/* * Copyright (c) 1999-2002 Apple Computer, Inc. All rights reserved. * * @APPLE_LICENSE_HEADER_START@ * * Portions Copyright (c) 1999 Apple Computer, Inc. All Rights * Reserved. This file contains Original Code and/or Modifications of * Original Code as defined in and that are subject to the Apple Public * Source License Version 1.1 (the "License"). You may not use this file * except in compliance with the License. Please obtain a copy of the * License at http://www.apple.com/publicsource and read it before using * this file. * * The Original Code and all software distributed under the License are * distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, EITHER * EXPRESS OR IMPLIED, AND APPLE HEREBY DISCLAIMS ALL SUCH WARRANTIES, * INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE OR NON- INFRINGEMENT. Please see the * License for the specific language governing rights and limitations * under the License. * * @APPLE_LICENSE_HEADER_END@ */ /* * Printer lookup * Copyright (C) 1989 by NeXT, Inc. */ #include #include #include #include #include #include #include #include "_lu_types.h" #include "lookup.h" #include "printerdb.h" #include "lu_utils.h" static pthread_mutex_t _printer_lock = PTHREAD_MUTEX_INITIALIZER; #define P_GET_NAME 1 #define P_GET_ENT 2 extern prdb_ent *_old_prdb_get(); extern prdb_ent *_old_prdb_getbyname(); extern void _old_prdb_set(); extern void _old_prdb_end(); static void free_printer_data(prdb_ent *p) { char **names; int i; if (p == NULL) return; names = p->pe_name; if (names != NULL) { while (*names) free(*names++); free(p->pe_name); } for (i = 0; i < p->pe_nprops; i++) { free(p->pe_prop[i].pp_key); free(p->pe_prop[i].pp_value); } free(p->pe_prop); } static void free_printer(prdb_ent *p) { if (p == NULL) return; free_printer_data(p); free(p); } static void free_lu_thread_info_printer(void *x) { struct lu_thread_info *tdata; if (x == NULL) return; tdata = (struct lu_thread_info *)x; if (tdata->lu_entry != NULL) { free_printer((prdb_ent *)tdata->lu_entry); tdata->lu_entry = NULL; } _lu_data_free_vm_xdr(tdata); free(tdata); } static prdb_ent * extract_printer(XDR *xdr) { prdb_ent *p; int i, j, nvals, nkeys, status; char *key, **vals; if (xdr == NULL) return NULL; if (!xdr_int(xdr, &nkeys)) return NULL; p = (prdb_ent *)calloc(1, sizeof(prdb_ent)); for (i = 0; i < nkeys; i++) { key = NULL; vals = NULL; nvals = 0; status = _lu_xdr_attribute(xdr, &key, &vals, &nvals); if (status < 0) { free_printer(p); return NULL; } j = 0; if ((p->pe_name == NULL) && (!strcmp("name", key))) { free(key); p->pe_name = vals; j = nvals; vals = NULL; } else { if (p->pe_nprops == 0) { p->pe_prop = (prdb_property *)calloc(1, sizeof(prdb_property)); } else { p->pe_prop = (prdb_property *)realloc(p->pe_prop, (p->pe_nprops + 1) * sizeof(prdb_property)); } p->pe_prop[p->pe_nprops].pp_key = key; p->pe_prop[p->pe_nprops].pp_value = NULL; if (nvals > 0) { p->pe_prop[p->pe_nprops].pp_value = vals[0]; j = 1; } else { p->pe_prop[p->pe_nprops].pp_value = strdup(""); } p->pe_nprops++; } if (vals != NULL) { for (; j < nvals; j++) free(vals[j]); free(vals); } } if (p->pe_name == NULL) p->pe_name = (char **)calloc(1, sizeof(char *)); if (p->pe_prop == NULL) p->pe_prop = (prdb_property *)calloc(1, sizeof(prdb_property)); return p; } static prdb_ent * copy_printer(prdb_ent *in) { int i; prdb_ent *p; if (in == NULL) return NULL; p = (prdb_ent *)calloc(1, sizeof(prdb_ent)); if (in->pe_name != NULL) { for (i = 0; in->pe_name[i] != NULL; i++); p->pe_name = (char **)calloc(i, sizeof(char *)); for (i = 0; p->pe_name[i] != NULL; i++) p->pe_name[i] = strdup(in->pe_name[i]); } else { p->pe_name = (char **)calloc(1, sizeof(char *)); } if (in->pe_nprops > 0) { p->pe_prop = (struct prdb_property *)calloc(in->pe_nprops, sizeof(struct prdb_property)); for (i = 0; in->pe_nprops; i++) { p->pe_prop[i].pp_key = strdup(in->pe_prop[i].pp_key); p->pe_prop[i].pp_value = NULL; if (in->pe_prop[i].pp_value != NULL) p->pe_prop[i].pp_value = strdup(in->pe_prop[i].pp_value); } } else { p->pe_prop = (prdb_property *)calloc(1, sizeof(prdb_property)); } return p; } static void recycle_printer(struct lu_thread_info *tdata, struct prdb_ent *in) { struct prdb_ent *p; if (tdata == NULL) return; p = (struct prdb_ent *)tdata->lu_entry; if (in == NULL) { free_printer(p); tdata->lu_entry = NULL; } if (tdata->lu_entry == NULL) { tdata->lu_entry = in; return; } free_printer_data(p); p->pe_name = in->pe_name; p->pe_nprops = in->pe_nprops; p->pe_prop = in->pe_prop; free(in); } static prdb_ent * lu_prdb_getbyname(const char *name) { prdb_ent *p; unsigned datalen; char namebuf[_LU_MAXLUSTRLEN + BYTES_PER_XDR_UNIT]; XDR outxdr; XDR inxdr; static int proc = -1; char *lookup_buf; int count; if (proc < 0) { if (_lookup_link(_lu_port, "prdb_getbyname", &proc) != KERN_SUCCESS) { return NULL; } } xdrmem_create(&outxdr, namebuf, sizeof(namebuf), XDR_ENCODE); if (!xdr__lu_string(&outxdr, (_lu_string *)&name)) { xdr_destroy(&outxdr); return NULL; } datalen = 0; lookup_buf = NULL; if (_lookup_all(_lu_port, proc, (unit *)namebuf, xdr_getpos(&outxdr) / BYTES_PER_XDR_UNIT, &lookup_buf, &datalen) != KERN_SUCCESS) { xdr_destroy(&outxdr); return NULL; } xdr_destroy(&outxdr); datalen *= BYTES_PER_XDR_UNIT; if ((lookup_buf == NULL) || (datalen == 0)) return NULL; xdrmem_create(&inxdr, lookup_buf, datalen, XDR_DECODE); count = 0; if (!xdr_int(&inxdr, &count)) { xdr_destroy(&inxdr); vm_deallocate(mach_task_self(), (vm_address_t)lookup_buf, datalen); return NULL; } if (count == 0) { xdr_destroy(&inxdr); vm_deallocate(mach_task_self(), (vm_address_t)lookup_buf, datalen); return NULL; } p = extract_printer(&inxdr); xdr_destroy(&inxdr); vm_deallocate(mach_task_self(), (vm_address_t)lookup_buf, datalen); return p; } static void lu_prdb_end() { struct lu_thread_info *tdata; tdata = _lu_data_create_key(_lu_data_key_printer, free_lu_thread_info_printer); _lu_data_free_vm_xdr(tdata); } static void lu_prdb_set() { lu_prdb_end(); } static prdb_ent * lu_prdb_get() { prdb_ent *p; static int proc = -1; struct lu_thread_info *tdata; tdata = _lu_data_create_key(_lu_data_key_printer, free_lu_thread_info_printer); if (tdata == NULL) { tdata = (struct lu_thread_info *)calloc(1, sizeof(struct lu_thread_info)); _lu_data_set_key(_lu_data_key_printer, tdata); } if (tdata->lu_vm == NULL) { if (proc < 0) { if (_lookup_link(_lu_port, "prdb_get", &proc) != KERN_SUCCESS) { lu_prdb_end(); return NULL; } } if (_lookup_all(_lu_port, proc, NULL, 0, &(tdata->lu_vm), &(tdata->lu_vm_length)) != KERN_SUCCESS) { lu_prdb_end(); return NULL; } /* mig stubs measure size in words (4 bytes) */ tdata->lu_vm_length *= 4; if (tdata->lu_xdr != NULL) { xdr_destroy(tdata->lu_xdr); free(tdata->lu_xdr); } tdata->lu_xdr = (XDR *)calloc(1, sizeof(XDR)); xdrmem_create(tdata->lu_xdr, tdata->lu_vm, tdata->lu_vm_length, XDR_DECODE); if (!xdr_int(tdata->lu_xdr, &tdata->lu_vm_cursor)) { lu_prdb_end(); return NULL; } } if (tdata->lu_vm_cursor == 0) { lu_prdb_end(); return NULL; } p = extract_printer(tdata->lu_xdr); if (p == NULL) { lu_prdb_end(); return NULL; } tdata->lu_vm_cursor--; return p; } static prdb_ent * getprinter(const char *name, int source) { prdb_ent *res = NULL; struct lu_thread_info *tdata; tdata = _lu_data_create_key(_lu_data_key_printer, free_lu_thread_info_printer); if (tdata == NULL) { tdata = (struct lu_thread_info *)calloc(1, sizeof(struct lu_thread_info)); _lu_data_set_key(_lu_data_key_printer, tdata); } if (_lu_running()) { switch (source) { case P_GET_NAME: res = lu_prdb_getbyname(name); break; case P_GET_ENT: res = lu_prdb_get(); break; default: res = NULL; } } else { pthread_mutex_lock(&_printer_lock); switch (source) { case P_GET_NAME: res = copy_printer(_old_prdb_getbyname(name)); break; case P_GET_ENT: res = copy_printer(_old_prdb_get()); break; default: res = NULL; } pthread_mutex_unlock(&_printer_lock); } recycle_printer(tdata, res); return (prdb_ent *)tdata->lu_entry; } const prdb_ent * prdb_getbyname(const char *name) { return (const prdb_ent *)getprinter(name, P_GET_NAME); } const prdb_ent * prdb_get(void) { return (const prdb_ent *)getprinter(NULL, P_GET_ENT); } void prdb_set(const char *name) { if (_lu_running()) lu_prdb_set(); else _old_prdb_set(); } void prdb_end(void) { if (_lu_running()) lu_prdb_end(); else _old_prdb_end(); }