/** BEGIN COPYRIGHT BLOCK * This Program 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; version 2 of the License. * * 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, Inc., 59 Temple * Place, Suite 330, Boston, MA 02111-1307 USA. * * In addition, as a special exception, Red Hat, Inc. gives You the additional * right to link the code of this Program with code not covered under the GNU * General Public License ("Non-GPL Code") and to distribute linked combinations * including the two, subject to the limitations in this paragraph. Non-GPL Code * permitted under this exception must only link to the code of this Program * through those well defined interfaces identified in the file named EXCEPTION * found in the source code files (the "Approved Interfaces"). The files of * Non-GPL Code may instantiate templates or use macros or inline functions from * the Approved Interfaces without causing the resulting work to be covered by * the GNU General Public License. Only Red Hat, Inc. may make changes or * additions to the list of Approved Interfaces. You must obey the GNU General * Public License in all respects for all of the Program code and other code used * in conjunction with the Program except the Non-GPL Code covered by this * exception. If you modify this file, you may extend this exception to your * version of the file, but you are not obligated to do so. If you do not wish to * provide this exception without modification, you must delete this exception * statement from your version and license this file solely under the GPL without * exception. * * * Copyright (C) 2001 Sun Microsystems, Inc. Used by permission. * Copyright (C) 2005 Red Hat, Inc. * All rights reserved. * END COPYRIGHT BLOCK **/ #ifdef HAVE_CONFIG_H # include #endif /* * MODULE: plist.c * * DESCRIPTION: * * This module implements property lists. A property list is an * ordered array of property values. Each property value has an * handle for some data item, and may have a reference to * another property list which describes the type of the data * item. Each property value has a property index which specifies * its position in the property list. A property value may also * have a name. Since the data item associated with a property * value may reference another property list, it is possible to * construct arbitrary linked structures of property lists. * * IMPLEMENTATION NOTES: */ #include "netsite.h" #include "base/plist.h" #include "plist_pvt.h" int plistHashSizes[] = PLSTSIZES; /* * FUNCTION: PListAssignValue * * DESCRIPTION: * * This function sets the value and/or type of a defined property * in given property list. If the property type is specified as * NULL, it is unchanged. However, the property value is always * set to the specified value. * * ARGUMENTS: * * plist - handle for the property list * pname - the property name * pvalue - the new property value * ptype - the new property type, or NULL * * RETURNS: * * If successful, the property index of the referenced property is * returned as the function value. Errors are indicated by a * negative return code as defined in plist.h. */ NSAPI_PUBLIC int PListAssignValue(PList_t plist, const char *pname, const void *pvalue, PList_t ptype) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t *pv; int pindex; int i; if (!plist) return ERRPLUNDEF; /* Got a symbol table for this property list? */ if (pl->pl_symtab) { /* Yes, compute hash of specified name */ i = PListHashName(pl->pl_symtab, pname); /* Search hash collision list for matching name */ for (pv = pl->pl_symtab->pt_hash[i]; pv; pv = pv->pv_next) { if (!strcmp(pname, pv->pv_name)) { /* Name match, get property index */ pindex = pv->pv_pi; /* Set the new value */ pv->pv_value = (char *)pvalue; /* Set type if type is given */ if (ptype) pv->pv_type = (PListStruct_t *)ptype; /* Return the property index */ return pindex; } } } /* Error - specified property name is undefined */ return ERRPLUNDEF; } /* * FUNCTION: PListCreate * * DESCRIPTION: * * This function creates a new property list and returns a handle for * it. It allows the caller to reserve a specified number of * property indices at the beginning of the list, and also to limit * the total number of property values that may be added to the list. * * ARGUMENTS: * * mempool - handle for a memory pool to be associated * with the new property list * resvprop - number of reserved property indices * maxprop - maximum number of properties in list * (zero or negative imposes no limit) * flags - unused, reserved, must be zero * * RETURNS: * * If successful, the function return value is a handle for the new * property list. Otherwise NULL is returned. */ NSAPI_PUBLIC PList_t PListCreate(pool_handle_t *mempool, int resvprop, int maxprop, int flags) { PListStruct_t *plist; /* pointer to property list structure */ int i; plist = (PListStruct_t *)pool_malloc(mempool, sizeof(PListStruct_t)); if (plist) { /* Negative maxprop is the same as zero, i.e. no limit */ if (maxprop < 0) maxprop = 0; /* If resvprop and maxprop are both specified, limit resvprop */ if (resvprop > 0) { if (maxprop && (resvprop > maxprop)) resvprop = maxprop; } else resvprop = 0; /* Initialize property list structure */ plist->pl_mempool = mempool; plist->pl_symtab = NULL; plist->pl_maxprop = maxprop; plist->pl_resvpi = resvprop; plist->pl_initpi = resvprop; plist->pl_lastpi = resvprop; /* Set initialize size for array of property value pointers */ plist->pl_cursize = (resvprop) ? resvprop : PLIST_DEFSIZE; /* Allocate the initial array of property value pointers */ plist->pl_ppval = (pb_entry **)pool_malloc(mempool, (plist->pl_cursize * sizeof(PLValueStruct_t *))); if (!plist->pl_ppval) { /* Failed - insufficient memory */ pool_free(mempool, (void *)plist); plist = NULL; } else { /* NULL out pointers in the reserved index range, if any */ for (i = 0; i < plist->pl_lastpi; ++i) { plist->pl_ppval[i] = 0; } } } return (PList_t)plist; } /* * FUNCTION: PListDefProp * * DESCRIPTION: * * This function creates a new property in a specified property list. * The 'pindex' argument may be used to request a particular property * index for the new property. If 'pindex' is greater than zero, * the specified value is used as the new property's index, provided * there is no property at that index already. If 'pindex' is zero, * then the next available property index is assigned to the new * property. A name may optionally be specified for the new property. * * ARGUMENTS: * * plist - handle for the property list * pindex - new property index (or zero) * pname - new property name (or NULL) * * RETURNS: * * If successful, the index of the new property is returned as the * function value. Errors are indicated by a negative return code * as defined in plist.h. */ NSAPI_PUBLIC int PListDefProp(PList_t plist, int pindex, const char *pname, const int flags) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t *pv; int cursize; int i; int wrapped; if (!plist) return ERRPLUNDEF; ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Is pindex specified? */ if (pindex > 0) { /* Yes, is it in the reserved range? */ if (flags != PLFLG_IGN_RES && pindex > pl->pl_resvpi) { /* No, error */ return ERRPLINVPI; } i = pindex - 1; if (ppval[i]) { /* Error - property already exists at specified index */ return ERRPLEXIST; } } else { /* * Look for a free property index, starting at pl_lastpi + 1. * (Note that i is the property index - 1) */ for (wrapped = 0, i = pl->pl_lastpi; ;) { /* Are we in an initialized part of the array? */ if (i < pl->pl_initpi) { /* Yes, use this index if it's free */ if (ppval[i] == 0) break; /* Otherwise step to the next one */ ++i; } else { /* Have we reached the end yet? */ if (i < pl->pl_cursize) { /* * We are above the highest initialized index, but * still within the allocated size. An index in * this range can be used with no further checks. */ ppval[i] = 0; } else { /* * It's looking like time to grow the array, but * first go back and look for an unused, unreserved * index that might have been freed. */ if (!wrapped) { i = pl->pl_resvpi; wrapped = 1; continue; } /* * Grow the array unless there is a specified maximum * size and we've reached it. */ i = pl->pl_cursize; if (pl->pl_maxprop && (i > pl->pl_maxprop)) { /* Error - property list is full */ return ERRPLFULL; } /* Increase planned size of list */ cursize = i + PLIST_DEFGROW; /* Reallocate the array of property value pointers */ ppval = (PLValueStruct_t **)pool_realloc(pl->pl_mempool, (void *)ppval, (cursize * sizeof(PLValueStruct_t *))); if (!ppval) { /* Error - insufficient memory */ return ERRPLNOMEM; } /* Initialize the first new entry and select it */ ppval[i] = NULL; pl->pl_ppval = (pb_entry **)ppval; pl->pl_cursize = cursize; } /* Update the highest initialized index value */ pl->pl_initpi = i + 1; break; } } /* Set the starting point for the next allocation */ pl->pl_lastpi = i + 1; } /* We have a property index (i + 1). Create a new property value */ pv = (PLValueStruct_t *)pool_calloc(pl->pl_mempool, 1, sizeof(PLValueStruct_t)); if (!pv) { /* Error - insufficient memory */ return ERRPLNOMEM; } pv->pv_pbentry.param = &pv->pv_pbparam; pv->pv_pi = i + 1; ppval[i] = pv; /* Name the property if the name was specified */ if (pname) { /* XXX Maybe should delete property if naming fails */ return PListNameProp(plist, i + 1, pname); } /* Return the property index of the new property */ return i + 1; } /* * FUNCTION: PListDeleteProp * * DESCRIPTION: * * This function deletes a property from a specified property list. * The property can be specified by its property index, using a * pindex value greater than zero, or by its name, by specifying * pindex as zero and pname as the property name. This does not * have any effect on the data referenced by the property value, * if any, nor does it have any effect on the property list that * describes the property value's type, if any. * * ARGUMENTS: * * plist - handle for the property list * pindex - the property index, or zero * pname - the property name, or NULL */ NSAPI_PUBLIC const void * PListDeleteProp(PList_t plist, int pindex, const char *pname_in) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t **pvp; PLValueStruct_t *pv = NULL; int i; const void *pvalue = NULL; char *pname = (char *)pname_in; if (!plist) return NULL; ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Check for valid property index */ if ((pindex > 0) && (pindex <= pl->pl_initpi)) { /* Get the pointer to the property structure */ pv = ppval[pindex - 1]; pname = 0; if (pv) { pname = pv->pv_name; } } if (pname && pl->pl_symtab) { /* Compute hash of specified property name */ i = PListHashName(pl->pl_symtab, pname); /* Search hash collision list for matching name */ for (pvp = &pl->pl_symtab->pt_hash[i]; *pvp; pvp = &(*pvp)->pv_next) { pv = *pvp; if (!strcmp(pname, pv->pv_name)) { /* Found it. Get its index and remove it. */ pindex = pv->pv_pi; *pvp = pv->pv_next; break; } } } /* Found the indicated property by index or name? */ if (pv) { /* Yes, remove it from the property list */ ppval[pindex - 1] = NULL; /* Free the property name, if any */ if (pv->pv_name) { pool_free(pl->pl_mempool, (void *)(pv->pv_name)); } pvalue = pv->pv_value; /* Free the property */ pool_free(pl->pl_mempool, (void *)pv); } return(pvalue); } /* * FUNCTION: PListFindValue * * DESCRIPTION: * * This function retrieves the value and type of a property with a * specified property name. If the pvalue argument is non-NULL, * it specifies a location in which to return the property value. * Similarly, if ptype is non-NULL, it specifies where the property * list describing the property type is to be returned. If a * property has no value, the value returned for pvalue is NULL. * If a property has no type, the value returned for ptype is NULL. * A property can have a value, a type, both, or neither. * * ARGUMENTS: * * plist - handle for the property list * pname - pointer to property name string * pvalue - property value return pointer * ptype - property type return pointer * * RETURNS: * * If successful, the index of the referenced property is returned * as the function value. Errors are indicated by a negative * return code as defined in plist.h. */ NSAPI_PUBLIC int PListFindValue(PList_t plist, const char *pname, void **pvalue, PList_t *ptype) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t *pv; int pindex; int i; if (!plist) return ERRPLUNDEF; /* Got a symbol table for this property list? */ if (pl->pl_symtab) { /* Yes, compute hash of specified name */ i = PListHashName(pl->pl_symtab, pname); /* Search hash collision list for matching name */ for (pv = pl->pl_symtab->pt_hash[i]; pv; pv = pv->pv_next) { if (!strcmp(pname, pv->pv_name)) { /* Name match, get property index */ pindex = pv->pv_pi; /* Return the value if requested */ if (pvalue) *pvalue = (void *)(pv->pv_value); /* Return the type if requested */ if (ptype) *ptype = (PList_t)(pv->pv_type); /* Return the property index */ return pindex; } } } /* Error - specified property name is undefined */ return ERRPLUNDEF; } /* * FUNCTION: PListInitProp * * DESCRIPTION: * * This function combines the functions of PListDefProp() and * PListSetValue(), defining a new property and assigning it an * initial value and optionally a type and/or a name. * * ARGUMENTS: * * plist - handle for the property list * pindex - a reserved property index, or zero * pname - the new property name, or NULL * pvalue - the new property value * ptype - the new property type, or NULL * * RETURNS: * * If successful, the property index (pindex) is returned as the * function value. Errors are indicated by a negative return code * as defined in plist.h. */ NSAPI_PUBLIC int PListInitProp(PList_t plist, int pindex, const char *pname, const void *pvalue, PList_t ptype) { int rv; if (!plist) return ERRPLUNDEF; /* Create the property */ rv = PListDefProp(plist, pindex, pname, PLFLG_USE_RES); if (rv > 0) { /* If that worked, set the value and type */ rv = PListSetValue(plist, rv, pvalue, ptype); } return rv; } /* * FUNCTION: PListNew * * DESCRIPTION: * * This function creates a new property list, using the specified * memory pool for allocating the internal data structures used to * represent it. If the mempool argument is NULL, the default * memory pool is used. * * ARGUMENTS: * * mempool - handle for a memory pool to be associated * with the new property list * * RETURNS: * * If successful, the function return value is a handle for the new * property list. Otherwise NULL is returned. */ NSAPI_PUBLIC PList_t PListNew(pool_handle_t *mempool) { /* Just call PListCreate with default parameters */ return PListCreate(mempool, 0, 0, 0); } /* * FUNCTION: PListDestroy * * DESCRIPTION: * * This function destroys a specified property list. This means * that any dynamic memory which was allocated as a result of calls * to the property list API is freed to the memory pool from which * it was allocated. Property value data is not freed, nor are * any property lists associated with property types. * * ARGUMENTS: * * plist - handle for the property list */ void PListDestroy(PList_t plist) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t *pv; int i; if (!plist) return; /* Free the property name symbol table if any */ if (pl->pl_symtab) { pool_free(pl->pl_mempool, (void *)(pl->pl_symtab)); } ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Loop over the initialized property indices */ for (i = 0; i < pl->pl_initpi; ++i) { /* Got a property here? */ pv = ppval[i]; if (pv) { /* Free the property name string if any */ if (pv->pv_name) { pool_free(pl->pl_mempool, (void *)(pv->pv_name)); } /* Free the property value structure */ pool_free(pl->pl_mempool, (void *)pv); } } /* Free the array of pointers to property values */ pool_free(pl->pl_mempool, (void *)ppval); /* Free the property list head */ pool_free(pl->pl_mempool, (void *)pl); } /* * FUNCTION: PListGetValue * * DESCRIPTION: * * This function retrieves the value and type of the property with * the property index given by pindex in the specified property * list. The pindex argument must specify the index of a defined * property. If the pvalue argument is non-NULL, it specifies a * location in which to return the property value. Similarly, if * ptype is non-NULL, it specifies where the property list * describing the property type is to be returned. If a property * has no value, the value returned for pvalue is NULL. If a * property has no type, the value returned for ptype is NULL. A * property can have a value, a type, both, or neither. * * ARGUMENTS: * * plist - handle for the property list * pindex - the property index * pvalue - property value return pointer * ptype - property type return pointer * * RETURNS: * * If successful, the property index (pindex) is returned as the * function value. Errors are indicated by a negative return code * as defined in plist.h. */ NSAPI_PUBLIC int PListGetValue(PList_t plist, int pindex, void **pvalue, PList_t *ptype) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t *pv; if (!plist) return ERRPLUNDEF; ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Check for valid property index */ if ((pindex > 0) && (pindex <= pl->pl_initpi)) { /* Does the property exist? */ pv = ppval[pindex - 1]; if (pv) { /* Yes, return the value if requested */ if (pvalue) *pvalue = (void *)(pv->pv_value); /* Return the type if requested */ if (ptype) *ptype = (PList_t)(pv->pv_type); /* Successful return */ return pindex; } } /* Error - invalid property index or non-existent property */ return ERRPLINVPI; } /* * FUNCTION: PListHashName * * DESCRIPTION: * * This function hashes a given property name for a specified * symbol table. It produces a value that can be used as an * index in the pt_hash array associated with the symbol table. * * ARGUMENTS: * * symtab - pointer to the symbol table * pname - pointer to the property name string * * RETURNS: * * The hash index is returned as the function value. */ int PListHashName(PLSymbolTable_t *symtab, const char *pname) { unsigned int hashval = 0; /* hash value */ while (*pname) { hashval = (hashval<<5) ^ (*pname++ & 0x7f); } return hashval % PLSIZENDX(symtab->pt_sizendx); } /* * FUNCTION: PListNameProp * * DESCRIPTION: * * This function assigns a name to a defined property with the * property index, pindex. If the property has an existing name, * it will be replaced with the name specified by pname. * * ARGUMENTS: * * plist - handle for the property list * pindex - the property index * pname - the new property name * * RETURNS: * * If successful, the property index (pindex) is returned as the * function value. Errors are indicated by a negative return code * as defined in plist.h. */ NSAPI_PUBLIC int PListNameProp(PList_t plist, int pindex, const char *pname) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t *pv; PLSymbolTable_t *pt; int i; if (!plist) return ERRPLUNDEF; pt = pl->pl_symtab; /* Check for valid property index */ if ((pindex > 0) && (pindex <= pl->pl_initpi)) { /* Does the property exist? */ pv = ((PLValueStruct_t **)(pl->pl_ppval))[pindex - 1]; if (pv) { /* If it has a name already, unname it */ if (pv->pv_name) { PLValueStruct_t **pvp; /* Get hash bucket index */ i = PListHashName(pt, pv->pv_name); /* Seach hash collision list for this property */ for (pvp = &pt->pt_hash[i]; *pvp; pvp = &(*pvp)->pv_next) { if (*pvp == pv) { /* Remove it from the list */ *pvp = pv->pv_next; break; } } /* Free the current name string */ pool_free(pl->pl_mempool, (void *)(pv->pv_name)); } /* Got a new name? */ if (pname) { /* Yes, is there a hash table? */ if (!pt) { /* No, create one */ pt = (PLSymbolTable_t *)pool_calloc(pl->pl_mempool, 1, PLHASHSIZE(0)); if (!pt) { return ERRPLNOMEM; } pl->pl_symtab = pt; } else { /* Is it time to grow the hash table? */ i = PLSIZENDX(pt->pt_sizendx); if (((size_t)pt->pt_sizendx < PLMAXSIZENDX) && pt->pt_nsyms >= (i + i)) { PLSymbolTable_t *npt; /* Yes, allocate the new table */ npt = (PLSymbolTable_t *)pool_calloc(pl->pl_mempool, 1, PLHASHSIZE(pt->pt_sizendx+1)); if (npt) { PLValueStruct_t *opv; PLValueStruct_t *npv; int j; npt->pt_sizendx = pt->pt_sizendx + 1; npt->pt_nsyms = pt->pt_nsyms; /* Rehash all the names into the new table */ for (i = 0; i < PLSIZENDX(pt->pt_sizendx); ++i) { for (opv = pt->pt_hash[i]; opv; opv = npv) { npv = opv->pv_next; j = PListHashName(npt, opv->pv_name); opv->pv_next = npt->pt_hash[j]; npt->pt_hash[j] = opv; } } pl->pl_symtab = npt; /* Free the old symbol table */ pool_free(pl->pl_mempool, (void *)pt); pt = npt; } } } /* Duplicate the name string */ pv->pv_name = pool_strdup(pl->pl_mempool, (char *)pname); /* Add name to symbol table */ i = PListHashName(pt, pname); pv->pv_next = pt->pt_hash[i]; pt->pt_hash[i] = pv; } /* Successful return */ return pindex; } } /* Error - invalid property index or non-existent property */ return ERRPLINVPI; } /* * FUNCTION: PListSetType * * DESCRIPTION: * * This function sets the property type of the defined property * with the property index, pindex. The property list describing * the property type is specified by ptype. If ptype is NULL, * the property type will be set to be undefined (NULL). * * * ARGUMENTS: * * plist - handle for the property list * pindex - the property index * ptype - the new property type, or NULL * * RETURNS: * * If successful, the property index (pindex) is returned as the * function value. Errors are indicated by a negative return code * as defined in plist.h. */ NSAPI_PUBLIC int PListSetType(PList_t plist, int pindex, PList_t ptype) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t *pv; if (!plist) return ERRPLUNDEF; ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Check for valid property index */ if ((pindex > 0) && (pindex <= pl->pl_initpi)) { /* Does the property exist? */ pv = ppval[pindex - 1]; if (pv) { /* Yes, set the new type */ pv->pv_type = ptype; /* Successful return */ return pindex; } } /* Error - invalid property index or non-existent property */ return ERRPLINVPI; } /* * FUNCTION: PListSetValue * * DESCRIPTION: * * This function sets the value and optionally the type of a * defined property in a given property list. The pindex argument * specifies the property index, which must be greater than zero. * The ptype argument specifies a property list that describes the * property type. If ptype is NULL, the property type, if any, is * unchanged by this function. However, the property value is * always set to the value given by pvalue. * * ARGUMENTS: * * plist - handle for the property list * pindex - the property index * pvalue - the new property value * ptype - the new property type, or NULL * * RETURNS: * * If successful, the property index (pindex) is returned as the * function value. Errors are indicated by a negative return code * as defined in plist.h. */ NSAPI_PUBLIC int PListSetValue(PList_t plist, int pindex, const void *pvalue, PList_t ptype) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t *pv; if (!plist) return ERRPLUNDEF; ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Check for valid property index */ if ((pindex > 0) && (pindex <= pl->pl_initpi)) { /* Does the property exist? */ pv = ppval[pindex - 1]; if (pv) { /* Yes, set the new value */ pv->pv_value = (char *)pvalue; /* Set type if type is given */ if (ptype) pv->pv_type = (PListStruct_t *)ptype; /* Successful return */ return pindex; } } /* Error - invalid property index or non-existent property */ return ERRPLINVPI; } /* * FUNCTION: PListEnumerate * * DESCRIPTION: * * This function walks through a specified property list * calling a user supplied function with the property * name and value as parameters. * * ARGUMENTS: * * plist - handle for the property list * user_func - handle for the user function */ NSAPI_PUBLIC void PListEnumerate(PList_t plist, PListFunc_t *user_func, void *user_data) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t *pv; int i; if (!plist) return; ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Loop over the initialized property indices */ for (i = 0; i < pl->pl_initpi; ++i) { /* Got a property here? */ pv = ppval[i]; if (pv) { (*user_func)(pv->pv_name, pv->pv_value, user_data); } } } /* * FUNCTION: PListCreateDuplicate * * DESCRIPTION: * * This function creates a new property list and returns a handle for * it. The source plist provides the new plists parameters. * * ARGUMENTS: * * src_plist - source plist to duplicate * mempool - handle for a memory pool to be associated * with the new property list, only * used if flags is set to PLFLG_NEW_MPOOL * flags - if PLFLG_NEW_MPOOL uses new_mempool * parameter * * RETURNS: * * If successful, the function return value is a handle for the new * property list. Otherwise NULL is returned. */ static PList_t PListCreateDuplicate(PList_t src_plist, pool_handle_t *new_mempool, int flags) { PListStruct_t *plist; /* pointer to property list structure */ int i; pool_handle_t *mempool; mempool = (flags == PLFLG_NEW_MPOOL) ? new_mempool : src_plist->pl_mempool; plist = (PListStruct_t *)pool_malloc(mempool, sizeof(PListStruct_t)); if (plist) { /* Initialize property list structure */ plist->pl_mempool = mempool; plist->pl_symtab = NULL; plist->pl_maxprop = src_plist->pl_maxprop; plist->pl_resvpi = src_plist->pl_resvpi; plist->pl_initpi = src_plist->pl_initpi; plist->pl_lastpi = src_plist->pl_lastpi; /* Set initialize size for array of property value pointers */ plist->pl_cursize = src_plist->pl_cursize; /* Allocate the initial array of property value pointers */ plist->pl_ppval = (pb_entry **)pool_malloc(mempool, (plist->pl_cursize * sizeof(PLValueStruct_t *))); if (!plist->pl_ppval) { /* Failed - insufficient memory */ pool_free(mempool, (void *)plist); plist = NULL; } else { /* NULL out pointers in the reserved index range, if any */ for (i = 0; i < plist->pl_lastpi; ++i) { plist->pl_ppval[i] = 0; } } } return (PList_t)plist; } /* * FUNCTION: PListDuplicate * * DESCRIPTION: * * This function duplicates a specified PList_t. * * ARGUMENTS: * * plist - handle for the property list * mempool - handle for a memory pool to be associated * with the new property list * resvprop - number of reserved property indices * maxprop - maximum number of properties in list * (zero or negative imposes no limit) * flags - unused, reserved, must be zero * * RETURNS: * * If successful, the function return value is a handle for the new * property list. Otherwise NULL is returned. */ NSAPI_PUBLIC PList_t PListDuplicate(PList_t plist, pool_handle_t *new_mempool, int flags) { PListStruct_t *pl = (PListStruct_t *)plist; PLValueStruct_t **ppval; PLValueStruct_t *pv; int i; int rv = 0; PList_t new_plist; if (!plist) return NULL; new_plist = PListCreateDuplicate(plist, new_mempool, flags); if (new_plist == NULL) { return(NULL); } ppval = (PLValueStruct_t **)(pl->pl_ppval); /* Loop over the initialized property indices */ for (i = 0; i < pl->pl_initpi; ++i) { /* Got a property here? */ pv = ppval[i]; if (pv) { /* Create the property */ rv = PListDefProp(new_plist, i + 1, pv->pv_name, PLFLG_IGN_RES); if (rv > 0) { /* If that worked, set the value and type */ rv = PListSetValue(new_plist, rv, pv->pv_value, pv->pv_type); } if ( rv <= 0 ) { PListDestroy(new_plist); return(NULL); } } } return(new_plist); } /* * FUNCTION: PListGetPool * * DESCRIPTION: * * This function returns the memory pool the PList is allocated from. * * ARGUMENTS: * * plist - handle for the property list * * RETURNS: * * The memory pool address, which can be NULL. */ NSAPI_PUBLIC pool_handle_t * PListGetPool(PList_t plist) { if (!plist) return NULL; return(plist->pl_mempool); }