threadproc/beos/proc.c - platform/external/apache-apr - Git at Google

 /* Licensed to the Apache Software Foundation (ASF) under one or more
  * contributor license agreements.  See the NOTICE file distributed with
  * this work for additional information regarding copyright ownership.
  * The ASF licenses this file to You under the Apache License, Version 2.0
  * (the "License"); you may not use this file except in compliance with
  * the License.  You may obtain a copy of the License at
  *
  *     http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include "apr_arch_threadproc.h"
 #include "apr_strings.h"

 struct send_pipe {
 	int in;
 	int out;
 	int err;
 };

 APR_DECLARE(apr_status_t) apr_procattr_create(apr_procattr_t **new, apr_pool_t *pool)
 {
     (*new) = (apr_procattr_t *)apr_palloc(pool,
               sizeof(apr_procattr_t));

     if ((*new) == NULL) {
         return APR_ENOMEM;
     }
     (*new)->pool = pool;
     (*new)->parent_in = NULL;
     (*new)->child_in = NULL;
     (*new)->parent_out = NULL;
     (*new)->child_out = NULL;
     (*new)->parent_err = NULL;
     (*new)->child_err = NULL;
     (*new)->currdir = NULL;
     (*new)->cmdtype = APR_PROGRAM;
     (*new)->detached = 0;
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_io_set(apr_procattr_t *attr, apr_int32_t in,
                                               apr_int32_t out, apr_int32_t err)
 {
     apr_status_t status;
     if (in != 0) {
         if ((status = apr_file_pipe_create(&attr->child_in, &attr->parent_in,
                                    attr->pool)) != APR_SUCCESS) {
             return status;
         }
         switch (in) {
         case APR_FULL_BLOCK:
             apr_file_pipe_timeout_set(attr->child_in, -1);
             apr_file_pipe_timeout_set(attr->parent_in, -1);
             break;
         case APR_PARENT_BLOCK:
             apr_file_pipe_timeout_set(attr->child_in, -1);
             break;
         case APR_CHILD_BLOCK:
             apr_file_pipe_timeout_set(attr->parent_in, -1);
             break;
         default:
             break;
         }
     }
     if (out) {
         if ((status = apr_file_pipe_create(&attr->parent_out, &attr->child_out,
                                    attr->pool)) != APR_SUCCESS) {
             return status;
         }
         switch (out) {
         case APR_FULL_BLOCK:
             apr_file_pipe_timeout_set(attr->child_out, -1);
             apr_file_pipe_timeout_set(attr->parent_out, -1);
             break;
         case APR_PARENT_BLOCK:
             apr_file_pipe_timeout_set(attr->child_out, -1);
             break;
         case APR_CHILD_BLOCK:
             apr_file_pipe_timeout_set(attr->parent_out, -1);
             break;
         default:
             break;
         }
     }
     if (err) {
         if ((status = apr_file_pipe_create(&attr->parent_err, &attr->child_err,
                                    attr->pool)) != APR_SUCCESS) {
             return status;
         }
         switch (err) {
         case APR_FULL_BLOCK:
             apr_file_pipe_timeout_set(attr->child_err, -1);
             apr_file_pipe_timeout_set(attr->parent_err, -1);
             break;
         case APR_PARENT_BLOCK:
             apr_file_pipe_timeout_set(attr->child_err, -1);
             break;
         case APR_CHILD_BLOCK:
             apr_file_pipe_timeout_set(attr->parent_err, -1);
             break;
         default:
             break;
         }
     }
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_dir_set(apr_procattr_t *attr,
                                                const char *dir)
 {
     char * cwd;
     if (dir[0] != '/') {
         cwd = (char*)malloc(sizeof(char) * PATH_MAX);
         getcwd(cwd, PATH_MAX);
         attr->currdir = (char *)apr_pstrcat(attr->pool, cwd, "/", dir, NULL);
         free(cwd);
     } else {
         attr->currdir = (char *)apr_pstrdup(attr->pool, dir);
     }
     if (attr->currdir) {
         return APR_SUCCESS;
     }
     return APR_ENOMEM;
 }

 APR_DECLARE(apr_status_t) apr_procattr_cmdtype_set(apr_procattr_t *attr,
                                                    apr_cmdtype_e cmd)
 {
     attr->cmdtype = cmd;
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_detach_set(apr_procattr_t *attr, apr_int32_t detach)
 {
     attr->detached = detach;
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_proc_fork(apr_proc_t *proc, apr_pool_t *pool)
 {
     int pid;

     if ((pid = fork()) < 0) {
         return errno;
     }
     else if (pid == 0) {
 		/* This is really ugly...
 		 * The semantics of BeOS's fork() are that areas (used for shared
 		 * memory) get COW'd :-( The only way we can make shared memory
 		 * work across fork() is therefore to find any areas that have
 		 * been created and then clone them into our address space.
          * Thankfully only COW'd areas have the lock variable set at
          * anything but 0, so we can use that to find the areas we need to
          * copy. Of course what makes it even worse is that the loop through
          * the area's will go into an infinite loop, eating memory and then
          * eventually segfault unless we know when we reach then end of the
          * "original" areas and stop. Why? Well, we delete the area and then
          * add another to the end of the list...
 		 */
 		area_info ai;
 		int32 cookie = 0;
         area_id highest = 0;

         while (get_next_area_info(0, &cookie, &ai) == B_OK)
             if (ai.area	> highest)
                 highest = ai.area;
         cookie = 0;
         while (get_next_area_info(0, &cookie, &ai) == B_OK) {
             if (ai.area > highest)
                 break;
             if (ai.lock > 0) {
                 area_id original = find_area(ai.name);
                 delete_area(ai.area);
                 clone_area(ai.name, &ai.address, B_CLONE_ADDRESS,
                            ai.protection, original);
             }
         }

         proc->pid = pid;
         proc->in = NULL;
         proc->out = NULL;
         proc->err = NULL;
         return APR_INCHILD;
     }
     proc->pid = pid;
     proc->in = NULL;
     proc->out = NULL;
     proc->err = NULL;
     return APR_INPARENT;
 }

 APR_DECLARE(apr_status_t) apr_procattr_child_errfn_set(apr_procattr_t *attr,
                                                        apr_child_errfn_t *errfn)
 {
     /* won't ever be called on this platform, so don't save the function pointer */
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_error_check_set(apr_procattr_t *attr,
                                                        apr_int32_t chk)
 {
     /* won't ever be used on this platform, so don't save the flag */
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_addrspace_set(apr_procattr_t *attr,
                                                        apr_int32_t addrspace)
 {
     /* won't ever be used on this platform, so don't save the flag */
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_proc_create(apr_proc_t *new, const char *progname,
                                           const char * const *args,
                                           const char * const *env,
                                           apr_procattr_t *attr,
                                           apr_pool_t *pool)
 {
     int i=0,nargs=0;
     char **newargs = NULL;
     thread_id newproc, sender;
     struct send_pipe *sp;
     char * dir = NULL;

     sp = (struct send_pipe *)apr_palloc(pool, sizeof(struct send_pipe));

     new->in = attr->parent_in;
     new->err = attr->parent_err;
     new->out = attr->parent_out;
 	sp->in  = attr->child_in  ? attr->child_in->filedes  : -1;
 	sp->out = attr->child_out ? attr->child_out->filedes : -1;
 	sp->err = attr->child_err ? attr->child_err->filedes : -1;

     i = 0;
     while (args && args[i]) {
         i++;
     }

 	newargs = (char**)malloc(sizeof(char *) * (i + 4));
 	newargs[0] = strdup("/boot/home/config/bin/apr_proc_stub");
     if (attr->currdir == NULL) {
         /* we require the directory , so use a temp. variable */
         dir = malloc(sizeof(char) * PATH_MAX);
         getcwd(dir, PATH_MAX);
         newargs[1] = strdup(dir);
         free(dir);
     } else {
         newargs[1] = strdup(attr->currdir);
     }
     newargs[2] = strdup(progname);
     i=0;nargs = 3;

     while (args && args[i]) {
         newargs[nargs] = strdup(args[i]);
         i++;nargs++;
     }
     newargs[nargs] = NULL;

     /* ### we should be looking at attr->cmdtype in here... */

     newproc = load_image(nargs, (const char**)newargs, (const char**)env);

     /* load_image copies the data so now we can free it... */
     while (--nargs >= 0)
         free (newargs[nargs]);
     free(newargs);

     if (newproc < B_NO_ERROR) {
         return errno;
     }

     resume_thread(newproc);

     if (attr->child_in) {
         apr_file_close(attr->child_in);
     }
     if (attr->child_out) {
         apr_file_close(attr->child_out);
     }
     if (attr->child_err) {
         apr_file_close(attr->child_err);
     }

     send_data(newproc, 0, (void*)sp, sizeof(struct send_pipe));
     new->pid = newproc;

     /* before we go charging on we need the new process to get to a
      * certain point.  When it gets there it'll let us know and we
      * can carry on. */
     receive_data(&sender, (void*)NULL,0);

     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_proc_wait_all_procs(apr_proc_t *proc,
                                                   int *exitcode,
                                                   apr_exit_why_e *exitwhy,
                                                   apr_wait_how_e waithow,
                                                   apr_pool_t *p)
 {
     proc->pid = -1;
     return apr_proc_wait(proc, exitcode, exitwhy, waithow);
 }

 APR_DECLARE(apr_status_t) apr_proc_wait(apr_proc_t *proc,
                                         int *exitcode,
                                         apr_exit_why_e *exitwhy,
                                         apr_wait_how_e waithow)
 {
     pid_t pstatus;
     int waitpid_options = WUNTRACED;
     int exit_int;
     int ignore;
     apr_exit_why_e ignorewhy;

     if (exitcode == NULL) {
         exitcode = &ignore;
     }
     if (exitwhy == NULL) {
         exitwhy = &ignorewhy;
     }

     if (waithow != APR_WAIT) {
         waitpid_options |= WNOHANG;
     }

     if ((pstatus = waitpid(proc->pid, &exit_int, waitpid_options)) > 0) {
         proc->pid = pstatus;
         if (WIFEXITED(exit_int)) {
             *exitwhy = APR_PROC_EXIT;
             *exitcode = WEXITSTATUS(exit_int);
         }
         else if (WIFSIGNALED(exit_int)) {
             *exitwhy = APR_PROC_SIGNAL;
             *exitcode = WTERMSIG(exit_int);
         }
         else {

             /* unexpected condition */
             return APR_EGENERAL;
         }
         return APR_CHILD_DONE;
     }
     else if (pstatus == 0) {
         return APR_CHILD_NOTDONE;
     }

     return errno;
 }

 APR_DECLARE(apr_status_t) apr_procattr_child_in_set(apr_procattr_t *attr, apr_file_t *child_in,
                                    apr_file_t *parent_in)
 {
     if (attr->child_in == NULL && attr->parent_in == NULL)
         apr_file_pipe_create(&attr->child_in, &attr->parent_in, attr->pool);

     if (child_in != NULL)
         apr_file_dup(&attr->child_in, child_in, attr->pool);

     if (parent_in != NULL)
         apr_file_dup(&attr->parent_in, parent_in, attr->pool);

     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_child_out_set(apr_procattr_t *attr, apr_file_t *child_out,
                                                      apr_file_t *parent_out)
 {
     if (attr->child_out == NULL && attr->parent_out == NULL)
         apr_file_pipe_create(&attr->child_out, &attr->parent_out, attr->pool);

     if (child_out != NULL)
         apr_file_dup(&attr->child_out, child_out, attr->pool);

     if (parent_out != NULL)
         apr_file_dup(&attr->parent_out, parent_out, attr->pool);

     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_child_err_set(apr_procattr_t *attr, apr_file_t *child_err,
                                                      apr_file_t *parent_err)
 {
     if (attr->child_err == NULL && attr->parent_err == NULL)
         apr_file_pipe_create(&attr->child_err, &attr->parent_err, attr->pool);

     if (child_err != NULL)
         apr_file_dup(&attr->child_err, child_err, attr->pool);

     if (parent_err != NULL)
         apr_file_dup(&attr->parent_err, parent_err, attr->pool);

     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_procattr_limit_set(apr_procattr_t *attr, apr_int32_t what,
                                                   void *limit)
 {
     return APR_ENOTIMPL;
 }

 APR_DECLARE(apr_status_t) apr_procattr_user_set(apr_procattr_t *attr,
                                                 const char *username,
                                                 const char *password)
 {
     return APR_ENOTIMPL;
 }

 APR_DECLARE(apr_status_t) apr_procattr_group_set(apr_procattr_t *attr,
                                                  const char *groupname)
 {
     return APR_ENOTIMPL;
 }
	/* Licensed to the Apache Software Foundation (ASF) under one or more
	* contributor license agreements. See the NOTICE file distributed with
	* this work for additional information regarding copyright ownership.
	* The ASF licenses this file to You under the Apache License, Version 2.0
	* (the "License"); you may not use this file except in compliance with
	* the License. You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include "apr_arch_threadproc.h"
	#include "apr_strings.h"

	struct send_pipe {
	int in;
	int out;
	int err;
	};

	APR_DECLARE(apr_status_t) apr_procattr_create(apr_procattr_t *new, apr_pool_t pool)
	{
	(new) = (apr_procattr_t )apr_palloc(pool,
	sizeof(apr_procattr_t));

	if ((*new) == NULL) {
	return APR_ENOMEM;
	}
	(*new)->pool = pool;
	(*new)->parent_in = NULL;
	(*new)->child_in = NULL;
	(*new)->parent_out = NULL;
	(*new)->child_out = NULL;
	(*new)->parent_err = NULL;
	(*new)->child_err = NULL;
	(*new)->currdir = NULL;
	(*new)->cmdtype = APR_PROGRAM;
	(*new)->detached = 0;
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_io_set(apr_procattr_t *attr, apr_int32_t in,
	apr_int32_t out, apr_int32_t err)
	{
	apr_status_t status;
	if (in != 0) {
	if ((status = apr_file_pipe_create(&attr->child_in, &attr->parent_in,
	attr->pool)) != APR_SUCCESS) {
	return status;
	}
	switch (in) {
	case APR_FULL_BLOCK:
	apr_file_pipe_timeout_set(attr->child_in, -1);
	apr_file_pipe_timeout_set(attr->parent_in, -1);
	break;
	case APR_PARENT_BLOCK:
	apr_file_pipe_timeout_set(attr->child_in, -1);
	break;
	case APR_CHILD_BLOCK:
	apr_file_pipe_timeout_set(attr->parent_in, -1);
	break;
	default:
	break;
	}
	}
	if (out) {
	if ((status = apr_file_pipe_create(&attr->parent_out, &attr->child_out,
	attr->pool)) != APR_SUCCESS) {
	return status;
	}
	switch (out) {
	case APR_FULL_BLOCK:
	apr_file_pipe_timeout_set(attr->child_out, -1);
	apr_file_pipe_timeout_set(attr->parent_out, -1);
	break;
	case APR_PARENT_BLOCK:
	apr_file_pipe_timeout_set(attr->child_out, -1);
	break;
	case APR_CHILD_BLOCK:
	apr_file_pipe_timeout_set(attr->parent_out, -1);
	break;
	default:
	break;
	}
	}
	if (err) {
	if ((status = apr_file_pipe_create(&attr->parent_err, &attr->child_err,
	attr->pool)) != APR_SUCCESS) {
	return status;
	}
	switch (err) {
	case APR_FULL_BLOCK:
	apr_file_pipe_timeout_set(attr->child_err, -1);
	apr_file_pipe_timeout_set(attr->parent_err, -1);
	break;
	case APR_PARENT_BLOCK:
	apr_file_pipe_timeout_set(attr->child_err, -1);
	break;
	case APR_CHILD_BLOCK:
	apr_file_pipe_timeout_set(attr->parent_err, -1);
	break;
	default:
	break;
	}
	}
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_dir_set(apr_procattr_t *attr,
	const char *dir)
	{
	char * cwd;
	if (dir[0] != '/') {
	cwd = (char)malloc(sizeof(char) PATH_MAX);
	getcwd(cwd, PATH_MAX);
	attr->currdir = (char *)apr_pstrcat(attr->pool, cwd, "/", dir, NULL);
	free(cwd);
	} else {
	attr->currdir = (char *)apr_pstrdup(attr->pool, dir);
	}
	if (attr->currdir) {
	return APR_SUCCESS;
	}
	return APR_ENOMEM;
	}

	APR_DECLARE(apr_status_t) apr_procattr_cmdtype_set(apr_procattr_t *attr,
	apr_cmdtype_e cmd)
	{
	attr->cmdtype = cmd;
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_detach_set(apr_procattr_t *attr, apr_int32_t detach)
	{
	attr->detached = detach;
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_proc_fork(apr_proc_t proc, apr_pool_t pool)
	{
	int pid;

	if ((pid = fork()) < 0) {
	return errno;
	}
	else if (pid == 0) {
	/* This is really ugly...
	* The semantics of BeOS's fork() are that areas (used for shared
	* memory) get COW'd :-( The only way we can make shared memory
	* work across fork() is therefore to find any areas that have
	* been created and then clone them into our address space.
	* Thankfully only COW'd areas have the lock variable set at
	* anything but 0, so we can use that to find the areas we need to
	* copy. Of course what makes it even worse is that the loop through
	* the area's will go into an infinite loop, eating memory and then
	* eventually segfault unless we know when we reach then end of the
	* "original" areas and stop. Why? Well, we delete the area and then
	* add another to the end of the list...
	*/
	area_info ai;
	int32 cookie = 0;
	area_id highest = 0;

	while (get_next_area_info(0, &cookie, &ai) == B_OK)
	if (ai.area > highest)
	highest = ai.area;
	cookie = 0;
	while (get_next_area_info(0, &cookie, &ai) == B_OK) {
	if (ai.area > highest)
	break;
	if (ai.lock > 0) {
	area_id original = find_area(ai.name);
	delete_area(ai.area);
	clone_area(ai.name, &ai.address, B_CLONE_ADDRESS,
	ai.protection, original);
	}
	}

	proc->pid = pid;
	proc->in = NULL;
	proc->out = NULL;
	proc->err = NULL;
	return APR_INCHILD;
	}
	proc->pid = pid;
	proc->in = NULL;
	proc->out = NULL;
	proc->err = NULL;
	return APR_INPARENT;
	}

	APR_DECLARE(apr_status_t) apr_procattr_child_errfn_set(apr_procattr_t *attr,
	apr_child_errfn_t *errfn)
	{
	/* won't ever be called on this platform, so don't save the function pointer */
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_error_check_set(apr_procattr_t *attr,
	apr_int32_t chk)
	{
	/* won't ever be used on this platform, so don't save the flag */
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_addrspace_set(apr_procattr_t *attr,
	apr_int32_t addrspace)
	{
	/* won't ever be used on this platform, so don't save the flag */
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_proc_create(apr_proc_t new, const char progname,
	const char * const *args,
	const char * const *env,
	apr_procattr_t *attr,
	apr_pool_t *pool)
	{
	int i=0,nargs=0;
	char **newargs = NULL;
	thread_id newproc, sender;
	struct send_pipe *sp;
	char * dir = NULL;

	sp = (struct send_pipe *)apr_palloc(pool, sizeof(struct send_pipe));

	new->in = attr->parent_in;
	new->err = attr->parent_err;
	new->out = attr->parent_out;
	sp->in = attr->child_in ? attr->child_in->filedes : -1;
	sp->out = attr->child_out ? attr->child_out->filedes : -1;
	sp->err = attr->child_err ? attr->child_err->filedes : -1;

	i = 0;
	while (args && args[i]) {
	i++;
	}

	newargs = (char*)malloc(sizeof(char ) * (i + 4));
	newargs[0] = strdup("/boot/home/config/bin/apr_proc_stub");
	if (attr->currdir == NULL) {
	/* we require the directory , so use a temp. variable */
	dir = malloc(sizeof(char) * PATH_MAX);
	getcwd(dir, PATH_MAX);
	newargs[1] = strdup(dir);
	free(dir);
	} else {
	newargs[1] = strdup(attr->currdir);
	}
	newargs[2] = strdup(progname);
	i=0;nargs = 3;

	while (args && args[i]) {
	newargs[nargs] = strdup(args[i]);
	i++;nargs++;
	}
	newargs[nargs] = NULL;

	/* ### we should be looking at attr->cmdtype in here... */

	newproc = load_image(nargs, (const char)newargs, (const char)env);

	/* load_image copies the data so now we can free it... */
	while (--nargs >= 0)
	free (newargs[nargs]);
	free(newargs);

	if (newproc < B_NO_ERROR) {
	return errno;
	}

	resume_thread(newproc);

	if (attr->child_in) {
	apr_file_close(attr->child_in);
	}
	if (attr->child_out) {
	apr_file_close(attr->child_out);
	}
	if (attr->child_err) {
	apr_file_close(attr->child_err);
	}

	send_data(newproc, 0, (void*)sp, sizeof(struct send_pipe));
	new->pid = newproc;

	/* before we go charging on we need the new process to get to a
	* certain point. When it gets there it'll let us know and we
	* can carry on. */
	receive_data(&sender, (void*)NULL,0);

	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_proc_wait_all_procs(apr_proc_t *proc,
	int *exitcode,
	apr_exit_why_e *exitwhy,
	apr_wait_how_e waithow,
	apr_pool_t *p)
	{
	proc->pid = -1;
	return apr_proc_wait(proc, exitcode, exitwhy, waithow);
	}

	APR_DECLARE(apr_status_t) apr_proc_wait(apr_proc_t *proc,
	int *exitcode,
	apr_exit_why_e *exitwhy,
	apr_wait_how_e waithow)
	{
	pid_t pstatus;
	int waitpid_options = WUNTRACED;
	int exit_int;
	int ignore;
	apr_exit_why_e ignorewhy;

	if (exitcode == NULL) {
	exitcode = &ignore;
	}
	if (exitwhy == NULL) {
	exitwhy = &ignorewhy;
	}

	if (waithow != APR_WAIT) {
	waitpid_options \|= WNOHANG;
	}

	if ((pstatus = waitpid(proc->pid, &exit_int, waitpid_options)) > 0) {
	proc->pid = pstatus;
	if (WIFEXITED(exit_int)) {
	*exitwhy = APR_PROC_EXIT;
	*exitcode = WEXITSTATUS(exit_int);
	}
	else if (WIFSIGNALED(exit_int)) {
	*exitwhy = APR_PROC_SIGNAL;
	*exitcode = WTERMSIG(exit_int);
	}
	else {

	/* unexpected condition */
	return APR_EGENERAL;
	}
	return APR_CHILD_DONE;
	}
	else if (pstatus == 0) {
	return APR_CHILD_NOTDONE;
	}

	return errno;
	}

	APR_DECLARE(apr_status_t) apr_procattr_child_in_set(apr_procattr_t attr, apr_file_t child_in,
	apr_file_t *parent_in)
	{
	if (attr->child_in == NULL && attr->parent_in == NULL)
	apr_file_pipe_create(&attr->child_in, &attr->parent_in, attr->pool);

	if (child_in != NULL)
	apr_file_dup(&attr->child_in, child_in, attr->pool);

	if (parent_in != NULL)
	apr_file_dup(&attr->parent_in, parent_in, attr->pool);

	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_child_out_set(apr_procattr_t attr, apr_file_t child_out,
	apr_file_t *parent_out)
	{
	if (attr->child_out == NULL && attr->parent_out == NULL)
	apr_file_pipe_create(&attr->child_out, &attr->parent_out, attr->pool);

	if (child_out != NULL)
	apr_file_dup(&attr->child_out, child_out, attr->pool);

	if (parent_out != NULL)
	apr_file_dup(&attr->parent_out, parent_out, attr->pool);

	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_child_err_set(apr_procattr_t attr, apr_file_t child_err,
	apr_file_t *parent_err)
	{
	if (attr->child_err == NULL && attr->parent_err == NULL)
	apr_file_pipe_create(&attr->child_err, &attr->parent_err, attr->pool);

	if (child_err != NULL)
	apr_file_dup(&attr->child_err, child_err, attr->pool);

	if (parent_err != NULL)
	apr_file_dup(&attr->parent_err, parent_err, attr->pool);

	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_procattr_limit_set(apr_procattr_t *attr, apr_int32_t what,
	void *limit)
	{
	return APR_ENOTIMPL;
	}

	APR_DECLARE(apr_status_t) apr_procattr_user_set(apr_procattr_t *attr,
	const char *username,
	const char *password)
	{
	return APR_ENOTIMPL;
	}

	APR_DECLARE(apr_status_t) apr_procattr_group_set(apr_procattr_t *attr,
	const char *groupname)
	{
	return APR_ENOTIMPL;
	}