dso/aix/dso.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.
  */

 /*
  *  dso.c -- DSO system function emulation for AIX
  *
  *  This is *only* intended for AIX < 4.3.
  */

 /*
  *  Based on libdl (dlfcn.c/dlfcn.h) which is
  *  Copyright (c) 1992,1993,1995,1996,1997,1988
  *  Jens-Uwe Mager, Helios Software GmbH, Hannover, Germany.
  *
  *  Not derived from licensed software.
  *
  *  Permission is granted to freely use, copy, modify, and redistribute
  *  this software, provided that the author is not construed to be liable
  *  for any results of using the software, alterations are clearly marked
  *  as such, and this notice is not modified.
  *
  *  Changes marked with `--jwe' were made on April 7 1996 by
  *  John W. Eaton <jwe@bevo.che.wisc.edu> to support g++
  *
  *  Bundled, stripped and adjusted on April 1998 as one single source file
  *  for inclusion into the Apache HTTP server by
  *  Ralf S. Engelschall <rse@apache.org>
  *
  *  Added to APR by David Reid April 2000
  */

 #include <stdio.h>
 #include <errno.h>
 #include <string.h>
 #include <stdlib.h>
 #include <sys/types.h>
 #include <sys/ldr.h>
 #include <a.out.h>
 #include "apr_arch_dso.h"
 #include "apr_portable.h"

 #if APR_HAS_DSO

 #undef FREAD
 #undef FWRITE
 #include <ldfcn.h>

 /*
  * AIX 4.3 does remove some useful definitions from ldfcn.h. Define
  * these here to compensate for that lossage.
  */
 #ifndef BEGINNING
 #define BEGINNING SEEK_SET
 #endif
 #ifndef FSEEK
 #define FSEEK(ldptr,o,p)   fseek(IOPTR(ldptr),(p==BEGINNING)?(OFFSET(ldptr) +o):o,p)
 #endif
 #ifndef FREAD
 #define FREAD(p,s,n,ldptr) fread(p,s,n,IOPTR(ldptr))
 #endif

 /*
  * Mode flags for the dlopen routine.
  */
 #undef  RTLD_LAZY
 #define RTLD_LAZY	1	/* lazy function call binding */
 #undef  RTLD_NOW
 #define RTLD_NOW	2	/* immediate function call binding */
 #undef  RTLD_GLOBAL
 #define RTLD_GLOBAL	0x100	/* allow symbols to be global */

 /*
  * To be able to initialize, a library may provide a dl_info structure
  * that contains functions to be called to initialize and terminate.
  */
 struct dl_info {
     void (*init) (void);
     void (*fini) (void);
 };

 /* APR functions...
  *
  * As the AIX functions have been declared in the header file we just
  * add the basic "wrappers" here.
  */

 APR_DECLARE(apr_status_t) apr_os_dso_handle_put(apr_dso_handle_t **aprdso,
                                                 apr_os_dso_handle_t osdso,
                                                 apr_pool_t *pool)
 {
     *aprdso = apr_pcalloc(pool, sizeof **aprdso);
     (*aprdso)->handle = osdso;
     (*aprdso)->pool = pool;
     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_os_dso_handle_get(apr_os_dso_handle_t *osdso,
                                                 apr_dso_handle_t *aprdso)
 {
     *osdso = aprdso->handle;
     return APR_SUCCESS;
 }

 static apr_status_t dso_cleanup(void *thedso)
 {
     apr_dso_handle_t *dso = thedso;

     if (dso->handle != NULL && dlclose(dso->handle) != 0)
         return APR_EINIT;
     dso->handle = NULL;

     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_dso_load(apr_dso_handle_t **res_handle,
                                        const char *path, apr_pool_t *ctx)
 {
     void *os_handle = dlopen((char *)path, RTLD_NOW | RTLD_GLOBAL);

     *res_handle = apr_pcalloc(ctx, sizeof(*res_handle));

     if(os_handle == NULL) {
         (*res_handle)->errormsg = dlerror();
         return APR_EDSOOPEN;
     }

     (*res_handle)->handle = (void*)os_handle;
     (*res_handle)->pool = ctx;
     (*res_handle)->errormsg = NULL;

     apr_pool_cleanup_register(ctx, *res_handle, dso_cleanup, apr_pool_cleanup_null);

     return APR_SUCCESS;
 }

 APR_DECLARE(apr_status_t) apr_dso_unload(apr_dso_handle_t *handle)
 {
     return apr_pool_cleanup_run(handle->pool, handle, dso_cleanup);
 }

 APR_DECLARE(apr_status_t) apr_dso_sym(apr_dso_handle_sym_t *ressym,
                                       apr_dso_handle_t *handle,
                                       const char *symname)
 {
     void *retval = dlsym(handle->handle, symname);

     if (retval == NULL) {
         handle->errormsg = dlerror();
         return APR_ESYMNOTFOUND;
     }

     *ressym = retval;
     return APR_SUCCESS;
 }

 APR_DECLARE(const char *) apr_dso_error(apr_dso_handle_t *dso, char *buffer, apr_size_t buflen)
 {
     if (dso->errormsg) {
         apr_cpystrn(buffer, dso->errormsg, buflen);
         return dso->errormsg;
     }
     return "No Error";
 }


 /*
  * We simulate dlopen() et al. through a call to load. Because AIX has
  * no call to find an exported symbol we read the loader section of the
  * loaded module and build a list of exported symbols and their virtual
  * address.
  */

 typedef struct {
     char *name;			/* the symbols's name */
     void *addr;			/* its relocated virtual address */
 } Export, *ExportPtr;

 /*
  * xlC uses the following structure to list its constructors and
  * destructors. This is gleaned from the output of munch.
  */
 typedef struct {
     void (*init) (void);	/* call static constructors */
     void (*term) (void);	/* call static destructors */
 } Cdtor, *CdtorPtr;

 typedef void (*GccCDtorPtr) (void);

 /*
  * The void * handle returned from dlopen is actually a ModulePtr.
  */
 typedef struct Module {
     struct Module *next;
     char *name;			/* module name for refcounting */
     int refCnt;			/* the number of references */
     void *entry;		/* entry point from load */
     struct dl_info *info;	/* optional init/terminate functions */
     CdtorPtr cdtors;		/* optional C++ constructors */
     GccCDtorPtr gcc_ctor;	/* g++ constructors  --jwe */
     GccCDtorPtr gcc_dtor;	/* g++ destructors  --jwe */
     int nExports;		/* the number of exports found */
     ExportPtr exports;		/* the array of exports */
 } Module, *ModulePtr;

 /*
  * We keep a list of all loaded modules to be able to call the fini
  * handlers and destructors at atexit() time.
  */
 static ModulePtr modList;

 /*
  * The last error from one of the dl* routines is kept in static
  * variables here. Each error is returned only once to the caller.
  */
 static char errbuf[BUFSIZ];
 static int errvalid;

 /*
  * The `fixed' gcc header files on AIX 3.2.5 provide a prototype for
  * strdup().  --jwe
  */
 extern char *strdup(const char *);
 static void caterr(char *);
 static int readExports(ModulePtr);
 static void terminate(void);
 static void *findMain(void);

 void *dlopen(const char *path, int mode)
 {
     register ModulePtr mp;
     static void *mainModule;

     /*
      * Upon the first call register a terminate handler that will
      * close all libraries. Also get a reference to the main module
      * for use with loadbind.
      */
     if (!mainModule) {
 	if ((mainModule = findMain()) == NULL)
 	    return NULL;
 	atexit(terminate);
     }
     /*
      * Scan the list of modules if we have the module already loaded.
      */
     for (mp = modList; mp; mp = mp->next)
 	if (strcmp(mp->name, path) == 0) {
 	    mp->refCnt++;
 	    return mp;
 	}
     if ((mp = (ModulePtr) calloc(1, sizeof(*mp))) == NULL) {
 	errvalid++;
 	strcpy(errbuf, "calloc: ");
 	strcat(errbuf, strerror(errno));
 	return NULL;
     }
     if ((mp->name = strdup(path)) == NULL) {
 	errvalid++;
 	strcpy(errbuf, "strdup: ");
 	strcat(errbuf, strerror(errno));
 	free(mp);
 	return NULL;
     }
     /*
      * load should be declared load(const char *...). Thus we
      * cast the path to a normal char *. Ugly.
      */
     if ((mp->entry = (void *) loadAndInit((char *) path, L_NOAUTODEFER, NULL)) == NULL) {
 	free(mp->name);
 	free(mp);
 	errvalid++;
 	strcpy(errbuf, "dlopen: ");
 	strcat(errbuf, path);
 	strcat(errbuf, ": ");
 	/*
 	 * If AIX says the file is not executable, the error
 	 * can be further described by querying the loader about
 	 * the last error.
 	 */
 	if (errno == ENOEXEC) {
 	    char *tmp[BUFSIZ / sizeof(char *)];
 	    if (loadquery(L_GETMESSAGES, tmp, sizeof(tmp)) == -1)
 		strcpy(errbuf, strerror(errno));
 	    else {
 		char **p;
 		for (p = tmp; *p; p++)
 		    caterr(*p);
 	    }
 	}
 	else
 	    strcat(errbuf, strerror(errno));
 	return NULL;
     }
     mp->refCnt = 1;
     mp->next = modList;
     modList = mp;
     if (loadbind(0, mainModule, mp->entry) == -1) {
 	dlclose(mp);
 	errvalid++;
 	strcpy(errbuf, "loadbind: ");
 	strcat(errbuf, strerror(errno));
 	return NULL;
     }
     /*
      * If the user wants global binding, loadbind against all other
      * loaded modules.
      */
     if (mode & RTLD_GLOBAL) {
 	register ModulePtr mp1;
 	for (mp1 = mp->next; mp1; mp1 = mp1->next)
 	    if (loadbind(0, mp1->entry, mp->entry) == -1) {
 		dlclose(mp);
 		errvalid++;
 		strcpy(errbuf, "loadbind: ");
 		strcat(errbuf, strerror(errno));
 		return NULL;
 	    }
     }
     if (readExports(mp) == -1) {
 	dlclose(mp);
 	return NULL;
     }
     /*
      * If there is a dl_info structure, call the init function.
      */
     if (mp->info = (struct dl_info *) dlsym(mp, "dl_info")) {
 	if (mp->info->init)
 	    (*mp->info->init) ();
     }
     else
 	errvalid = 0;
     /*
      * If the shared object was compiled using xlC we will need
      * to call static constructors (and later on dlclose destructors).
      */
     if (mp->cdtors = (CdtorPtr) dlsym(mp, "__cdtors")) {
 	CdtorPtr cp = mp->cdtors;
 	while (cp->init || cp->term) {
 	    if (cp->init && cp->init != (void (*)(void)) 0xffffffff)
 		(*cp->init) ();
 	    cp++;
 	}
 	/*
 	 * If the shared object was compiled using g++, we will need
 	 * to call global constructors using the _GLOBAL__DI function,
 	 * and later, global destructors using the _GLOBAL_DD
 	 * funciton.  --jwe
 	 */
     }
     else if (mp->gcc_ctor = (GccCDtorPtr) dlsym(mp, "_GLOBAL__DI")) {
 	(*mp->gcc_ctor) ();
 	mp->gcc_dtor = (GccCDtorPtr) dlsym(mp, "_GLOBAL__DD");
     }
     else
 	errvalid = 0;
     return mp;
 }

 /*
  * Attempt to decipher an AIX loader error message and append it
  * to our static error message buffer.
  */
 static void caterr(char *s)
 {
     register char *p = s;

     while (*p >= '0' && *p <= '9')
 	p++;
     switch (atoi(s)) {
     case L_ERROR_TOOMANY:
 	strcat(errbuf, "to many errors");
 	break;
     case L_ERROR_NOLIB:
 	strcat(errbuf, "can't load library");
 	strcat(errbuf, p);
 	break;
     case L_ERROR_UNDEF:
 	strcat(errbuf, "can't find symbol");
 	strcat(errbuf, p);
 	break;
     case L_ERROR_RLDBAD:
 	strcat(errbuf, "bad RLD");
 	strcat(errbuf, p);
 	break;
     case L_ERROR_FORMAT:
 	strcat(errbuf, "bad exec format in");
 	strcat(errbuf, p);
 	break;
     case L_ERROR_ERRNO:
 	strcat(errbuf, strerror(atoi(++p)));
 	break;
     default:
 	strcat(errbuf, s);
 	break;
     }
 }

 void *dlsym(void *handle, const char *symbol)
 {
     register ModulePtr mp = (ModulePtr) handle;
     register ExportPtr ep;
     register int i;

     /*
      * Could speed up the search, but I assume that one assigns
      * the result to function pointers anyways.
      */
     for (ep = mp->exports, i = mp->nExports; i; i--, ep++)
 	if (strcmp(ep->name, symbol) == 0)
 	    return ep->addr;
     errvalid++;
     strcpy(errbuf, "dlsym: undefined symbol ");
     strcat(errbuf, symbol);
     return NULL;
 }

 const char *dlerror(void)
 {
     if (errvalid) {
 	errvalid = 0;
 	return errbuf;
     }
     return NULL;
 }

 int dlclose(void *handle)
 {
     register ModulePtr mp = (ModulePtr) handle;
     int result;
     register ModulePtr mp1;

     if (--mp->refCnt > 0)
 	return 0;
     if (mp->info && mp->info->fini)
 	(*mp->info->fini) ();
     if (mp->cdtors) {
 	CdtorPtr cp = mp->cdtors;
 	while (cp->init || cp->term) {
 	    if (cp->term && cp->init != (void (*)(void)) 0xffffffff)
 		(*cp->term) ();
 	    cp++;
 	}
 	/*
 	 * If the function to handle global destructors for g++
 	 * exists, call it.  --jwe
 	 */
     }
     else if (mp->gcc_dtor) {
 	(*mp->gcc_dtor) ();
     }
     result = unload(mp->entry);
     if (result == -1) {
 	errvalid++;
 	strcpy(errbuf, strerror(errno));
     }
     if (mp->exports) {
 	register ExportPtr ep;
 	register int i;
 	for (ep = mp->exports, i = mp->nExports; i; i--, ep++)
 	    if (ep->name)
 		free(ep->name);
 	free(mp->exports);
     }
     if (mp == modList)
 	modList = mp->next;
     else {
 	for (mp1 = modList; mp1; mp1 = mp1->next)
 	    if (mp1->next == mp) {
 		mp1->next = mp->next;
 		break;
 	    }
     }
     free(mp->name);
     free(mp);
     return result;
 }

 static void terminate(void)
 {
     while (modList)
 	dlclose(modList);
 }

 /*
  * Build the export table from the XCOFF .loader section.
  */
 static int readExports(ModulePtr mp)
 {
     LDFILE *ldp = NULL;
     SCNHDR sh, shdata;
     LDHDR *lhp;
     char *ldbuf;
     LDSYM *ls;
     int i;
     ExportPtr ep;
     struct ld_info *lp;
     char *buf;
     int size = 4 * 1024;
     void *dataorg;

     /*
      * The module might be loaded due to the LIBPATH
      * environment variable. Search for the loaded
      * module using L_GETINFO.
      */
     if ((buf = malloc(size)) == NULL) {
 	errvalid++;
 	strcpy(errbuf, "readExports: ");
 	strcat(errbuf, strerror(errno));
 	return -1;
     }
     while ((i = loadquery(L_GETINFO, buf, size)) == -1 && errno == ENOMEM) {
 	free(buf);
 	size += 4 * 1024;
 	if ((buf = malloc(size)) == NULL) {
 	    errvalid++;
 	    strcpy(errbuf, "readExports: ");
 	    strcat(errbuf, strerror(errno));
 	    return -1;
 	}
     }
     if (i == -1) {
 	errvalid++;
 	strcpy(errbuf, "readExports: ");
 	strcat(errbuf, strerror(errno));
 	free(buf);
 	return -1;
     }
     /*
      * Traverse the list of loaded modules. The entry point
      * returned by load() does actually point to the TOC
      * entry contained in the data segment.
      */
     lp = (struct ld_info *) buf;
     while (lp) {
 	if ((unsigned long) mp->entry >= (unsigned long) lp->ldinfo_dataorg &&
 	    (unsigned long) mp->entry < (unsigned long) lp->ldinfo_dataorg +
 	    lp->ldinfo_datasize) {
 	    dataorg = lp->ldinfo_dataorg;
 	    ldp = ldopen(lp->ldinfo_filename, ldp);
 	    break;
 	}
 	if (lp->ldinfo_next == 0)
 	    lp = NULL;
 	else
 	    lp = (struct ld_info *) ((char *) lp + lp->ldinfo_next);
     }
     free(buf);
     if (!ldp) {
 	errvalid++;
 	strcpy(errbuf, "readExports: ");
 	strcat(errbuf, strerror(errno));
 	return -1;
     }
     if (TYPE(ldp) != U802TOCMAGIC) {
 	errvalid++;
 	strcpy(errbuf, "readExports: bad magic");
 	while (ldclose(ldp) == FAILURE);
 	return -1;
     }
     /*
      * Get the padding for the data section. This is needed for
      * AIX 4.1 compilers. This is used when building the final
      * function pointer to the exported symbol.
      */
     if (ldnshread(ldp, _DATA, &shdata) != SUCCESS) {
 	errvalid++;
 	strcpy(errbuf, "readExports: cannot read data section header");
 	while (ldclose(ldp) == FAILURE);
 	return -1;
     }
     if (ldnshread(ldp, _LOADER, &sh) != SUCCESS) {
 	errvalid++;
 	strcpy(errbuf, "readExports: cannot read loader section header");
 	while (ldclose(ldp) == FAILURE);
 	return -1;
     }
     /*
      * We read the complete loader section in one chunk, this makes
      * finding long symbol names residing in the string table easier.
      */
     if ((ldbuf = (char *) malloc(sh.s_size)) == NULL) {
 	errvalid++;
 	strcpy(errbuf, "readExports: ");
 	strcat(errbuf, strerror(errno));
 	while (ldclose(ldp) == FAILURE);
 	return -1;
     }
     if (FSEEK(ldp, sh.s_scnptr, BEGINNING) != OKFSEEK) {
 	errvalid++;
 	strcpy(errbuf, "readExports: cannot seek to loader section");
 	free(ldbuf);
 	while (ldclose(ldp) == FAILURE);
 	return -1;
     }
     if (FREAD(ldbuf, sh.s_size, 1, ldp) != 1) {
 	errvalid++;
 	strcpy(errbuf, "readExports: cannot read loader section");
 	free(ldbuf);
 	while (ldclose(ldp) == FAILURE);
 	return -1;
     }
     lhp = (LDHDR *) ldbuf;
     ls = (LDSYM *) (ldbuf + LDHDRSZ);
     /*
      * Count the number of exports to include in our export table.
      */
     for (i = lhp->l_nsyms; i; i--, ls++) {
 	if (!LDR_EXPORT(*ls))
 	    continue;
 	mp->nExports++;
     }
     if ((mp->exports = (ExportPtr) calloc(mp->nExports, sizeof(*mp->exports))) == NULL) {
 	errvalid++;
 	strcpy(errbuf, "readExports: ");
 	strcat(errbuf, strerror(errno));
 	free(ldbuf);
 	while (ldclose(ldp) == FAILURE);
 	return -1;
     }
     /*
      * Fill in the export table. All entries are relative to
      * the beginning of the data origin.
      */
     ep = mp->exports;
     ls = (LDSYM *) (ldbuf + LDHDRSZ);
     for (i = lhp->l_nsyms; i; i--, ls++) {
 	char *symname;
 	char tmpsym[SYMNMLEN + 1];
 	if (!LDR_EXPORT(*ls))
 	    continue;
 	if (ls->l_zeroes == 0)
 	    symname = ls->l_offset + lhp->l_stoff + ldbuf;
 	else {
 	    /*
 	     * The l_name member is not zero terminated, we
 	     * must copy the first SYMNMLEN chars and make
 	     * sure we have a zero byte at the end.
 	     */
 	    strncpy(tmpsym, ls->l_name, SYMNMLEN);
 	    tmpsym[SYMNMLEN] = '\0';
 	    symname = tmpsym;
 	}
 	ep->name = strdup(symname);
 	ep->addr = (void *) ((unsigned long) dataorg +
 			     ls->l_value - shdata.s_vaddr);
 	ep++;
     }
     free(ldbuf);
     while (ldclose(ldp) == FAILURE);
     return 0;
 }

 /*
  * Find the main modules data origin. This is used as export pointer
  * for loadbind() to be able to resolve references to the main part.
  */
 static void *findMain(void)
 {
     struct ld_info *lp;
     char *buf;
     int size = 4 * 1024;
     int i;
     void *ret;

     if ((buf = malloc(size)) == NULL) {
 	errvalid++;
 	strcpy(errbuf, "findMain: ");
 	strcat(errbuf, strerror(errno));
 	return NULL;
     }
     while ((i = loadquery(L_GETINFO, buf, size)) == -1 && errno == ENOMEM) {
 	free(buf);
 	size += 4 * 1024;
 	if ((buf = malloc(size)) == NULL) {
 	    errvalid++;
 	    strcpy(errbuf, "findMain: ");
 	    strcat(errbuf, strerror(errno));
 	    return NULL;
 	}
     }
     if (i == -1) {
 	errvalid++;
 	strcpy(errbuf, "findMain: ");
 	strcat(errbuf, strerror(errno));
 	free(buf);
 	return NULL;
     }
     /*
      * The first entry is the main module. The data segment
      * starts with the TOC entries for all exports, so the
      * data segment origin works as argument for loadbind.
      */
     lp = (struct ld_info *) buf;
     ret = lp->ldinfo_dataorg;
     free(buf);
     return ret;
 }

 #endif
	/* 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.
	*/

	/*
	* dso.c -- DSO system function emulation for AIX
	*
	* This is only intended for AIX < 4.3.
	*/

	/*
	* Based on libdl (dlfcn.c/dlfcn.h) which is
	* Copyright (c) 1992,1993,1995,1996,1997,1988
	* Jens-Uwe Mager, Helios Software GmbH, Hannover, Germany.
	*
	* Not derived from licensed software.
	*
	* Permission is granted to freely use, copy, modify, and redistribute
	* this software, provided that the author is not construed to be liable
	* for any results of using the software, alterations are clearly marked
	* as such, and this notice is not modified.
	*
	* Changes marked with `--jwe' were made on April 7 1996 by
	* John W. Eaton <jwe@bevo.che.wisc.edu> to support g++
	*
	* Bundled, stripped and adjusted on April 1998 as one single source file
	* for inclusion into the Apache HTTP server by
	* Ralf S. Engelschall <rse@apache.org>
	*
	* Added to APR by David Reid April 2000
	*/

	#include <stdio.h>
	#include <errno.h>
	#include <string.h>
	#include <stdlib.h>
	#include <sys/types.h>
	#include <sys/ldr.h>
	#include <a.out.h>
	#include "apr_arch_dso.h"
	#include "apr_portable.h"

	#if APR_HAS_DSO

	#undef FREAD
	#undef FWRITE
	#include <ldfcn.h>

	/*
	* AIX 4.3 does remove some useful definitions from ldfcn.h. Define
	* these here to compensate for that lossage.
	*/
	#ifndef BEGINNING
	#define BEGINNING SEEK_SET
	#endif
	#ifndef FSEEK
	#define FSEEK(ldptr,o,p) fseek(IOPTR(ldptr),(p==BEGINNING)?(OFFSET(ldptr) +o):o,p)
	#endif
	#ifndef FREAD
	#define FREAD(p,s,n,ldptr) fread(p,s,n,IOPTR(ldptr))
	#endif

	/*
	* Mode flags for the dlopen routine.
	*/
	#undef RTLD_LAZY
	#define RTLD_LAZY 1 /* lazy function call binding */
	#undef RTLD_NOW
	#define RTLD_NOW 2 /* immediate function call binding */
	#undef RTLD_GLOBAL
	#define RTLD_GLOBAL 0x100 /* allow symbols to be global */

	/*
	* To be able to initialize, a library may provide a dl_info structure
	* that contains functions to be called to initialize and terminate.
	*/
	struct dl_info {
	void (*init) (void);
	void (*fini) (void);
	};

	/* APR functions...
	*
	* As the AIX functions have been declared in the header file we just
	* add the basic "wrappers" here.
	*/

	APR_DECLARE(apr_status_t) apr_os_dso_handle_put(apr_dso_handle_t **aprdso,
	apr_os_dso_handle_t osdso,
	apr_pool_t *pool)
	{
	aprdso = apr_pcalloc(pool, sizeof *aprdso);
	(*aprdso)->handle = osdso;
	(*aprdso)->pool = pool;
	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_os_dso_handle_get(apr_os_dso_handle_t *osdso,
	apr_dso_handle_t *aprdso)
	{
	*osdso = aprdso->handle;
	return APR_SUCCESS;
	}

	static apr_status_t dso_cleanup(void *thedso)
	{
	apr_dso_handle_t *dso = thedso;

	if (dso->handle != NULL && dlclose(dso->handle) != 0)
	return APR_EINIT;
	dso->handle = NULL;

	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_dso_load(apr_dso_handle_t **res_handle,
	const char path, apr_pool_t ctx)
	{
	void os_handle = dlopen((char )path, RTLD_NOW \| RTLD_GLOBAL);

	res_handle = apr_pcalloc(ctx, sizeof(res_handle));

	if(os_handle == NULL) {
	(*res_handle)->errormsg = dlerror();
	return APR_EDSOOPEN;
	}

	(res_handle)->handle = (void)os_handle;
	(*res_handle)->pool = ctx;
	(*res_handle)->errormsg = NULL;

	apr_pool_cleanup_register(ctx, *res_handle, dso_cleanup, apr_pool_cleanup_null);

	return APR_SUCCESS;
	}

	APR_DECLARE(apr_status_t) apr_dso_unload(apr_dso_handle_t *handle)
	{
	return apr_pool_cleanup_run(handle->pool, handle, dso_cleanup);
	}

	APR_DECLARE(apr_status_t) apr_dso_sym(apr_dso_handle_sym_t *ressym,
	apr_dso_handle_t *handle,
	const char *symname)
	{
	void *retval = dlsym(handle->handle, symname);

	if (retval == NULL) {
	handle->errormsg = dlerror();
	return APR_ESYMNOTFOUND;
	}

	*ressym = retval;
	return APR_SUCCESS;
	}

	APR_DECLARE(const char ) apr_dso_error(apr_dso_handle_t dso, char *buffer, apr_size_t buflen)
	{
	if (dso->errormsg) {
	apr_cpystrn(buffer, dso->errormsg, buflen);
	return dso->errormsg;
	}
	return "No Error";
	}



	/*
	* We simulate dlopen() et al. through a call to load. Because AIX has
	* no call to find an exported symbol we read the loader section of the
	* loaded module and build a list of exported symbols and their virtual
	* address.
	*/

	typedef struct {
	char name; / the symbols's name */
	void addr; / its relocated virtual address */
	} Export, *ExportPtr;

	/*
	* xlC uses the following structure to list its constructors and
	* destructors. This is gleaned from the output of munch.
	*/
	typedef struct {
	void (init) (void); / call static constructors */
	void (term) (void); / call static destructors */
	} Cdtor, *CdtorPtr;

	typedef void (*GccCDtorPtr) (void);

	/*
	* The void * handle returned from dlopen is actually a ModulePtr.
	*/
	typedef struct Module {
	struct Module *next;
	char name; / module name for refcounting */
	int refCnt; /* the number of references */
	void entry; / entry point from load */
	struct dl_info info; / optional init/terminate functions */
	CdtorPtr cdtors; /* optional C++ constructors */
	GccCDtorPtr gcc_ctor; /* g++ constructors --jwe */
	GccCDtorPtr gcc_dtor; /* g++ destructors --jwe */
	int nExports; /* the number of exports found */
	ExportPtr exports; /* the array of exports */
	} Module, *ModulePtr;

	/*
	* We keep a list of all loaded modules to be able to call the fini
	* handlers and destructors at atexit() time.
	*/
	static ModulePtr modList;

	/*
	* The last error from one of the dl* routines is kept in static
	* variables here. Each error is returned only once to the caller.
	*/
	static char errbuf[BUFSIZ];
	static int errvalid;

	/*
	* The `fixed' gcc header files on AIX 3.2.5 provide a prototype for
	* strdup(). --jwe
	*/
	extern char strdup(const char );
	static void caterr(char *);
	static int readExports(ModulePtr);
	static void terminate(void);
	static void *findMain(void);

	void dlopen(const char path, int mode)
	{
	register ModulePtr mp;
	static void *mainModule;

	/*
	* Upon the first call register a terminate handler that will
	* close all libraries. Also get a reference to the main module
	* for use with loadbind.
	*/
	if (!mainModule) {
	if ((mainModule = findMain()) == NULL)
	return NULL;
	atexit(terminate);
	}
	/*
	* Scan the list of modules if we have the module already loaded.
	*/
	for (mp = modList; mp; mp = mp->next)
	if (strcmp(mp->name, path) == 0) {
	mp->refCnt++;
	return mp;
	}
	if ((mp = (ModulePtr) calloc(1, sizeof(*mp))) == NULL) {
	errvalid++;
	strcpy(errbuf, "calloc: ");
	strcat(errbuf, strerror(errno));
	return NULL;
	}
	if ((mp->name = strdup(path)) == NULL) {
	errvalid++;
	strcpy(errbuf, "strdup: ");
	strcat(errbuf, strerror(errno));
	free(mp);
	return NULL;
	}
	/*
	* load should be declared load(const char *...). Thus we
	* cast the path to a normal char *. Ugly.
	*/
	if ((mp->entry = (void ) loadAndInit((char ) path, L_NOAUTODEFER, NULL)) == NULL) {
	free(mp->name);
	free(mp);
	errvalid++;
	strcpy(errbuf, "dlopen: ");
	strcat(errbuf, path);
	strcat(errbuf, ": ");
	/*
	* If AIX says the file is not executable, the error
	* can be further described by querying the loader about
	* the last error.
	*/
	if (errno == ENOEXEC) {
	char tmp[BUFSIZ / sizeof(char )];
	if (loadquery(L_GETMESSAGES, tmp, sizeof(tmp)) == -1)
	strcpy(errbuf, strerror(errno));
	else {
	char **p;
	for (p = tmp; *p; p++)
	caterr(*p);
	}
	}
	else
	strcat(errbuf, strerror(errno));
	return NULL;
	}
	mp->refCnt = 1;
	mp->next = modList;
	modList = mp;
	if (loadbind(0, mainModule, mp->entry) == -1) {
	dlclose(mp);
	errvalid++;
	strcpy(errbuf, "loadbind: ");
	strcat(errbuf, strerror(errno));
	return NULL;
	}
	/*
	* If the user wants global binding, loadbind against all other
	* loaded modules.
	*/
	if (mode & RTLD_GLOBAL) {
	register ModulePtr mp1;
	for (mp1 = mp->next; mp1; mp1 = mp1->next)
	if (loadbind(0, mp1->entry, mp->entry) == -1) {
	dlclose(mp);
	errvalid++;
	strcpy(errbuf, "loadbind: ");
	strcat(errbuf, strerror(errno));
	return NULL;
	}
	}
	if (readExports(mp) == -1) {
	dlclose(mp);
	return NULL;
	}
	/*
	* If there is a dl_info structure, call the init function.
	*/
	if (mp->info = (struct dl_info *) dlsym(mp, "dl_info")) {
	if (mp->info->init)
	(*mp->info->init) ();
	}
	else
	errvalid = 0;
	/*
	* If the shared object was compiled using xlC we will need
	* to call static constructors (and later on dlclose destructors).
	*/
	if (mp->cdtors = (CdtorPtr) dlsym(mp, "__cdtors")) {
	CdtorPtr cp = mp->cdtors;
	while (cp->init \|\| cp->term) {
	if (cp->init && cp->init != (void (*)(void)) 0xffffffff)
	(*cp->init) ();
	cp++;
	}
	/*
	* If the shared object was compiled using g++, we will need
	* to call global constructors using the _GLOBAL__DI function,
	* and later, global destructors using the _GLOBAL_DD
	* funciton. --jwe
	*/
	}
	else if (mp->gcc_ctor = (GccCDtorPtr) dlsym(mp, "_GLOBAL__DI")) {
	(*mp->gcc_ctor) ();
	mp->gcc_dtor = (GccCDtorPtr) dlsym(mp, "_GLOBAL__DD");
	}
	else
	errvalid = 0;
	return mp;
	}

	/*
	* Attempt to decipher an AIX loader error message and append it
	* to our static error message buffer.
	*/
	static void caterr(char *s)
	{
	register char *p = s;

	while (p >= '0' && p <= '9')
	p++;
	switch (atoi(s)) {
	case L_ERROR_TOOMANY:
	strcat(errbuf, "to many errors");
	break;
	case L_ERROR_NOLIB:
	strcat(errbuf, "can't load library");
	strcat(errbuf, p);
	break;
	case L_ERROR_UNDEF:
	strcat(errbuf, "can't find symbol");
	strcat(errbuf, p);
	break;
	case L_ERROR_RLDBAD:
	strcat(errbuf, "bad RLD");
	strcat(errbuf, p);
	break;
	case L_ERROR_FORMAT:
	strcat(errbuf, "bad exec format in");
	strcat(errbuf, p);
	break;
	case L_ERROR_ERRNO:
	strcat(errbuf, strerror(atoi(++p)));
	break;
	default:
	strcat(errbuf, s);
	break;
	}
	}

	void dlsym(void handle, const char *symbol)
	{
	register ModulePtr mp = (ModulePtr) handle;
	register ExportPtr ep;
	register int i;

	/*
	* Could speed up the search, but I assume that one assigns
	* the result to function pointers anyways.
	*/
	for (ep = mp->exports, i = mp->nExports; i; i--, ep++)
	if (strcmp(ep->name, symbol) == 0)
	return ep->addr;
	errvalid++;
	strcpy(errbuf, "dlsym: undefined symbol ");
	strcat(errbuf, symbol);
	return NULL;
	}

	const char *dlerror(void)
	{
	if (errvalid) {
	errvalid = 0;
	return errbuf;
	}
	return NULL;
	}

	int dlclose(void *handle)
	{
	register ModulePtr mp = (ModulePtr) handle;
	int result;
	register ModulePtr mp1;

	if (--mp->refCnt > 0)
	return 0;
	if (mp->info && mp->info->fini)
	(*mp->info->fini) ();
	if (mp->cdtors) {
	CdtorPtr cp = mp->cdtors;
	while (cp->init \|\| cp->term) {
	if (cp->term && cp->init != (void (*)(void)) 0xffffffff)
	(*cp->term) ();
	cp++;
	}
	/*
	* If the function to handle global destructors for g++
	* exists, call it. --jwe
	*/
	}
	else if (mp->gcc_dtor) {
	(*mp->gcc_dtor) ();
	}
	result = unload(mp->entry);
	if (result == -1) {
	errvalid++;
	strcpy(errbuf, strerror(errno));
	}
	if (mp->exports) {
	register ExportPtr ep;
	register int i;
	for (ep = mp->exports, i = mp->nExports; i; i--, ep++)
	if (ep->name)
	free(ep->name);
	free(mp->exports);
	}
	if (mp == modList)
	modList = mp->next;
	else {
	for (mp1 = modList; mp1; mp1 = mp1->next)
	if (mp1->next == mp) {
	mp1->next = mp->next;
	break;
	}
	}
	free(mp->name);
	free(mp);
	return result;
	}

	static void terminate(void)
	{
	while (modList)
	dlclose(modList);
	}

	/*
	* Build the export table from the XCOFF .loader section.
	*/
	static int readExports(ModulePtr mp)
	{
	LDFILE *ldp = NULL;
	SCNHDR sh, shdata;
	LDHDR *lhp;
	char *ldbuf;
	LDSYM *ls;
	int i;
	ExportPtr ep;
	struct ld_info *lp;
	char *buf;
	int size = 4 * 1024;
	void *dataorg;

	/*
	* The module might be loaded due to the LIBPATH
	* environment variable. Search for the loaded
	* module using L_GETINFO.
	*/
	if ((buf = malloc(size)) == NULL) {
	errvalid++;
	strcpy(errbuf, "readExports: ");
	strcat(errbuf, strerror(errno));
	return -1;
	}
	while ((i = loadquery(L_GETINFO, buf, size)) == -1 && errno == ENOMEM) {
	free(buf);
	size += 4 * 1024;
	if ((buf = malloc(size)) == NULL) {
	errvalid++;
	strcpy(errbuf, "readExports: ");
	strcat(errbuf, strerror(errno));
	return -1;
	}
	}
	if (i == -1) {
	errvalid++;
	strcpy(errbuf, "readExports: ");
	strcat(errbuf, strerror(errno));
	free(buf);
	return -1;
	}
	/*
	* Traverse the list of loaded modules. The entry point
	* returned by load() does actually point to the TOC
	* entry contained in the data segment.
	*/
	lp = (struct ld_info *) buf;
	while (lp) {
	if ((unsigned long) mp->entry >= (unsigned long) lp->ldinfo_dataorg &&
	(unsigned long) mp->entry < (unsigned long) lp->ldinfo_dataorg +
	lp->ldinfo_datasize) {
	dataorg = lp->ldinfo_dataorg;
	ldp = ldopen(lp->ldinfo_filename, ldp);
	break;
	}
	if (lp->ldinfo_next == 0)
	lp = NULL;
	else
	lp = (struct ld_info ) ((char ) lp + lp->ldinfo_next);
	}
	free(buf);
	if (!ldp) {
	errvalid++;
	strcpy(errbuf, "readExports: ");
	strcat(errbuf, strerror(errno));
	return -1;
	}
	if (TYPE(ldp) != U802TOCMAGIC) {
	errvalid++;
	strcpy(errbuf, "readExports: bad magic");
	while (ldclose(ldp) == FAILURE);
	return -1;
	}
	/*
	* Get the padding for the data section. This is needed for
	* AIX 4.1 compilers. This is used when building the final
	* function pointer to the exported symbol.
	*/
	if (ldnshread(ldp, _DATA, &shdata) != SUCCESS) {
	errvalid++;
	strcpy(errbuf, "readExports: cannot read data section header");
	while (ldclose(ldp) == FAILURE);
	return -1;
	}
	if (ldnshread(ldp, _LOADER, &sh) != SUCCESS) {
	errvalid++;
	strcpy(errbuf, "readExports: cannot read loader section header");
	while (ldclose(ldp) == FAILURE);
	return -1;
	}
	/*
	* We read the complete loader section in one chunk, this makes
	* finding long symbol names residing in the string table easier.
	*/
	if ((ldbuf = (char *) malloc(sh.s_size)) == NULL) {
	errvalid++;
	strcpy(errbuf, "readExports: ");
	strcat(errbuf, strerror(errno));
	while (ldclose(ldp) == FAILURE);
	return -1;
	}
	if (FSEEK(ldp, sh.s_scnptr, BEGINNING) != OKFSEEK) {
	errvalid++;
	strcpy(errbuf, "readExports: cannot seek to loader section");
	free(ldbuf);
	while (ldclose(ldp) == FAILURE);
	return -1;
	}
	if (FREAD(ldbuf, sh.s_size, 1, ldp) != 1) {
	errvalid++;
	strcpy(errbuf, "readExports: cannot read loader section");
	free(ldbuf);
	while (ldclose(ldp) == FAILURE);
	return -1;
	}
	lhp = (LDHDR *) ldbuf;
	ls = (LDSYM *) (ldbuf + LDHDRSZ);
	/*
	* Count the number of exports to include in our export table.
	*/
	for (i = lhp->l_nsyms; i; i--, ls++) {
	if (!LDR_EXPORT(*ls))
	continue;
	mp->nExports++;
	}
	if ((mp->exports = (ExportPtr) calloc(mp->nExports, sizeof(*mp->exports))) == NULL) {
	errvalid++;
	strcpy(errbuf, "readExports: ");
	strcat(errbuf, strerror(errno));
	free(ldbuf);
	while (ldclose(ldp) == FAILURE);
	return -1;
	}
	/*
	* Fill in the export table. All entries are relative to
	* the beginning of the data origin.
	*/
	ep = mp->exports;
	ls = (LDSYM *) (ldbuf + LDHDRSZ);
	for (i = lhp->l_nsyms; i; i--, ls++) {
	char *symname;
	char tmpsym[SYMNMLEN + 1];
	if (!LDR_EXPORT(*ls))
	continue;
	if (ls->l_zeroes == 0)
	symname = ls->l_offset + lhp->l_stoff + ldbuf;
	else {
	/*
	* The l_name member is not zero terminated, we
	* must copy the first SYMNMLEN chars and make
	* sure we have a zero byte at the end.
	*/
	strncpy(tmpsym, ls->l_name, SYMNMLEN);
	tmpsym[SYMNMLEN] = '\0';
	symname = tmpsym;
	}
	ep->name = strdup(symname);
	ep->addr = (void *) ((unsigned long) dataorg +
	ls->l_value - shdata.s_vaddr);
	ep++;
	}
	free(ldbuf);
	while (ldclose(ldp) == FAILURE);
	return 0;
	}

	/*
	* Find the main modules data origin. This is used as export pointer
	* for loadbind() to be able to resolve references to the main part.
	*/
	static void *findMain(void)
	{
	struct ld_info *lp;
	char *buf;
	int size = 4 * 1024;
	int i;
	void *ret;

	if ((buf = malloc(size)) == NULL) {
	errvalid++;
	strcpy(errbuf, "findMain: ");
	strcat(errbuf, strerror(errno));
	return NULL;
	}
	while ((i = loadquery(L_GETINFO, buf, size)) == -1 && errno == ENOMEM) {
	free(buf);
	size += 4 * 1024;
	if ((buf = malloc(size)) == NULL) {
	errvalid++;
	strcpy(errbuf, "findMain: ");
	strcat(errbuf, strerror(errno));
	return NULL;
	}
	}
	if (i == -1) {
	errvalid++;
	strcpy(errbuf, "findMain: ");
	strcat(errbuf, strerror(errno));
	free(buf);
	return NULL;
	}
	/*
	* The first entry is the main module. The data segment
	* starts with the TOC entries for all exports, so the
	* data segment origin works as argument for loadbind.
	*/
	lp = (struct ld_info *) buf;
	ret = lp->ldinfo_dataorg;
	free(buf);
	return ret;
	}

	#endif