNING;

+	ServiceStatus.dwControlsAccepted        = SERVICE_ACCEPT_STOP | SERVICE_ACCEPT_SHUTDOWN;

+	ServiceStatus.dwWin32ExitCode           = 0;

+	ServiceStatus.dwServiceSpecificExitCode = 0;

+	ServiceStatus.dwCheckPoint              = 0;

+	ServiceStatus.dwWaitHint                = 0;

+	hStatus = RegisterServiceCtrlHandler("", (LPHANDLER_FUNCTION)ControlHandler);

+	SetServiceStatus(hStatus, &ServiceStatus);

+

+	/* Registering Control Handler failed (this is a bit late, but eh?) */

+	if(hStatus == (SERVICE_STATUS_HANDLE)0)

+	{

+		log_message("Service failed to start");

+		die(-1);

+		return;

+	}

+

+	/* Set the current directory. */

+	SetCurrentDirectory(current_directory);

+

+	/* Open the output file. */

+	log_message("Opening temporary output file: %s", tempfile_name);

+

+	/* Open the outfile. */

+	if(result = fopen_s(&outfile, tempfile_name, "wb"))

+	{

+		log_message("Couldn't open output file: %d", result);

+		die(-1);

+	}

+	else

+	{

+		/* Run the programs we were given. */

+		for(i = 0; i < count; i++)

+		{

+			char *program        = argv[(i*5) + 7];

+			char *env            = argv[(i*5) + 8];

+			char *headless       = argv[(i*5) + 9];

+			char *include_stderr = argv[(i*5) + 10];

+			char *read_file      = argv[(i*5) + 11];

+

+			go(i, program, env, !strcmp(headless, "true"), !strcmp(include_stderr, "true"), read_file);

+		}

+

+		/* Close the output file. */

+		if(fclose(outfile))

+			log_message("Couldn't close the file: %d", errno);

+

+		/* Rename the output file (this is what tells Nmap we're done. */

+		log_message("Renaming file %s => %s", tempfile_name, outfile_name);

+

+		/* I noticed that sometimes, programs inherit the handle to the file (or something), so I can't change it right

+		 * away. For this reason, allow about 10 seconds to move it. */

+		for(i = 0; i < 10; i++)

+		{

+			if(rename(tempfile_name, outfile_name))

+			{

+				log_message("Couldn't rename file: %d (will try %d more times)", errno, 10 - i - 1);

+			}

+			else

+			{

+				log_message("File successfully renamed!");

+				break;

+			}

+

+			Sleep(1000);

+		}

+

+		/* Clean up and stop the service. */

+		die(0);

+	}

+}

+

+int main(int argc, char *argv[])

+{

+	SERVICE_TABLE_ENTRY ServiceTable[2];

+	ServiceTable[0].lpServiceName = "";

+	ServiceTable[0].lpServiceProc = (LPSERVICE_MAIN_FUNCTION)ServiceMain;

+

+	ServiceTable[1].lpServiceName = NULL;

+	ServiceTable[1].lpServiceProc = NULL;

+	// Start the control dispatcher thread for our service

+	StartServiceCtrlDispatcher(ServiceTable);

+}

+