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|
/* run.c --- routines for executing subprocesses under Windows NT.
This file is part of GNU CVS.
GNU CVS is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by the
Free Software Foundation; either version 2, or (at your option) any
later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, 675 Mass Ave, Cambridge, MA 02139, USA. */
#include "cvs.h"
#define WIN32_LEAN_AND_MEAN
#include <windows.h>
#include <stdlib.h>
#include <process.h>
#include <errno.h>
#include <io.h>
#include <fcntl.h>
#ifdef HAVE_VPRINTF
#if defined (USE_PROTOTYPES) ? USE_PROTOTYPES : defined (__STDC__)
#include <stdarg.h>
#define VA_START(args, lastarg) va_start(args, lastarg)
#else
#include <varargs.h>
#define VA_START(args, lastarg) va_start(args)
#endif
#else
#define va_alist a1, a2, a3, a4, a5, a6, a7, a8
#define va_dcl char *a1, *a2, *a3, *a4, *a5, *a6, *a7, *a8;
#endif
static void run_add_arg PROTO((const char *s));
static void run_init_prog PROTO((void));
extern char *strtok ();
/*
* To exec a program under CVS, first call run_setup() to setup any initial
* arguments. The options to run_setup are essentially like printf(). The
* arguments will be parsed into whitespace separated words and added to the
* global run_argv list.
*
* Then, optionally call run_arg() for each additional argument that you'd like
* to pass to the executed program.
*
* Finally, call run_exec() to execute the program with the specified arguments.
* The execvp() syscall will be used, so that the PATH is searched correctly.
* File redirections can be performed in the call to run_exec().
*/
static char *run_prog;
static char **run_argv;
static int run_argc;
static int run_argc_allocated;
/* VARARGS */
#if defined (HAVE_VPRINTF) && (defined (USE_PROTOTYPES) ? USE_PROTOTYPES : defined (__STDC__))
void
run_setup (const char *fmt,...)
#else
void
run_setup (fmt, va_alist)
char *fmt;
va_dcl
#endif
{
#ifdef HAVE_VPRINTF
va_list args;
#endif
char *cp;
int i;
run_init_prog ();
/* clean out any malloc'ed values from run_argv */
for (i = 0; i < run_argc; i++)
{
if (run_argv[i])
{
free (run_argv[i]);
run_argv[i] = (char *) 0;
}
}
run_argc = 0;
/* process the varargs into run_prog */
#ifdef HAVE_VPRINTF
VA_START (args, fmt);
(void) vsprintf (run_prog, fmt, args);
va_end (args);
#else
(void) sprintf (run_prog, fmt, a1, a2, a3, a4, a5, a6, a7, a8);
#endif
/* put each word into run_argv, allocating it as we go */
for (cp = strtok (run_prog, " \t"); cp; cp = strtok ((char *) NULL, " \t"))
run_add_arg (cp);
}
void
run_arg (s)
const char *s;
{
run_add_arg (s);
}
/* VARARGS */
#if defined (HAVE_VPRINTF) && (defined (USE_PROTOTYPES) ? USE_PROTOTYPES : defined (__STDC__))
void
run_args (const char *fmt,...)
#else
void
run_args (fmt, va_alist)
char *fmt;
va_dcl
#endif
{
#ifdef HAVE_VPRINTF
va_list args;
#endif
run_init_prog ();
/* process the varargs into run_prog */
#ifdef HAVE_VPRINTF
VA_START (args, fmt);
(void) vsprintf (run_prog, fmt, args);
va_end (args);
#else
(void) sprintf (run_prog, fmt, a1, a2, a3, a4, a5, a6, a7, a8);
#endif
/* and add the (single) argument to the run_argv list */
run_add_arg (run_prog);
}
/* Return a malloc'd copy of s, with double quotes around it. */
static char *
quote (const char *s)
{
size_t s_len = strlen (s);
char *copy = xmalloc (s_len + 3);
char *scan = copy;
*scan++ = '"';
strcpy (scan, s);
scan += s_len;
*scan++ = '"';
*scan++ = '\0';
return copy;
}
static void
run_add_arg (s)
const char *s;
{
/* allocate more argv entries if we've run out */
if (run_argc >= run_argc_allocated)
{
run_argc_allocated += 50;
run_argv = (char **) xrealloc ((char *) run_argv,
run_argc_allocated * sizeof (char **));
}
if (s)
{
run_argv[run_argc] = (run_argc ? quote (s) : xstrdup (s));
run_argc++;
}
else
run_argv[run_argc] = (char *) 0; /* not post-incremented on purpose! */
}
static void
run_init_prog ()
{
/* make sure that run_prog is allocated once */
if (run_prog == (char *) 0)
run_prog = xmalloc (10 * 1024); /* 10K of args for _setup and _arg */
}
int
run_exec (stin, stout, sterr, flags)
char *stin;
char *stout;
char *sterr;
int flags;
{
int shin, shout, sherr;
int sain, saout, saerr; /* saved handles */
int mode_out, mode_err;
int status = -1;
int rerrno = 0;
int rval = -1;
void (*old_sigint) (int);
if (trace) /* if in trace mode */
{
(void) fprintf (stderr, "-> system(");
run_print (stderr);
(void) fprintf (stderr, ")\n");
}
if (noexec && (flags & RUN_REALLY) == 0) /* if in noexec mode */
return (0);
/*
* start the engine and take off
*/
/* make sure that we are null terminated, since we didn't calloc */
run_add_arg ((char *) 0);
/* setup default file descriptor numbers */
shin = 0;
shout = 1;
sherr = 2;
/* set the file modes for stdout and stderr */
mode_out = mode_err = O_WRONLY | O_CREAT;
mode_out |= ((flags & RUN_STDOUT_APPEND) ? O_APPEND : O_TRUNC);
mode_err |= ((flags & RUN_STDERR_APPEND) ? O_APPEND : O_TRUNC);
/* open the files as required, shXX are shadows of stdin... */
if (stin && (shin = open (stin, O_RDONLY)) == -1)
{
rerrno = errno;
error (0, errno, "cannot open %s for reading (prog %s)",
stin, run_argv[0]);
goto out0;
}
if (stout && (shout = open (stout, mode_out, 0666)) == -1)
{
rerrno = errno;
error (0, errno, "cannot open %s for writing (prog %s)",
stout, run_argv[0]);
goto out1;
}
if (sterr && (flags & RUN_COMBINED) == 0)
{
if ((sherr = open (sterr, mode_err, 0666)) == -1)
{
rerrno = errno;
error (0, errno, "cannot open %s for writing (prog %s)",
sterr, run_argv[0]);
goto out2;
}
}
/* now save the standard handles */
sain = saout = saerr = -1;
sain = dup( 0); /* dup stdin */
saout = dup( 1); /* dup stdout */
saerr = dup( 2); /* dup stderr */
/* the new handles will be dup'd to the standard handles
* for the spawn.
*/
if (shin != 0)
{
(void) dup2 (shin, 0);
(void) close (shin);
}
if (shout != 1)
{
(void) dup2 (shout, 1);
(void) close (shout);
}
if (flags & RUN_COMBINED)
(void) dup2 (1, 2);
else if (sherr != 2)
{
(void) dup2 (sherr, 2);
(void) close (sherr);
}
/* Ignore signals while we're running this. */
old_sigint = signal (SIGINT, SIG_IGN);
/* dup'ing is done. try to run it now */
rval = spawnvp ( P_WAIT, run_argv[0], run_argv);
/* Restore signal handling. */
signal (SIGINT, old_sigint);
/* restore the original file handles */
if (sain != -1) {
(void) dup2( sain, 0); /* re-connect stdin */
(void) close( sain);
}
if (saout != -1) {
(void) dup2( saout, 1); /* re-connect stdout */
(void) close( saout);
}
if (saerr != -1) {
(void) dup2( saerr, 2); /* re-connect stderr */
(void) close( saerr);
}
/* Recognize the return code for an interrupted subprocess. */
if (rval == CONTROL_C_EXIT)
return 2;
else
return rval; /* end, if all went coorect */
/* error cases */
/* cleanup the open file descriptors */
out2:
if (stout)
(void) close (shout);
out1:
if (stin)
(void) close (shin);
out0:
if (rerrno)
errno = rerrno;
return (status);
}
void
run_print (fp)
FILE *fp;
{
int i;
for (i = 0; i < run_argc; i++)
{
(void) fprintf (fp, "'%s'", run_argv[i]);
if (i != run_argc - 1)
(void) fprintf (fp, " ");
}
}
static char *
requote (const char *cmd)
{
char *requoted = xmalloc (strlen (cmd) + 1);
char *p = requoted;
strcpy (requoted, cmd);
while ((p = strchr (p, '\'')) != NULL)
{
*p++ = '"';
}
return requoted;
}
FILE *
Popen (cmd, mode)
const char *cmd;
const char *mode;
{
if (trace)
#ifdef SERVER_SUPPORT
(void) fprintf (stderr, "%c-> Popen(%s,%s)\n",
(server_active) ? 'S' : ' ', cmd, mode);
#else
(void) fprintf (stderr, "-> Popen(%s,%s)\n", cmd, mode);
#endif
if (noexec)
return (NULL);
/* If the command string uses single quotes, turn them into
double quotes. */
{
char *requoted = requote (cmd);
FILE *result = popen (requoted, mode);
free (requoted);
return result;
}
}
/* Running children with pipes connected to them. */
/* It's kind of ridiculous the hoops we're jumping through to get
this working. _pipe and dup2 and _spawnmumble work just fine, except
that the child inherits a file descriptor for the writing end of the
pipe, and thus will never receive end-of-file on it. If you know of
a better way to implement the piped_child function, please let me know.
You can apparently specify _O_NOINHERIT when you open a file, but there's
apparently no fcntl function, so you can't change that bit on an existing
file descriptor. */
/* Given a handle, make an inheritable duplicate of it, and close
the original. */
static HANDLE
inheritable (HANDLE in)
{
HANDLE copy;
HANDLE self = GetCurrentProcess ();
if (! DuplicateHandle (self, in, self, ©,
0, 1 /* fInherit */,
DUPLICATE_SAME_ACCESS | DUPLICATE_CLOSE_SOURCE))
return INVALID_HANDLE_VALUE;
return copy;
}
/* Initialize the SECURITY_ATTRIBUTES structure *LPSA. Set its
bInheritHandle flag according to INHERIT. */
static void
init_sa (LPSECURITY_ATTRIBUTES lpsa, BOOL inherit)
{
lpsa->nLength = sizeof(*lpsa);
lpsa->bInheritHandle = inherit;
lpsa->lpSecurityDescriptor = NULL;
}
enum inherit_pipe { inherit_reading, inherit_writing };
/* Create a pipe. Set READWRITE[0] to its reading end, and
READWRITE[1] to its writing end. If END is inherit_reading,
make the only the handle for the pipe's reading end inheritable.
If END is inherit_writing, make only the handle for the pipe's
writing end inheritable. Return 0 if we succeed, -1 if we fail.
Why does inheritability matter? Consider the case of a
pipe carrying data from the parent process to the child
process. The child wants to read data from the parent until
it reaches the EOF. Now, the only way to send an EOF on a pipe
is to close all the handles to its writing end. Obviously, the
parent has a handle to the writing end when it creates the child.
If the child inherits this handle, then it will never close it
(the child has no idea it's inherited it), and will thus never
receive an EOF on the pipe because it's holding a handle
to it.
In Unix, the child process closes the pipe ends before it execs.
In Windows NT, you create the pipe with uninheritable handles, and then use
DuplicateHandle to make the appropriate ends inheritable. */
static int
my_pipe (HANDLE *readwrite, enum inherit_pipe end)
{
HANDLE read, write;
SECURITY_ATTRIBUTES sa;
init_sa (&sa, 0);
if (! CreatePipe (&read, &write, &sa, 1 << 13))
{
errno = EMFILE;
return -1;
}
if (end == inherit_reading)
read = inheritable (read);
else
write = inheritable (write);
if (read == INVALID_HANDLE_VALUE
|| write == INVALID_HANDLE_VALUE)
{
CloseHandle (read);
CloseHandle (write);
errno = EMFILE;
return -1;
}
readwrite[0] = read;
readwrite[1] = write;
return 0;
}
/* Initialize the STARTUPINFO structure *LPSI. */
static void
init_si (LPSTARTUPINFO lpsi)
{
memset (lpsi, 0, sizeof (*lpsi));
lpsi->cb = sizeof(*lpsi);
lpsi->lpReserved = NULL;
lpsi->lpTitle = NULL;
lpsi->lpReserved2 = NULL;
lpsi->cbReserved2 = 0;
lpsi->lpDesktop = NULL;
lpsi->dwFlags = 0;
}
/* Create a child process running COMMAND with IN as its standard input,
and OUT as its standard output. Return a handle to the child, or
INVALID_HANDLE_VALUE. */
static int
start_child (char *command, HANDLE in, HANDLE out)
{
STARTUPINFO si;
PROCESS_INFORMATION pi;
BOOL status;
/* The STARTUPINFO structure can specify handles to pass to the
child as its standard input, output, and error. */
init_si (&si);
si.hStdInput = in;
si.hStdOutput = out;
si.hStdError = (HANDLE) _get_osfhandle (2);
si.dwFlags = STARTF_USESTDHANDLES;
status = CreateProcess ((LPCTSTR) NULL,
(LPTSTR) command,
(LPSECURITY_ATTRIBUTES) NULL, /* lpsaProcess */
(LPSECURITY_ATTRIBUTES) NULL, /* lpsaThread */
TRUE, /* fInheritHandles */
0, /* fdwCreate */
(LPVOID) 0, /* lpvEnvironment */
(LPCTSTR) 0, /* lpszCurDir */
&si, /* lpsiStartInfo */
&pi); /* lppiProcInfo */
if (! status)
{
DWORD error_code = GetLastError ();
switch (error_code)
{
case ERROR_NOT_ENOUGH_MEMORY:
case ERROR_OUTOFMEMORY:
errno = ENOMEM; break;
case ERROR_BAD_EXE_FORMAT:
errno = ENOEXEC; break;
case ERROR_ACCESS_DENIED:
errno = EACCES; break;
case ERROR_NOT_READY:
case ERROR_FILE_NOT_FOUND:
case ERROR_PATH_NOT_FOUND:
default:
errno = ENOENT; break;
}
return (int) INVALID_HANDLE_VALUE;
}
/* The _spawn and _cwait functions in the C runtime library
seem to operate on raw NT handles, not PID's. Odd, but we'll
deal. */
return (int) pi.hProcess;
}
/* Given an array of arguments that one might pass to spawnv,
construct a command line that one might pass to CreateProcess.
Try to quote things appropriately. */
static char *
build_command (char **argv)
{
int len;
/* Compute the total length the command will have. */
{
int i;
len = 0;
for (i = 0; argv[i]; i++)
{
char *p;
len += 2; /* for the double quotes */
for (p = argv[i]; *p; p++)
{
if (*p == '"')
len += 2;
else
len++;
}
}
len++; /* for the space or the '\0' */
}
{
char *command = (char *) malloc (len);
int i;
char *p;
if (! command)
{
errno = ENOMEM;
return command;
}
p = command;
/* copy each element of argv to command, putting each command
in double quotes, and backslashing any quotes that appear
within an argument. */
for (i = 0; argv[i]; i++)
{
char *a;
*p++ = '"';
for (a = argv[i]; *a; a++)
{
if (*a == '"')
*p++ = '\\', *p++ = '"';
else
*p++ = *a;
}
*p++ = '"';
*p++ = ' ';
}
p[-1] = '\0';
return command;
}
}
/* Create an asynchronous child process executing ARGV,
with its standard input and output connected to the
parent with pipes. Set *TO to the file descriptor on
which one writes data for the child; set *FROM to
the file descriptor from which one reads data from the child.
Return the handle of the child process (this is what
_cwait and waitpid expect). */
int
piped_child (char **argv, int *to, int *from)
{
int child;
HANDLE pipein[2], pipeout[2];
char *command;
/* Turn argv into a form acceptable to CreateProcess. */
command = build_command (argv);
if (! command)
return -1;
/* Create pipes for communicating with child. Arrange for
the child not to inherit the ends it won't use. */
if (my_pipe (pipein, inherit_reading) == -1
|| my_pipe (pipeout, inherit_writing) == -1)
return -1;
child = start_child (command, pipein[0], pipeout[1]);
free (command);
if (child == (int) INVALID_HANDLE_VALUE)
return -1;
/* Close the pipe ends the parent doesn't use. */
CloseHandle (pipein[0]);
CloseHandle (pipeout[1]);
/* Given the pipe handles, turn them into file descriptors for
use by the caller. */
if ((*to = _open_osfhandle ((long) pipein[1], _O_BINARY)) == -1
|| (*from = _open_osfhandle ((long) pipeout[0], _O_BINARY)) == -1)
return -1;
return child;
}
/*
* dir = 0 : main proc writes to new proc, which writes to oldfd
* dir = 1 : main proc reads from new proc, which reads from oldfd
*/
int
filter_stream_through_program (oldfd, dir, prog, pidp)
int oldfd, dir;
char **prog;
pid_t *pidp;
{
HANDLE pipe[2];
char *command;
int child;
HANDLE oldfd_handle;
HANDLE newfd_handle;
int newfd;
/* Get the OS handle associated with oldfd, to be passed to the child. */
if ((oldfd_handle = (HANDLE) _get_osfhandle (oldfd)) < 0)
return -1;
if (dir)
{
/* insert child before parent, pipe goes child->parent. */
if (my_pipe (pipe, inherit_writing) == -1)
return -1;
if ((command = build_command (prog)) == NULL)
return -1;
child = start_child (command, oldfd_handle, pipe[1]);
free (command);
if (child == (int) INVALID_HANDLE_VALUE)
return -1;
close (oldfd);
CloseHandle (pipe[1]);
newfd_handle = pipe[0];
}
else
{
/* insert child after parent, pipe goes parent->child. */
if (my_pipe (pipe, inherit_reading) == -1)
return -1;
if ((command = build_command (prog)) == NULL)
return -1;
child = start_child (command, pipe[0], oldfd_handle);
free (command);
if (child == (int) INVALID_HANDLE_VALUE)
return -1;
close (oldfd);
CloseHandle (pipe[0]);
newfd_handle = pipe[1];
}
if ((newfd = _open_osfhandle ((long) newfd_handle, _O_BINARY)) == -1)
return -1;
*pidp = child;
return newfd;
}
/* Arrange for the file descriptor FD to not be inherited by child
processes. At the moment, CVS uses this function only on pipes
returned by piped_child, and our implementation of piped_child
takes care of setting the file handles' inheritability, so this
can be a no-op. */
void
close_on_exec (int fd)
{
}
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