/* * Unix SMB/CIFS implementation. * Virtual Windows Registry Layer * Copyright (C) Gerald Carter 2002-2005 * * 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; either version 3 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, see . */ /* Implementation of registry virtual views for printing information */ #include "includes.h" #undef DBGC_CLASS #define DBGC_CLASS DBGC_REGISTRY /* registrt paths used in the print_registry[] */ #define KEY_MONITORS "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT/MONITORS" #define KEY_FORMS "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT/FORMS" #define KEY_CONTROL_PRINTERS "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT/PRINTERS" #define KEY_ENVIRONMENTS "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT/ENVIRONMENTS" #define KEY_CONTROL_PRINT "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT" #define KEY_WINNT_PRINTERS "HKLM/SOFTWARE/MICROSOFT/WINDOWS NT/CURRENTVERSION/PRINT/PRINTERS" #define KEY_WINNT_PRINT "HKLM/SOFTWARE/MICROSOFT/WINDOWS NT/CURRENTVERSION/PRINT" #define KEY_PORTS "HKLM/SOFTWARE/MICROSOFT/WINDOWS NT/CURRENTVERSION/PORTS" /* callback table for various registry paths below the ones we service in this module */ struct reg_dyn_tree { /* full key path in normalized form */ const char *path; /* callbscks for fetch/store operations */ int ( *fetch_subkeys) ( const char *path, struct regsubkey_ctr *subkeys ); bool (*store_subkeys) ( const char *path, struct regsubkey_ctr *subkeys ); int (*fetch_values) ( const char *path, struct regval_ctr *values ); bool (*store_values) ( const char *path, struct regval_ctr *values ); }; /********************************************************************* ********************************************************************* ** Utility Functions ********************************************************************* *********************************************************************/ /*********************************************************************** simple function to prune a pathname down to the basename of a file **********************************************************************/ static const char *dos_basename(const char *path) { const char *p; if (!(p = strrchr( path, '\\'))) { p = path; } else { p++; } return p; } /********************************************************************* ********************************************************************* ** "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT/FORMS" ********************************************************************* *********************************************************************/ static int key_forms_fetch_keys(const char *key, struct regsubkey_ctr *subkeys) { char *p = reg_remaining_path(talloc_tos(), key + strlen(KEY_FORMS)); /* no keys below Forms */ if (p) { return -1; } return 0; } /********************************************************************** *********************************************************************/ static int key_forms_fetch_values(const char *key, struct regval_ctr *values) { uint32 data[8]; int i, num_values, form_index = 1; nt_forms_struct *forms_list = NULL; nt_forms_struct *form; DEBUG(10,("print_values_forms: key=>[%s]\n", key ? key : "NULL" )); num_values = get_ntforms( &forms_list ); DEBUG(10,("hive_forms_fetch_values: [%d] user defined forms returned\n", num_values)); /* handle user defined forms */ for ( i=0; iwidth; data[1] = form->length; data[2] = form->left; data[3] = form->top; data[4] = form->right; data[5] = form->bottom; data[6] = form_index++; data[7] = form->flag; regval_ctr_addvalue( values, form->name, REG_BINARY, (char*)data, sizeof(data) ); } SAFE_FREE( forms_list ); forms_list = NULL; /* handle built-on forms */ num_values = get_builtin_ntforms( &forms_list ); DEBUG(10,("print_subpath_values_forms: [%d] built-in forms returned\n", num_values)); for ( i=0; iwidth; data[1] = form->length; data[2] = form->left; data[3] = form->top; data[4] = form->right; data[5] = form->bottom; data[6] = form_index++; data[7] = form->flag; regval_ctr_addvalue(values, form->name, REG_BINARY, (char*)data, sizeof(data) ); } SAFE_FREE(forms_list); return regval_ctr_numvals(values); } /********************************************************************* ********************************************************************* ** "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT/PRINTERS" ** "HKLM/SOFTWARE/MICROSOFT/WINDOWS NT/CURRENTVERSION/PRINT/PRINTERS" ********************************************************************* *********************************************************************/ /********************************************************************* strip off prefix for printers key. DOes return a pointer to static memory. *********************************************************************/ static char *strip_printers_prefix(const char *key) { char *subkeypath = NULL; char *path = NULL; TALLOC_CTX *ctx = talloc_tos(); path = talloc_strdup(ctx, key); if (!path) { return NULL; } path = normalize_reg_path(ctx, path); if (!path) { return NULL; } /* normalizing the path does not change length, just key delimiters and case */ if (strncmp(path, KEY_WINNT_PRINTERS, strlen(KEY_WINNT_PRINTERS)) == 0) { subkeypath = reg_remaining_path(ctx, key + strlen(KEY_WINNT_PRINTERS)); } else { subkeypath = reg_remaining_path(ctx, key + strlen(KEY_CONTROL_PRINTERS)); } TALLOC_FREE(path); return subkeypath; } /********************************************************************* *********************************************************************/ static int key_printers_fetch_keys( const char *key, struct regsubkey_ctr *subkeys ) { int n_services = lp_numservices(); int snum; fstring sname; int i; int num_subkeys = 0; char *printers_key; char *printername, *printerdatakey; NT_PRINTER_INFO_LEVEL *printer = NULL; fstring *subkey_names = NULL; DEBUG(10,("key_printers_fetch_keys: key=>[%s]\n", key ? key : "NULL" )); printers_key = strip_printers_prefix( key ); if ( !printers_key ) { /* enumerate all printers */ for (snum=0; snum=n_services || !W_ERROR_IS_OK( get_a_printer(NULL, &printer, 2, printername) ) ) { return -1; } num_subkeys = get_printer_subkeys( printer->info_2->data, printerdatakey?printerdatakey:"", &subkey_names ); for ( i=0; iinfo_2->data, "", &existing_subkeys ); for ( i=0; iinfo_2->data, existing_subkeys[i] ); } } num_subkeys = regsubkey_ctr_numkeys( subkeys ); for ( i=0; iinfo_2->data, subkeyname) == -1 ) { DEBUG(5,("key_printers_store_keys: adding key %s\n", existing_subkeys[i])); if ( add_new_printer_key( printer->info_2->data, subkeyname ) == -1 ) { SAFE_FREE( existing_subkeys ); return False; } } } /* write back to disk */ mod_a_printer( printer, 2 ); /* cleanup */ free_a_printer( &printer, 2 ); SAFE_FREE( existing_subkeys ); return True; } /********************************************************************** *********************************************************************/ static void fill_in_printer_values(NT_PRINTER_INFO_LEVEL_2 *info2, struct regval_ctr *values) { struct spoolss_DeviceMode *devmode; char *p; uint32 printer_status = PRINTER_STATUS_OK; regval_ctr_addvalue( values, "Attributes", REG_DWORD, (char*)&info2->attributes, sizeof(info2->attributes) ); regval_ctr_addvalue( values, "Priority", REG_DWORD, (char*)&info2->priority, sizeof(info2->attributes) ); regval_ctr_addvalue( values, "ChangeID", REG_DWORD, (char*)&info2->changeid, sizeof(info2->changeid) ); regval_ctr_addvalue( values, "Default Priority", REG_DWORD, (char*)&info2->default_priority, sizeof(info2->default_priority) ); /* lie and say everything is ok since we don't want to call print_queue_length() to get the real status */ regval_ctr_addvalue( values, "Status", REG_DWORD, (char*)&printer_status, sizeof(info2->status) ); regval_ctr_addvalue( values, "StartTime", REG_DWORD, (char*)&info2->starttime, sizeof(info2->starttime) ); regval_ctr_addvalue( values, "UntilTime", REG_DWORD, (char*)&info2->untiltime, sizeof(info2->untiltime) ); /* strip the \\server\ from this string */ if ( !(p = strrchr( info2->printername, '\\' ) ) ) p = info2->printername; else p++; regval_ctr_addvalue_sz(values, "Name", p); regval_ctr_addvalue_sz(values, "Location", info2->location); regval_ctr_addvalue_sz(values, "Description", info2->comment); regval_ctr_addvalue_sz(values, "Parameters", info2->parameters); regval_ctr_addvalue_sz(values, "Port", info2->portname); regval_ctr_addvalue_sz(values, "Share Name", info2->sharename); regval_ctr_addvalue_sz(values, "Printer Driver", info2->drivername); regval_ctr_addvalue_sz(values, "Separator File", info2->sepfile); regval_ctr_addvalue_sz(values, "Print Processor", info2->printprocessor); regval_ctr_addvalue_sz(values, "Datatype", info2->datatype); /* stream the device mode */ devmode = construct_dev_mode(values,info2->sharename); if (devmode) { DATA_BLOB blob; enum ndr_err_code ndr_err; ndr_err = ndr_push_struct_blob(&blob, values, NULL, devmode, (ndr_push_flags_fn_t)ndr_push_spoolss_DeviceMode); if (NDR_ERR_CODE_IS_SUCCESS(ndr_err)) { regval_ctr_addvalue(values, "Default Devmode", REG_BINARY, (const char *)blob.data, blob.length); } } /* stream the printer security descriptor */ if (info2->secdesc_buf && info2->secdesc_buf->sd && info2->secdesc_buf->sd_size) { NTSTATUS status; DATA_BLOB blob; status = marshall_sec_desc(values, info2->secdesc_buf->sd, &blob.data, &blob.length); if (NT_STATUS_IS_OK(status)) { regval_ctr_addvalue(values, "Security", REG_BINARY, (const char *)blob.data, blob.length); } } return; } /********************************************************************** *********************************************************************/ static int key_printers_fetch_values(const char *key, struct regval_ctr *values) { int num_values; char *printers_key; char *printername, *printerdatakey; NT_PRINTER_INFO_LEVEL *printer = NULL; NT_PRINTER_DATA *p_data; int i, key_index; printers_key = strip_printers_prefix( key ); /* top level key values stored in the registry has no values */ if ( !printers_key ) { /* normalize to the 'HKLM\SOFTWARE\...\Print\Printers' key */ return regdb_fetch_values( KEY_WINNT_PRINTERS, values ); } /* lookup the printer object */ if (!reg_split_path( printers_key, &printername, &printerdatakey )) { return -1; } if ( !W_ERROR_IS_OK( get_a_printer(NULL, &printer, 2, printername) ) ) goto done; if ( !printerdatakey ) { fill_in_printer_values( printer->info_2, values ); goto done; } /* iterate over all printer data keys and fill the regval container */ p_data = printer->info_2->data; if ( (key_index = lookup_printerkey( p_data, printerdatakey )) == -1 ) { /* failure....should never happen if the client has a valid open handle first */ DEBUG(10,("key_printers_fetch_values: Unknown keyname [%s]\n", printerdatakey)); free_a_printer( &printer, 2 ); return -1; } num_values = regval_ctr_numvals( p_data->keys[key_index].values ); for ( i=0; ikeys[key_index].values, i) ); done: if ( printer ) free_a_printer( &printer, 2 ); return regval_ctr_numvals( values ); } /********************************************************************** *********************************************************************/ #define REG_IDX_ATTRIBUTES 1 #define REG_IDX_PRIORITY 2 #define REG_IDX_DEFAULT_PRIORITY 3 #define REG_IDX_CHANGEID 4 #define REG_IDX_STATUS 5 #define REG_IDX_STARTTIME 6 #define REG_IDX_NAME 7 #define REG_IDX_LOCATION 8 #define REG_IDX_DESCRIPTION 9 #define REG_IDX_PARAMETERS 10 #define REG_IDX_PORT 12 #define REG_IDX_SHARENAME 13 #define REG_IDX_DRIVER 14 #define REG_IDX_SEP_FILE 15 #define REG_IDX_PRINTPROC 16 #define REG_IDX_DATATYPE 17 #define REG_IDX_DEVMODE 18 #define REG_IDX_SECDESC 19 #define REG_IDX_UNTILTIME 20 struct { const char *name; int index; } printer_values_map[] = { { "Attributes", REG_IDX_ATTRIBUTES }, { "Priority", REG_IDX_PRIORITY }, { "Default Priority", REG_IDX_DEFAULT_PRIORITY }, { "ChangeID", REG_IDX_CHANGEID }, { "Status", REG_IDX_STATUS }, { "StartTime", REG_IDX_STARTTIME }, { "UntilTime", REG_IDX_UNTILTIME }, { "Name", REG_IDX_NAME }, { "Location", REG_IDX_LOCATION }, { "Description", REG_IDX_DESCRIPTION }, { "Parameters", REG_IDX_PARAMETERS }, { "Port", REG_IDX_PORT }, { "Share Name", REG_IDX_SHARENAME }, { "Printer Driver", REG_IDX_DRIVER }, { "Separator File", REG_IDX_SEP_FILE }, { "Print Processor", REG_IDX_PRINTPROC }, { "Datatype", REG_IDX_DATATYPE }, { "Default Devmode", REG_IDX_DEVMODE }, { "Security", REG_IDX_SECDESC }, { NULL, -1 } }; static int find_valuename_index( const char *valuename ) { int i; for ( i=0; printer_values_map[i].name; i++ ) { if ( strequal( valuename, printer_values_map[i].name ) ) return printer_values_map[i].index; } return -1; } /********************************************************************** *********************************************************************/ static void pull_reg_sz_fstring(TALLOC_CTX *mem_ctx, const DATA_BLOB *blob, fstring s) { const char *str; pull_reg_sz(mem_ctx, NULL, blob, &str); fstrcpy(s, str); } static void convert_values_to_printer_info_2(TALLOC_CTX *mem_ctx, NT_PRINTER_INFO_LEVEL_2 *printer2, struct regval_ctr *values) { int num_values = regval_ctr_numvals( values ); uint32 value_index; struct regval_blob *val; int i; for ( i=0; iattributes = (uint32)(*regval_data_p(val)); break; case REG_IDX_PRIORITY: printer2->priority = (uint32)(*regval_data_p(val)); break; case REG_IDX_DEFAULT_PRIORITY: printer2->default_priority = (uint32)(*regval_data_p(val)); break; case REG_IDX_CHANGEID: printer2->changeid = (uint32)(*regval_data_p(val)); break; case REG_IDX_STARTTIME: printer2->starttime = (uint32)(*regval_data_p(val)); break; case REG_IDX_UNTILTIME: printer2->untiltime = (uint32)(*regval_data_p(val)); break; case REG_IDX_NAME: pull_reg_sz_fstring(mem_ctx, &blob, printer2->printername); break; case REG_IDX_LOCATION: pull_reg_sz_fstring(mem_ctx, &blob, printer2->location); break; case REG_IDX_DESCRIPTION: pull_reg_sz_fstring(mem_ctx, &blob, printer2->comment); break; case REG_IDX_PARAMETERS: pull_reg_sz_fstring(mem_ctx, &blob, printer2->parameters); break; case REG_IDX_PORT: pull_reg_sz_fstring(mem_ctx, &blob, printer2->portname); break; case REG_IDX_SHARENAME: pull_reg_sz_fstring(mem_ctx, &blob, printer2->sharename); break; case REG_IDX_DRIVER: pull_reg_sz_fstring(mem_ctx, &blob, printer2->drivername); break; case REG_IDX_SEP_FILE: pull_reg_sz_fstring(mem_ctx, &blob, printer2->sepfile); break; case REG_IDX_PRINTPROC: pull_reg_sz_fstring(mem_ctx, &blob, printer2->printprocessor); break; case REG_IDX_DATATYPE: pull_reg_sz_fstring(mem_ctx, &blob, printer2->datatype); break; case REG_IDX_DEVMODE: break; case REG_IDX_SECDESC: break; default: /* unsupported value...throw away */ DEBUG(8,("convert_values_to_printer_info_2: Unsupported registry value [%s]\n", regval_name( val ) )); } } return; } /********************************************************************** *********************************************************************/ static bool key_printers_store_values(const char *key, struct regval_ctr *values) { char *printers_key; char *printername, *keyname; NT_PRINTER_INFO_LEVEL *printer = NULL; WERROR result; TALLOC_CTX *mem_ctx = talloc_init("key_printers_store_values"); printers_key = strip_printers_prefix( key ); /* values in the top level key get stored in the registry */ if ( !printers_key ) { /* normalize on the 'HKLM\SOFTWARE\....\Print\Printers' key */ return regdb_store_values( KEY_WINNT_PRINTERS, values ); } if (!reg_split_path( printers_key, &printername, &keyname )) { return False; } if ( !W_ERROR_IS_OK(get_a_printer(NULL, &printer, 2, printername) ) ) return False; /* deal with setting values directly under the printername */ if ( !keyname ) { convert_values_to_printer_info_2(mem_ctx, printer->info_2, values ); } else { int num_values = regval_ctr_numvals( values ); int i; struct regval_blob *val; delete_printer_key( printer->info_2->data, keyname ); /* deal with any subkeys */ for ( i=0; i[%s]\n", key ? key : "NULL" )); keystr = reg_remaining_path(ctx, key + strlen(KEY_ENVIRONMENTS) ); /* list all possible architectures */ if ( !keystr ) { for ( num_subkeys=0; environments[num_subkeys]; num_subkeys++ ) regsubkey_ctr_addkey( subkeys, environments[num_subkeys] ); return num_subkeys; } /* we are dealing with a subkey of "Environments */ key2 = talloc_strdup(ctx, keystr); if (!key2) { return -1; } keystr = key2; if (!reg_split_path(keystr, &base, &subkeypath )) { return -1; } /* sanity check */ for ( env_index=0; environments[env_index]; env_index++ ) { if ( strequal( environments[env_index], base ) ) break; } if ( !environments[env_index] ) return -1; /* ...\Print\Environements\...\ */ if ( !subkeypath ) { regsubkey_ctr_addkey( subkeys, "Drivers" ); regsubkey_ctr_addkey( subkeys, "Print Processors" ); return 2; } /* more of the key path to process */ keystr = subkeypath; if (!reg_split_path( keystr, &base, &subkeypath )) { return -1; } /* ...\Print\Environements\...\Drivers\ */ if ( !subkeypath ) { if ( strequal(base, "Drivers") ) { switch ( env_index ) { case 0: /* Win9x */ regsubkey_ctr_addkey( subkeys, "Version-0" ); break; default: /* Windows NT based systems */ regsubkey_ctr_addkey( subkeys, "Version-2" ); regsubkey_ctr_addkey( subkeys, "Version-3" ); break; } return regsubkey_ctr_numkeys( subkeys ); } else if ( strequal(base, "Print Processors") ) { if ( env_index == 1 || env_index == 5 || env_index == 6 ) return regsubkey_ctr_numkeys( subkeys ); } else return -1; /* bad path */ } /* we finally get to enumerate the drivers */ /* only one possible subkey below PrintProc key */ if ( strequal(base, "Print Processors") ) { keystr = subkeypath; if (!reg_split_path( keystr, &base, &subkeypath )) { return -1; } /* no subkeys below this point */ if ( subkeypath ) return -1; /* only allow one keyname here -- 'winprint' */ return strequal( base, "winprint" ) ? 0 : -1; } /* only dealing with drivers from here on out */ keystr = subkeypath; if (!reg_split_path( keystr, &base, &subkeypath )) { return -1; } version = atoi(&base[strlen(base)-1]); switch (env_index) { case 0: if ( version != 0 ) return -1; break; default: if ( version != 2 && version != 3 ) return -1; break; } if ( !subkeypath ) { num_drivers = get_ntdrivers( &drivers, environments[env_index], version ); for ( i=0; idriver_path); regval_ctr_addvalue_sz(values, "Driver", filename); filename = dos_basename(r->config_file); regval_ctr_addvalue_sz(values, "Configuration File", filename); filename = dos_basename(r->data_file); regval_ctr_addvalue_sz(values, "Data File", filename); filename = dos_basename(r->help_file); regval_ctr_addvalue_sz(values, "Help File", filename); regval_ctr_addvalue_sz(values, "Datatype", r->default_datatype); regval_ctr_addvalue( values, "Version", REG_DWORD, (char*)&r->version, sizeof(r->version) ); if (r->dependent_files) { /* place the list of dependent files in a single character buffer, separating each file name by a NULL */ for (i=0; r->dependent_files[i] && strcmp(r->dependent_files[i], ""); i++) { /* strip the path to only the file's base name */ filename = dos_basename(r->dependent_files[i]); length = strlen(filename); buffer = (char *)SMB_REALLOC( buffer, buffer_size + (length + 1)*sizeof(uint16) ); if ( !buffer ) { break; } push_reg_sz(talloc_tos(), NULL, &data, filename); memcpy( buffer+buffer_size, (char*)data.data, data.length); buffer_size += (length + 1)*sizeof(uint16); } /* terminated by double NULL. Add the final one here */ buffer = (char *)SMB_REALLOC( buffer, buffer_size + 2 ); if ( !buffer ) { buffer_size = 0; } else { buffer[buffer_size++] = '\0'; buffer[buffer_size++] = '\0'; } } regval_ctr_addvalue( values, "Dependent Files", REG_MULTI_SZ, buffer, buffer_size ); SAFE_FREE( buffer ); return; } /********************************************************************** *********************************************************************/ static int driver_arch_fetch_values(char *key, struct regval_ctr *values) { char *keystr, *base, *subkeypath; fstring arch_environment; fstring driver; int version; struct spoolss_DriverInfo8 *driver_ctr; WERROR w_result; if (!reg_split_path( key, &base, &subkeypath )) { return -1; } /* no values in 'Environments\Drivers\Windows NT x86' */ if ( !subkeypath ) return 0; /* We have the Architecture string and some subkey name: Currently we only support * Drivers * Print Processors Anything else is an error. */ fstrcpy( arch_environment, base ); keystr = subkeypath; if (!reg_split_path( keystr, &base, &subkeypath )) { return -1; } if ( strequal(base, "Print Processors") ) return 0; /* only Drivers key can be left */ if ( !strequal(base, "Drivers") ) return -1; if ( !subkeypath ) return 0; /* We know that we have Architechure\Drivers with some subkey name The subkey name has to be Version-XX */ keystr = subkeypath; if (!reg_split_path( keystr, &base, &subkeypath )) { return -1; } if ( !subkeypath ) return 0; version = atoi(&base[strlen(base)-1]); /* BEGIN PRINTER DRIVER NAME BLOCK */ keystr = subkeypath; if (!reg_split_path( keystr, &base, &subkeypath )) { return -1; } /* don't go any deeper for now */ fstrcpy( driver, base ); w_result = get_a_printer_driver(talloc_tos(), &driver_ctr, driver, arch_environment, version); if ( !W_ERROR_IS_OK(w_result) ) return -1; fill_in_driver_values(driver_ctr, values); free_a_printer_driver(driver_ctr); /* END PRINTER DRIVER NAME BLOCK */ DEBUG(8,("key_driver_fetch_values: Exit\n")); return regval_ctr_numvals( values ); } /********************************************************************** *********************************************************************/ static int key_driver_fetch_values(const char *key, struct regval_ctr *values) { char *keystr = NULL; char *subkey = NULL; TALLOC_CTX *ctx = talloc_tos(); DEBUG(8,("key_driver_fetch_values: Enter key => [%s]\n", key ? key : "NULL")); /* no values in the Environments key */ if (!(keystr = reg_remaining_path(ctx, key + strlen(KEY_ENVIRONMENTS)))) return 0; subkey = talloc_strdup(ctx, keystr); if (!subkey) { return 0; } /* pass off to handle subkeys */ return driver_arch_fetch_values( subkey, values ); } /********************************************************************* ********************************************************************* ** "HKLM/SYSTEM/CURRENTCONTROLSET/CONTROL/PRINT" ********************************************************************* *********************************************************************/ static int key_print_fetch_keys( const char *key, struct regsubkey_ctr *subkeys ) { int key_len = strlen(key); /* no keys below 'Print' handled here */ if ( (key_len != strlen(KEY_CONTROL_PRINT)) && (key_len != strlen(KEY_WINNT_PRINT)) ) return -1; regsubkey_ctr_addkey( subkeys, "Environments" ); regsubkey_ctr_addkey( subkeys, "Monitors" ); regsubkey_ctr_addkey( subkeys, "Forms" ); regsubkey_ctr_addkey( subkeys, "Printers" ); return regsubkey_ctr_numkeys( subkeys ); } /********************************************************************** ********************************************************************* ** Structure to hold dispatch table of ops for various printer keys. ** Make sure to always store deeper keys along the same path first so ** we ge a more specific match. ********************************************************************* *********************************************************************/ static struct reg_dyn_tree print_registry[] = { /* just pass the monitor onto the registry tdb */ { KEY_MONITORS, ®db_fetch_keys, ®db_store_keys, ®db_fetch_values, ®db_store_values }, { KEY_FORMS, &key_forms_fetch_keys, NULL, &key_forms_fetch_values, NULL }, { KEY_CONTROL_PRINTERS, &key_printers_fetch_keys, &key_printers_store_keys, &key_printers_fetch_values, &key_printers_store_values }, { KEY_ENVIRONMENTS, &key_driver_fetch_keys, NULL, &key_driver_fetch_values, NULL }, { KEY_CONTROL_PRINT, &key_print_fetch_keys, NULL, NULL, NULL }, { KEY_WINNT_PRINTERS, &key_printers_fetch_keys, &key_printers_store_keys, &key_printers_fetch_values, &key_printers_store_values }, { KEY_PORTS, ®db_fetch_keys, ®db_store_keys, ®db_fetch_values, ®db_store_values }, { NULL, NULL, NULL, NULL, NULL } }; /********************************************************************** ********************************************************************* ** Main reg_printing interface functions ********************************************************************* *********************************************************************/ /*********************************************************************** Lookup a key in the print_registry table, returning its index. -1 on failure **********************************************************************/ static int match_registry_path(const char *key) { int i; char *path = NULL; TALLOC_CTX *ctx = talloc_tos(); if ( !key ) return -1; path = talloc_strdup(ctx, key); if (!path) { return -1; } path = normalize_reg_path(ctx, path); if (!path) { return -1; } for ( i=0; print_registry[i].path; i++ ) { if (strncmp( path, print_registry[i].path, strlen(print_registry[i].path) ) == 0 ) return i; } return -1; } /*********************************************************************** **********************************************************************/ static int regprint_fetch_reg_keys( const char *key, struct regsubkey_ctr *subkeys ) { int i = match_registry_path( key ); if ( i == -1 ) return -1; if ( !print_registry[i].fetch_subkeys ) return -1; return print_registry[i].fetch_subkeys( key, subkeys ); } /********************************************************************** *********************************************************************/ static bool regprint_store_reg_keys( const char *key, struct regsubkey_ctr *subkeys ) { int i = match_registry_path( key ); if ( i == -1 ) return False; if ( !print_registry[i].store_subkeys ) return False; return print_registry[i].store_subkeys( key, subkeys ); } /********************************************************************** *********************************************************************/ static int regprint_fetch_reg_values(const char *key, struct regval_ctr *values) { int i = match_registry_path( key ); if ( i == -1 ) return -1; /* return 0 values by default since we know the key had to exist because the client opened a handle */ if ( !print_registry[i].fetch_values ) return 0; return print_registry[i].fetch_values( key, values ); } /********************************************************************** *********************************************************************/ static bool regprint_store_reg_values(const char *key, struct regval_ctr *values) { int i = match_registry_path( key ); if ( i == -1 ) return False; if ( !print_registry[i].store_values ) return False; return print_registry[i].store_values( key, values ); } /* * Table of function pointers for accessing printing data */ struct registry_ops printing_ops = { .fetch_subkeys = regprint_fetch_reg_keys, .fetch_values = regprint_fetch_reg_values, .store_subkeys = regprint_store_reg_keys, .store_values = regprint_store_reg_values, };