/* * Unix SMB/CIFS implementation. * RPC Pipe client / server routines * Copyright (C) Andrew Tridgell 1992-2000, * Copyright (C) Jean François Micouleau 1998-2000. * Copyright (C) Gerald Carter 2002-2003. * * 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 2 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, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ #include "includes.h" extern DOM_SID global_sid_World; static TDB_CONTEXT *tdb_forms; /* used for forms files */ static TDB_CONTEXT *tdb_drivers; /* used for driver files */ static TDB_CONTEXT *tdb_printers; /* used for printers files */ #define FORMS_PREFIX "FORMS/" #define DRIVERS_PREFIX "DRIVERS/" #define DRIVER_INIT_PREFIX "DRIVER_INIT/" #define PRINTERS_PREFIX "PRINTERS/" #define SECDESC_PREFIX "SECDESC/" #define GLOBAL_C_SETPRINTER "GLOBALS/c_setprinter" #define NTDRIVERS_DATABASE_VERSION_1 1 #define NTDRIVERS_DATABASE_VERSION_2 2 #define NTDRIVERS_DATABASE_VERSION_3 3 /* little endian version of v2 */ #define NTDRIVERS_DATABASE_VERSION NTDRIVERS_DATABASE_VERSION_3 /* Map generic permissions to printer object specific permissions */ GENERIC_MAPPING printer_generic_mapping = { PRINTER_READ, PRINTER_WRITE, PRINTER_EXECUTE, PRINTER_ALL_ACCESS }; STANDARD_MAPPING printer_std_mapping = { PRINTER_READ, PRINTER_WRITE, PRINTER_EXECUTE, PRINTER_ALL_ACCESS }; /* Map generic permissions to print server object specific permissions */ GENERIC_MAPPING printserver_generic_mapping = { SERVER_READ, SERVER_WRITE, SERVER_EXECUTE, SERVER_ALL_ACCESS }; STANDARD_MAPPING printserver_std_mapping = { SERVER_READ, SERVER_WRITE, SERVER_EXECUTE, SERVER_ALL_ACCESS }; /* We need one default form to support our default printer. Msoft adds the forms it wants and in the ORDER it wants them (note: DEVMODE papersize is an array index). Letter is always first, so (for the current code) additions always put things in the correct order. */ static const nt_forms_struct default_forms[] = { {"Letter",0x1,0x34b5c,0x44368,0x0,0x0,0x34b5c,0x44368}, {"Letter Small",0x1,0x34b5c,0x44368,0x0,0x0,0x34b5c,0x44368}, {"Tabloid",0x1,0x44368,0x696b8,0x0,0x0,0x44368,0x696b8}, {"Ledger",0x1,0x696b8,0x44368,0x0,0x0,0x696b8,0x44368}, {"Legal",0x1,0x34b5c,0x56d10,0x0,0x0,0x34b5c,0x56d10}, {"Statement",0x1,0x221b4,0x34b5c,0x0,0x0,0x221b4,0x34b5c}, {"Executive",0x1,0x2cf56,0x411cc,0x0,0x0,0x2cf56,0x411cc}, {"A3",0x1,0x48828,0x668a0,0x0,0x0,0x48828,0x668a0}, {"A4",0x1,0x33450,0x48828,0x0,0x0,0x33450,0x48828}, {"A4 Small",0x1,0x33450,0x48828,0x0,0x0,0x33450,0x48828}, {"A5",0x1,0x24220,0x33450,0x0,0x0,0x24220,0x33450}, {"B4 (JIS)",0x1,0x3ebe8,0x58de0,0x0,0x0,0x3ebe8,0x58de0}, {"B5 (JIS)",0x1,0x2c6f0,0x3ebe8,0x0,0x0,0x2c6f0,0x3ebe8}, {"Folio",0x1,0x34b5c,0x509d8,0x0,0x0,0x34b5c,0x509d8}, {"Quarto",0x1,0x347d8,0x43238,0x0,0x0,0x347d8,0x43238}, {"10x14",0x1,0x3e030,0x56d10,0x0,0x0,0x3e030,0x56d10}, {"11x17",0x1,0x44368,0x696b8,0x0,0x0,0x44368,0x696b8}, {"Note",0x1,0x34b5c,0x44368,0x0,0x0,0x34b5c,0x44368}, {"Envelope #9",0x1,0x18079,0x37091,0x0,0x0,0x18079,0x37091}, {"Envelope #10",0x1,0x19947,0x3ae94,0x0,0x0,0x19947,0x3ae94}, {"Envelope #11",0x1,0x1be7c,0x40565,0x0,0x0,0x1be7c,0x40565}, {"Envelope #12",0x1,0x1d74a,0x44368,0x0,0x0,0x1d74a,0x44368}, {"Envelope #14",0x1,0x1f018,0x47504,0x0,0x0,0x1f018,0x47504}, {"C size sheet",0x1,0x696b8,0x886d0,0x0,0x0,0x696b8,0x886d0}, {"D size sheet",0x1,0x886d0,0xd2d70,0x0,0x0,0x886d0,0xd2d70}, {"E size sheet",0x1,0xd2d70,0x110da0,0x0,0x0,0xd2d70,0x110da0}, {"Envelope DL",0x1,0x1adb0,0x35b60,0x0,0x0,0x1adb0,0x35b60}, {"Envelope C5",0x1,0x278d0,0x37e88,0x0,0x0,0x278d0,0x37e88}, {"Envelope C3",0x1,0x4f1a0,0x6fd10,0x0,0x0,0x4f1a0,0x6fd10}, {"Envelope C4",0x1,0x37e88,0x4f1a0,0x0,0x0,0x37e88,0x4f1a0}, {"Envelope C6",0x1,0x1bd50,0x278d0,0x0,0x0,0x1bd50,0x278d0}, {"Envelope C65",0x1,0x1bd50,0x37e88,0x0,0x0,0x1bd50,0x37e88}, {"Envelope B4",0x1,0x3d090,0x562e8,0x0,0x0,0x3d090,0x562e8}, {"Envelope B5",0x1,0x2af80,0x3d090,0x0,0x0,0x2af80,0x3d090}, {"Envelope B6",0x1,0x2af80,0x1e848,0x0,0x0,0x2af80,0x1e848}, {"Envelope",0x1,0x1adb0,0x38270,0x0,0x0,0x1adb0,0x38270}, {"Envelope Monarch",0x1,0x18079,0x2e824,0x0,0x0,0x18079,0x2e824}, {"6 3/4 Envelope",0x1,0x167ab,0x284ec,0x0,0x0,0x167ab,0x284ec}, {"US Std Fanfold",0x1,0x5c3e1,0x44368,0x0,0x0,0x5c3e1,0x44368}, {"German Std Fanfold",0x1,0x34b5c,0x4a6a0,0x0,0x0,0x34b5c,0x4a6a0}, {"German Legal Fanfold",0x1,0x34b5c,0x509d8,0x0,0x0,0x34b5c,0x509d8}, {"B4 (ISO)",0x1,0x3d090,0x562e8,0x0,0x0,0x3d090,0x562e8}, {"Japanese Postcard",0x1,0x186a0,0x24220,0x0,0x0,0x186a0,0x24220}, {"9x11",0x1,0x37cf8,0x44368,0x0,0x0,0x37cf8,0x44368}, {"10x11",0x1,0x3e030,0x44368,0x0,0x0,0x3e030,0x44368}, {"15x11",0x1,0x5d048,0x44368,0x0,0x0,0x5d048,0x44368}, {"Envelope Invite",0x1,0x35b60,0x35b60,0x0,0x0,0x35b60,0x35b60}, {"Reserved48",0x1,0x1,0x1,0x0,0x0,0x1,0x1}, {"Reserved49",0x1,0x1,0x1,0x0,0x0,0x1,0x1}, {"Letter Extra",0x1,0x3ae94,0x4a6a0,0x0,0x0,0x3ae94,0x4a6a0}, {"Legal Extra",0x1,0x3ae94,0x5d048,0x0,0x0,0x3ae94,0x5d048}, {"Tabloid Extra",0x1,0x4a6a0,0x6f9f0,0x0,0x0,0x4a6a0,0x6f9f0}, {"A4 Extra",0x1,0x397c2,0x4eb16,0x0,0x0,0x397c2,0x4eb16}, {"Letter Transverse",0x1,0x34b5c,0x44368,0x0,0x0,0x34b5c,0x44368}, {"A4 Transverse",0x1,0x33450,0x48828,0x0,0x0,0x33450,0x48828}, {"Letter Extra Transverse",0x1,0x3ae94,0x4a6a0,0x0,0x0,0x3ae94,0x4a6a0}, {"Super A",0x1,0x376b8,0x56ea0,0x0,0x0,0x376b8,0x56ea0}, {"Super B",0x1,0x4a768,0x76e58,0x0,0x0,0x4a768,0x76e58}, {"Letter Plus",0x1,0x34b5c,0x4eb16,0x0,0x0,0x34b5c,0x4eb16}, {"A4 Plus",0x1,0x33450,0x50910,0x0,0x0,0x33450,0x50910}, {"A5 Transverse",0x1,0x24220,0x33450,0x0,0x0,0x24220,0x33450}, {"B5 (JIS) Transverse",0x1,0x2c6f0,0x3ebe8,0x0,0x0,0x2c6f0,0x3ebe8}, {"A3 Extra",0x1,0x4e9d0,0x6ca48,0x0,0x0,0x4e9d0,0x6ca48}, {"A5 Extra",0x1,0x2a7b0,0x395f8,0x0,0x0,0x2a7b0,0x395f8}, {"B5 (ISO) Extra",0x1,0x31128,0x43620,0x0,0x0,0x31128,0x43620}, {"A2",0x1,0x668a0,0x91050,0x0,0x0,0x668a0,0x91050}, {"A3 Transverse",0x1,0x48828,0x668a0,0x0,0x0,0x48828,0x668a0}, {"A3 Extra Transverse",0x1,0x4e9d0,0x6ca48,0x0,0x0,0x4e9d0,0x6ca48}, {"Japanese Double Postcard",0x1,0x30d40,0x24220,0x0,0x0,0x30d40,0x24220}, {"A6",0x1,0x19a28,0x24220,0x0,0x0,0x19a28,0x24220}, {"Japanese Envelope Kaku #2",0x1,0x3a980,0x510e0,0x0,0x0,0x3a980,0x510e0}, {"Japanese Envelope Kaku #3",0x1,0x34bc0,0x43a08,0x0,0x0,0x34bc0,0x43a08}, {"Japanese Envelope Chou #3",0x1,0x1d4c0,0x395f8,0x0,0x0,0x1d4c0,0x395f8}, {"Japanese Envelope Chou #4",0x1,0x15f90,0x320c8,0x0,0x0,0x15f90,0x320c8}, {"Letter Rotated",0x1,0x44368,0x34b5c,0x0,0x0,0x44368,0x34b5c}, {"A3 Rotated",0x1,0x668a0,0x48828,0x0,0x0,0x668a0,0x48828}, {"A4 Rotated",0x1,0x48828,0x33450,0x0,0x0,0x48828,0x33450}, {"A5 Rotated",0x1,0x33450,0x24220,0x0,0x0,0x33450,0x24220}, {"B4 (JIS) Rotated",0x1,0x58de0,0x3ebe8,0x0,0x0,0x58de0,0x3ebe8}, {"B5 (JIS) Rotated",0x1,0x3ebe8,0x2c6f0,0x0,0x0,0x3ebe8,0x2c6f0}, {"Japanese Postcard Rotated",0x1,0x24220,0x186a0,0x0,0x0,0x24220,0x186a0}, {"Double Japan Postcard Rotated",0x1,0x24220,0x30d40,0x0,0x0,0x24220,0x30d40}, {"A6 Rotated",0x1,0x24220,0x19a28,0x0,0x0,0x24220,0x19a28}, {"Japan Envelope Kaku #2 Rotated",0x1,0x510e0,0x3a980,0x0,0x0,0x510e0,0x3a980}, {"Japan Envelope Kaku #3 Rotated",0x1,0x43a08,0x34bc0,0x0,0x0,0x43a08, 0x34bc0}, {"Japan Envelope Chou #3 Rotated",0x1,0x395f8,0x1d4c0,0x0,0x0,0x395f8,0x1d4c0}, {"Japan Envelope Chou #4 Rotated",0x1,0x320c8,0x15f90,0x0,0x0,0x320c8,0x15f90}, {"B6 (JIS)",0x1,0x1f400,0x2c6f0,0x0,0x0,0x1f400,0x2c6f0}, {"B6 (JIS) Rotated",0x1,0x2c6f0,0x1f400,0x0,0x0,0x2c6f0,0x1f400}, {"12x11",0x1,0x4a724,0x443e1,0x0,0x0,0x4a724,0x443e1}, {"Japan Envelope You #4",0x1,0x19a28,0x395f8,0x0,0x0,0x19a28,0x395f8}, {"Japan Envelope You #4 Rotated",0x1,0x395f8,0x19a28,0x0,0x0,0x395f8,0x19a28}, {"PRC 16K",0x1,0x2de60,0x3f7a0,0x0,0x0,0x2de60,0x3f7a0}, {"PRC 32K",0x1,0x1fbd0,0x2cec0,0x0,0x0,0x1fbd0,0x2cec0}, {"PRC 32K(Big)",0x1,0x222e0,0x318f8,0x0,0x0,0x222e0,0x318f8}, {"PRC Envelope #1",0x1,0x18e70,0x28488,0x0,0x0,0x18e70,0x28488}, {"PRC Envelope #2",0x1,0x18e70,0x2af80,0x0,0x0,0x18e70,0x2af80}, {"PRC Envelope #3",0x1,0x1e848,0x2af80,0x0,0x0,0x1e848,0x2af80}, {"PRC Envelope #4",0x1,0x1adb0,0x32c80,0x0,0x0,0x1adb0,0x32c80}, {"PRC Envelope #5",0x1,0x1adb0,0x35b60,0x0,0x0,0x1adb0,0x35b60}, {"PRC Envelope #6",0x1,0x1d4c0,0x38270,0x0,0x0,0x1d4c0,0x38270}, {"PRC Envelope #7",0x1,0x27100,0x38270,0x0,0x0,0x27100,0x38270}, {"PRC Envelope #8",0x1,0x1d4c0,0x4b708,0x0,0x0,0x1d4c0,0x4b708}, {"PRC Envelope #9",0x1,0x37e88,0x4f1a0,0x0,0x0,0x37e88,0x4f1a0}, {"PRC Envelope #10",0x1,0x4f1a0,0x6fd10,0x0,0x0,0x4f1a0,0x6fd10}, {"PRC 16K Rotated",0x1,0x3f7a0,0x2de60,0x0,0x0,0x3f7a0,0x2de60}, {"PRC 32K Rotated",0x1,0x2cec0,0x1fbd0,0x0,0x0,0x2cec0,0x1fbd0}, {"PRC 32K(Big) Rotated",0x1,0x318f8,0x222e0,0x0,0x0,0x318f8,0x222e0}, {"PRC Envelope #1 Rotated",0x1,0x28488,0x18e70,0x0,0x0,0x28488,0x18e70}, {"PRC Envelope #2 Rotated",0x1,0x2af80,0x18e70,0x0,0x0,0x2af80,0x18e70}, {"PRC Envelope #3 Rotated",0x1,0x2af80,0x1e848,0x0,0x0,0x2af80,0x1e848}, {"PRC Envelope #4 Rotated",0x1,0x32c80,0x1adb0,0x0,0x0,0x32c80,0x1adb0}, {"PRC Envelope #5 Rotated",0x1,0x35b60,0x1adb0,0x0,0x0,0x35b60,0x1adb0}, {"PRC Envelope #6 Rotated",0x1,0x38270,0x1d4c0,0x0,0x0,0x38270,0x1d4c0}, {"PRC Envelope #7 Rotated",0x1,0x38270,0x27100,0x0,0x0,0x38270,0x27100}, {"PRC Envelope #8 Rotated",0x1,0x4b708,0x1d4c0,0x0,0x0,0x4b708,0x1d4c0}, {"PRC Envelope #9 Rotated",0x1,0x4f1a0,0x37e88,0x0,0x0,0x4f1a0,0x37e88}, {"PRC Envelope #10 Rotated",0x1,0x6fd10,0x4f1a0,0x0,0x0,0x6fd10,0x4f1a0} }; struct table_node { const char *long_archi; const char *short_archi; int version; }; #define SPL_ARCH_WIN40 "WIN40" #define SPL_ARCH_W32X86 "W32X86" #define SPL_ARCH_W32MIPS "W32MIPS" #define SPL_ARCH_W32ALPHA "W32ALPHA" #define SPL_ARCH_W32PPC "W32PPC" static const struct table_node archi_table[]= { {"Windows 4.0", SPL_ARCH_WIN40, 0 }, {"Windows NT x86", SPL_ARCH_W32X86, 2 }, {"Windows NT R4000", SPL_ARCH_W32MIPS, 2 }, {"Windows NT Alpha_AXP", SPL_ARCH_W32ALPHA, 2 }, {"Windows NT PowerPC", SPL_ARCH_W32PPC, 2 }, {NULL, "", -1 } }; static BOOL upgrade_to_version_3(void) { TDB_DATA kbuf, newkey, dbuf; DEBUG(0,("upgrade_to_version_3: upgrading print tdb's to version 3\n")); for (kbuf = tdb_firstkey(tdb_drivers); kbuf.dptr; newkey = tdb_nextkey(tdb_drivers, kbuf), safe_free(kbuf.dptr), kbuf=newkey) { dbuf = tdb_fetch(tdb_drivers, kbuf); if (strncmp(kbuf.dptr, FORMS_PREFIX, strlen(FORMS_PREFIX)) == 0) { DEBUG(0,("upgrade_to_version_3:moving form\n")); if (tdb_store(tdb_forms, kbuf, dbuf, TDB_REPLACE) != 0) { SAFE_FREE(dbuf.dptr); DEBUG(0,("upgrade_to_version_3: failed to move form. Error (%s).\n", tdb_errorstr(tdb_forms))); return False; } if (tdb_delete(tdb_drivers, kbuf) != 0) { SAFE_FREE(dbuf.dptr); DEBUG(0,("upgrade_to_version_3: failed to delete form. Error (%s)\n", tdb_errorstr(tdb_drivers))); return False; } } if (strncmp(kbuf.dptr, PRINTERS_PREFIX, strlen(PRINTERS_PREFIX)) == 0) { DEBUG(0,("upgrade_to_version_3:moving printer\n")); if (tdb_store(tdb_printers, kbuf, dbuf, TDB_REPLACE) != 0) { SAFE_FREE(dbuf.dptr); DEBUG(0,("upgrade_to_version_3: failed to move printer. Error (%s)\n", tdb_errorstr(tdb_printers))); return False; } if (tdb_delete(tdb_drivers, kbuf) != 0) { SAFE_FREE(dbuf.dptr); DEBUG(0,("upgrade_to_version_3: failed to delete printer. Error (%s)\n", tdb_errorstr(tdb_drivers))); return False; } } if (strncmp(kbuf.dptr, SECDESC_PREFIX, strlen(SECDESC_PREFIX)) == 0) { DEBUG(0,("upgrade_to_version_3:moving secdesc\n")); if (tdb_store(tdb_printers, kbuf, dbuf, TDB_REPLACE) != 0) { SAFE_FREE(dbuf.dptr); DEBUG(0,("upgrade_to_version_3: failed to move secdesc. Error (%s)\n", tdb_errorstr(tdb_printers))); return False; } if (tdb_delete(tdb_drivers, kbuf) != 0) { SAFE_FREE(dbuf.dptr); DEBUG(0,("upgrade_to_version_3: failed to delete secdesc. Error (%s)\n", tdb_errorstr(tdb_drivers))); return False; } } SAFE_FREE(dbuf.dptr); } return True; } /**************************************************************************** Open the NT printing tdbs. Done once before fork(). ****************************************************************************/ BOOL nt_printing_init(void) { static pid_t local_pid; const char *vstring = "INFO/version"; if (tdb_drivers && tdb_printers && tdb_forms && local_pid == sys_getpid()) return True; if (tdb_drivers) tdb_close(tdb_drivers); tdb_drivers = tdb_open_log(lock_path("ntdrivers.tdb"), 0, TDB_DEFAULT, O_RDWR|O_CREAT, 0600); if (!tdb_drivers) { DEBUG(0,("nt_printing_init: Failed to open nt drivers database %s (%s)\n", lock_path("ntdrivers.tdb"), strerror(errno) )); return False; } if (tdb_printers) tdb_close(tdb_printers); tdb_printers = tdb_open_log(lock_path("ntprinters.tdb"), 0, TDB_DEFAULT, O_RDWR|O_CREAT, 0600); if (!tdb_printers) { DEBUG(0,("nt_printing_init: Failed to open nt printers database %s (%s)\n", lock_path("ntprinters.tdb"), strerror(errno) )); return False; } if (tdb_forms) tdb_close(tdb_forms); tdb_forms = tdb_open_log(lock_path("ntforms.tdb"), 0, TDB_DEFAULT, O_RDWR|O_CREAT, 0600); if (!tdb_forms) { DEBUG(0,("nt_printing_init: Failed to open nt forms database %s (%s)\n", lock_path("ntforms.tdb"), strerror(errno) )); return False; } local_pid = sys_getpid(); /* handle a Samba upgrade */ tdb_lock_bystring(tdb_drivers, vstring, 0); { int32 vers_id; /* Cope with byte-reversed older versions of the db. */ vers_id = tdb_fetch_int32(tdb_drivers, vstring); if ((vers_id == NTDRIVERS_DATABASE_VERSION_2) || (IREV(vers_id) == NTDRIVERS_DATABASE_VERSION_2)) { /* Written on a bigendian machine with old fetch_int code. Save as le. */ /* The only upgrade between V2 and V3 is to save the version in little-endian. */ tdb_store_int32(tdb_drivers, vstring, NTDRIVERS_DATABASE_VERSION); vers_id = NTDRIVERS_DATABASE_VERSION; } if (vers_id != NTDRIVERS_DATABASE_VERSION) { if ((vers_id == NTDRIVERS_DATABASE_VERSION_1) || (IREV(vers_id) == NTDRIVERS_DATABASE_VERSION_1)) { if (!upgrade_to_version_3()) return False; } else tdb_traverse(tdb_drivers, tdb_traverse_delete_fn, NULL); tdb_store_int32(tdb_drivers, vstring, NTDRIVERS_DATABASE_VERSION); } } tdb_unlock_bystring(tdb_drivers, vstring); update_c_setprinter(True); /* * register callback to handle updating printers as new * drivers are installed */ message_register( MSG_PRINTER_DRVUPGRADE, do_drv_upgrade_printer ); /* * register callback to handle updating printer data * when a driver is initialized */ message_register( MSG_PRINTERDATA_INIT_RESET, reset_all_printerdata ); return True; } /******************************************************************* tdb traversal function for counting printers. ********************************************************************/ static int traverse_counting_printers(TDB_CONTEXT *t, TDB_DATA key, TDB_DATA data, void *context) { int *printer_count = (int*)context; if (memcmp(PRINTERS_PREFIX, key.dptr, sizeof(PRINTERS_PREFIX)-1) == 0) { (*printer_count)++; DEBUG(10,("traverse_counting_printers: printer = [%s] printer_count = %d\n", key.dptr, *printer_count)); } return 0; } /******************************************************************* Update the spooler global c_setprinter. This variable is initialized when the parent smbd starts with the number of existing printers. It is monotonically increased by the current number of printers *after* each add or delete printer RPC. Only Microsoft knows why... JRR020119 ********************************************************************/ uint32 update_c_setprinter(BOOL initialize) { int32 c_setprinter; int32 printer_count = 0; tdb_lock_bystring(tdb_printers, GLOBAL_C_SETPRINTER, 0); /* Traverse the tdb, counting the printers */ tdb_traverse(tdb_printers, traverse_counting_printers, (void *)&printer_count); /* If initializing, set c_setprinter to current printers count * otherwise, bump it by the current printer count */ if (!initialize) c_setprinter = tdb_fetch_int32(tdb_printers, GLOBAL_C_SETPRINTER) + printer_count; else c_setprinter = printer_count; DEBUG(10,("update_c_setprinter: c_setprinter = %u\n", (unsigned int)c_setprinter)); tdb_store_int32(tdb_printers, GLOBAL_C_SETPRINTER, c_setprinter); tdb_unlock_bystring(tdb_printers, GLOBAL_C_SETPRINTER); return (uint32)c_setprinter; } /******************************************************************* Get the spooler global c_setprinter, accounting for initialization. ********************************************************************/ uint32 get_c_setprinter(void) { int32 c_setprinter = tdb_fetch_int32(tdb_printers, GLOBAL_C_SETPRINTER); if (c_setprinter == (int32)-1) c_setprinter = update_c_setprinter(True); DEBUG(10,("get_c_setprinter: c_setprinter = %d\n", c_setprinter)); return (uint32)c_setprinter; } /**************************************************************************** Get builtin form struct list. ****************************************************************************/ int get_builtin_ntforms(nt_forms_struct **list) { *list = (nt_forms_struct *)memdup(&default_forms[0], sizeof(default_forms)); return sizeof(default_forms) / sizeof(default_forms[0]); } /**************************************************************************** get a builtin form struct ****************************************************************************/ BOOL get_a_builtin_ntform(UNISTR2 *uni_formname,nt_forms_struct *form) { int i,count; fstring form_name; unistr2_to_ascii(form_name, uni_formname, sizeof(form_name)-1); DEBUGADD(6,("Looking for builtin form %s \n", form_name)); count = sizeof(default_forms) / sizeof(default_forms[0]); for (i=0;i sizeof(buf)) break; slprintf(key, sizeof(key)-1, "%s%s", FORMS_PREFIX, (*list)[i].name); kbuf.dsize = strlen(key)+1; kbuf.dptr = key; dbuf.dsize = len; dbuf.dptr = buf; if (tdb_store(tdb_forms, kbuf, dbuf, TDB_REPLACE) != 0) break; } return i; } /**************************************************************************** add a form struct at the end of the list ****************************************************************************/ BOOL add_a_form(nt_forms_struct **list, const FORM *form, int *count) { int n=0; BOOL update; fstring form_name; nt_forms_struct *tl; /* * NT tries to add forms even when * they are already in the base * only update the values if already present */ update=False; unistr2_to_ascii(form_name, &form->name, sizeof(form_name)-1); for (n=0; n<*count; n++) { if (!strncmp((*list)[n].name, form_name, strlen(form_name))) { DEBUG(103, ("NT workaround, [%s] already exists\n", form_name)); update=True; break; } } if (update==False) { if((tl=Realloc(*list, (n+1)*sizeof(nt_forms_struct))) == NULL) { DEBUG(0,("add_a_form: failed to enlarge forms list!\n")); return False; } *list = tl; unistr2_to_ascii((*list)[n].name, &form->name, sizeof((*list)[n].name)-1); (*count)++; } (*list)[n].flag=form->flags; (*list)[n].width=form->size_x; (*list)[n].length=form->size_y; (*list)[n].left=form->left; (*list)[n].top=form->top; (*list)[n].right=form->right; (*list)[n].bottom=form->bottom; return True; } /**************************************************************************** Delete a named form struct. ****************************************************************************/ BOOL delete_a_form(nt_forms_struct **list, UNISTR2 *del_name, int *count, WERROR *ret) { pstring key; TDB_DATA kbuf; int n=0; fstring form_name; *ret = WERR_OK; unistr2_to_ascii(form_name, del_name, sizeof(form_name)-1); for (n=0; n<*count; n++) { if (!strncmp((*list)[n].name, form_name, strlen(form_name))) { DEBUG(103, ("delete_a_form, [%s] in list\n", form_name)); break; } } if (n == *count) { DEBUG(10,("delete_a_form, [%s] not found\n", form_name)); *ret = WERR_INVALID_PARAM; return False; } slprintf(key, sizeof(key)-1, "%s%s", FORMS_PREFIX, (*list)[n].name); kbuf.dsize = strlen(key)+1; kbuf.dptr = key; if (tdb_delete(tdb_forms, kbuf) != 0) { *ret = WERR_NOMEM; return False; } return True; } /**************************************************************************** Update a form struct. ****************************************************************************/ void update_a_form(nt_forms_struct **list, const FORM *form, int count) { int n=0; fstring form_name; unistr2_to_ascii(form_name, &(form->name), sizeof(form_name)-1); DEBUG(106, ("[%s]\n", form_name)); for (n=0; nflags; (*list)[n].width=form->size_x; (*list)[n].length=form->size_y; (*list)[n].left=form->left; (*list)[n].top=form->top; (*list)[n].right=form->right; (*list)[n].bottom=form->bottom; } /**************************************************************************** Get the nt drivers list. Traverse the database and look-up the matching names. ****************************************************************************/ int get_ntdrivers(fstring **list, const char *architecture, uint32 version) { int total=0; const char *short_archi; fstring *fl; pstring key; TDB_DATA kbuf, newkey; short_archi = get_short_archi(architecture); slprintf(key, sizeof(key)-1, "%s%s/%d/", DRIVERS_PREFIX, short_archi, version); for (kbuf = tdb_firstkey(tdb_drivers); kbuf.dptr; newkey = tdb_nextkey(tdb_drivers, kbuf), safe_free(kbuf.dptr), kbuf=newkey) { if (strncmp(kbuf.dptr, key, strlen(key)) != 0) continue; if((fl = Realloc(*list, sizeof(fstring)*(total+1))) == NULL) { DEBUG(0,("get_ntdrivers: failed to enlarge list!\n")); return -1; } else *list = fl; fstrcpy((*list)[total], kbuf.dptr+strlen(key)); total++; } return(total); } /**************************************************************************** function to do the mapping between the long architecture name and the short one. ****************************************************************************/ const char *get_short_archi(const char *long_archi) { int i=-1; DEBUG(107,("Getting architecture dependant directory\n")); do { i++; } while ( (archi_table[i].long_archi!=NULL ) && StrCaseCmp(long_archi, archi_table[i].long_archi) ); if (archi_table[i].long_archi==NULL) { DEBUGADD(10,("Unknown architecture [%s] !\n", long_archi)); return NULL; } /* this might be client code - but shouldn't this be an fstrcpy etc? */ DEBUGADD(108,("index: [%d]\n", i)); DEBUGADD(108,("long architecture: [%s]\n", archi_table[i].long_archi)); DEBUGADD(108,("short architecture: [%s]\n", archi_table[i].short_archi)); return archi_table[i].short_archi; } /**************************************************************************** Version information in Microsoft files is held in a VS_VERSION_INFO structure. There are two case to be covered here: PE (Portable Executable) and NE (New Executable) files. Both files support the same INFO structure, but PE files store the signature in unicode, and NE files store it as !unicode. returns -1 on error, 1 on version info found, and 0 on no version info found. ****************************************************************************/ static int get_file_version(files_struct *fsp, char *fname,uint32 *major, uint32 *minor) { int i; char *buf = NULL; ssize_t byte_count; if ((buf=malloc(PE_HEADER_SIZE)) == NULL) { DEBUG(0,("get_file_version: PE file [%s] PE Header malloc failed bytes = %d\n", fname, PE_HEADER_SIZE)); goto error_exit; } /* Note: DOS_HEADER_SIZE < malloc'ed PE_HEADER_SIZE */ if ((byte_count = vfs_read_data(fsp, buf, DOS_HEADER_SIZE)) < DOS_HEADER_SIZE) { DEBUG(3,("get_file_version: File [%s] DOS header too short, bytes read = %lu\n", fname, (unsigned long)byte_count)); goto no_version_info; } /* Is this really a DOS header? */ if (SVAL(buf,DOS_HEADER_MAGIC_OFFSET) != DOS_HEADER_MAGIC) { DEBUG(6,("get_file_version: File [%s] bad DOS magic = 0x%x\n", fname, SVAL(buf,DOS_HEADER_MAGIC_OFFSET))); goto no_version_info; } /* Skip OEM header (if any) and the DOS stub to start of Windows header */ if (SMB_VFS_LSEEK(fsp, fsp->fd, SVAL(buf,DOS_HEADER_LFANEW_OFFSET), SEEK_SET) == (SMB_OFF_T)-1) { DEBUG(3,("get_file_version: File [%s] too short, errno = %d\n", fname, errno)); /* Assume this isn't an error... the file just looks sort of like a PE/NE file */ goto no_version_info; } if ((byte_count = vfs_read_data(fsp, buf, PE_HEADER_SIZE)) < PE_HEADER_SIZE) { DEBUG(3,("get_file_version: File [%s] Windows header too short, bytes read = %lu\n", fname, (unsigned long)byte_count)); /* Assume this isn't an error... the file just looks sort of like a PE/NE file */ goto no_version_info; } /* The header may be a PE (Portable Executable) or an NE (New Executable) */ if (IVAL(buf,PE_HEADER_SIGNATURE_OFFSET) == PE_HEADER_SIGNATURE) { unsigned int num_sections; unsigned int section_table_bytes; if (SVAL(buf,PE_HEADER_MACHINE_OFFSET) != PE_HEADER_MACHINE_I386) { DEBUG(3,("get_file_version: PE file [%s] wrong machine = 0x%x\n", fname, SVAL(buf,PE_HEADER_MACHINE_OFFSET))); /* At this point, we assume the file is in error. It still could be somthing * else besides a PE file, but it unlikely at this point. */ goto error_exit; } /* get the section table */ num_sections = SVAL(buf,PE_HEADER_NUMBER_OF_SECTIONS); section_table_bytes = num_sections * PE_HEADER_SECT_HEADER_SIZE; if (section_table_bytes == 0) goto error_exit; SAFE_FREE(buf); if ((buf=malloc(section_table_bytes)) == NULL) { DEBUG(0,("get_file_version: PE file [%s] section table malloc failed bytes = %d\n", fname, section_table_bytes)); goto error_exit; } if ((byte_count = vfs_read_data(fsp, buf, section_table_bytes)) < section_table_bytes) { DEBUG(3,("get_file_version: PE file [%s] Section header too short, bytes read = %lu\n", fname, (unsigned long)byte_count)); goto error_exit; } /* Iterate the section table looking for the resource section ".rsrc" */ for (i = 0; i < num_sections; i++) { int sec_offset = i * PE_HEADER_SECT_HEADER_SIZE; if (strcmp(".rsrc", &buf[sec_offset+PE_HEADER_SECT_NAME_OFFSET]) == 0) { unsigned int section_pos = IVAL(buf,sec_offset+PE_HEADER_SECT_PTR_DATA_OFFSET); unsigned int section_bytes = IVAL(buf,sec_offset+PE_HEADER_SECT_SIZE_DATA_OFFSET); if (section_bytes == 0) goto error_exit; SAFE_FREE(buf); if ((buf=malloc(section_bytes)) == NULL) { DEBUG(0,("get_file_version: PE file [%s] version malloc failed bytes = %d\n", fname, section_bytes)); goto error_exit; } /* Seek to the start of the .rsrc section info */ if (SMB_VFS_LSEEK(fsp, fsp->fd, section_pos, SEEK_SET) == (SMB_OFF_T)-1) { DEBUG(3,("get_file_version: PE file [%s] too short for section info, errno = %d\n", fname, errno)); goto error_exit; } if ((byte_count = vfs_read_data(fsp, buf, section_bytes)) < section_bytes) { DEBUG(3,("get_file_version: PE file [%s] .rsrc section too short, bytes read = %lu\n", fname, (unsigned long)byte_count)); goto error_exit; } if (section_bytes < VS_VERSION_INFO_UNICODE_SIZE) goto error_exit; for (i=0; i>16)&0xffff, *major&0xffff, (*minor>>16)&0xffff, *minor&0xffff)); SAFE_FREE(buf); return 1; } } } } } /* Version info not found, fall back to origin date/time */ DEBUG(10,("get_file_version: PE file [%s] has no version info\n", fname)); SAFE_FREE(buf); return 0; } else if (SVAL(buf,NE_HEADER_SIGNATURE_OFFSET) == NE_HEADER_SIGNATURE) { if (CVAL(buf,NE_HEADER_TARGET_OS_OFFSET) != NE_HEADER_TARGOS_WIN ) { DEBUG(3,("get_file_version: NE file [%s] wrong target OS = 0x%x\n", fname, CVAL(buf,NE_HEADER_TARGET_OS_OFFSET))); /* At this point, we assume the file is in error. It still could be somthing * else besides a NE file, but it unlikely at this point. */ goto error_exit; } /* Allocate a bit more space to speed up things */ SAFE_FREE(buf); if ((buf=malloc(VS_NE_BUF_SIZE)) == NULL) { DEBUG(0,("get_file_version: NE file [%s] malloc failed bytes = %d\n", fname, PE_HEADER_SIZE)); goto error_exit; } /* This is a HACK! I got tired of trying to sort through the messy * 'NE' file format. If anyone wants to clean this up please have at * it, but this works. 'NE' files will eventually fade away. JRR */ while((byte_count = vfs_read_data(fsp, buf, VS_NE_BUF_SIZE)) > 0) { /* Cover case that should not occur in a well formed 'NE' .dll file */ if (byte_count-VS_VERSION_INFO_SIZE <= 0) break; for(i=0; ibyte_count-VS_VERSION_INFO_SIZE) { int bc; memcpy(buf, &buf[i], byte_count-i); if ((bc = vfs_read_data(fsp, &buf[byte_count-i], VS_NE_BUF_SIZE- (byte_count-i))) < 0) { DEBUG(0,("get_file_version: NE file [%s] Read error, errno=%d\n", fname, errno)); goto error_exit; } byte_count = bc + (byte_count - i); if (byte_countfd, 0, SEEK_CUR) - (byte_count - i) + sizeof(VS_SIGNATURE)) & 3; if (IVAL(buf,i+sizeof(VS_SIGNATURE)+skip) != 0xfeef04bd) continue; *major = IVAL(buf,i+sizeof(VS_SIGNATURE)+skip+VS_MAJOR_OFFSET); *minor = IVAL(buf,i+sizeof(VS_SIGNATURE)+skip+VS_MINOR_OFFSET); DEBUG(6,("get_file_version: NE file [%s] Version = %08x:%08x (%d.%d.%d.%d)\n", fname, *major, *minor, (*major>>16)&0xffff, *major&0xffff, (*minor>>16)&0xffff, *minor&0xffff)); SAFE_FREE(buf); return 1; } } } /* Version info not found, fall back to origin date/time */ DEBUG(0,("get_file_version: NE file [%s] Version info not found\n", fname)); SAFE_FREE(buf); return 0; } else /* Assume this isn't an error... the file just looks sort of like a PE/NE file */ DEBUG(3,("get_file_version: File [%s] unknown file format, signature = 0x%x\n", fname, IVAL(buf,PE_HEADER_SIGNATURE_OFFSET))); no_version_info: SAFE_FREE(buf); return 0; error_exit: SAFE_FREE(buf); return -1; } /**************************************************************************** Drivers for Microsoft systems contain multiple files. Often, multiple drivers share one or more files. During the MS installation process files are checked to insure that only a newer version of a shared file is installed over an older version. There are several possibilities for this comparison. If there is no previous version, the new one is newer (obviously). If either file is missing the version info structure, compare the creation date (on Unix use the modification date). Otherwise chose the numerically larger version number. ****************************************************************************/ static int file_version_is_newer(connection_struct *conn, fstring new_file, fstring old_file) { BOOL use_version = True; pstring filepath; uint32 new_major; uint32 new_minor; time_t new_create_time; uint32 old_major; uint32 old_minor; time_t old_create_time; int access_mode; int action; files_struct *fsp = NULL; SMB_STRUCT_STAT st; SMB_STRUCT_STAT stat_buf; BOOL bad_path; ZERO_STRUCT(st); ZERO_STRUCT(stat_buf); new_create_time = (time_t)0; old_create_time = (time_t)0; /* Get file version info (if available) for previous file (if it exists) */ pstrcpy(filepath, old_file); unix_convert(filepath,conn,NULL,&bad_path,&stat_buf); fsp = open_file_shared(conn, filepath, &stat_buf, SET_OPEN_MODE(DOS_OPEN_RDONLY), (FILE_FAIL_IF_NOT_EXIST|FILE_EXISTS_OPEN), 0, 0, &access_mode, &action); if (!fsp) { /* Old file not found, so by definition new file is in fact newer */ DEBUG(10,("file_version_is_newer: Can't open old file [%s], errno = %d\n", filepath, errno)); return True; } else { int ret = get_file_version(fsp, old_file, &old_major, &old_minor); if (ret == -1) goto error_exit; if (!ret) { DEBUG(6,("file_version_is_newer: Version info not found [%s], use mod time\n", old_file)); use_version = False; if (SMB_VFS_FSTAT(fsp, fsp->fd, &st) == -1) goto error_exit; old_create_time = st.st_mtime; DEBUGADD(6,("file_version_is_newer: mod time = %ld sec\n", old_create_time)); } } close_file(fsp, True); /* Get file version info (if available) for new file */ pstrcpy(filepath, new_file); unix_convert(filepath,conn,NULL,&bad_path,&stat_buf); fsp = open_file_shared(conn, filepath, &stat_buf, SET_OPEN_MODE(DOS_OPEN_RDONLY), (FILE_FAIL_IF_NOT_EXIST|FILE_EXISTS_OPEN), 0, 0, &access_mode, &action); if (!fsp) { /* New file not found, this shouldn't occur if the caller did its job */ DEBUG(3,("file_version_is_newer: Can't open new file [%s], errno = %d\n", filepath, errno)); goto error_exit; } else { int ret = get_file_version(fsp, new_file, &new_major, &new_minor); if (ret == -1) goto error_exit; if (!ret) { DEBUG(6,("file_version_is_newer: Version info not found [%s], use mod time\n", new_file)); use_version = False; if (SMB_VFS_FSTAT(fsp, fsp->fd, &st) == -1) goto error_exit; new_create_time = st.st_mtime; DEBUGADD(6,("file_version_is_newer: mod time = %ld sec\n", new_create_time)); } } close_file(fsp, True); if (use_version && (new_major != old_major || new_minor != old_minor)) { /* Compare versions and choose the larger version number */ if (new_major > old_major || (new_major == old_major && new_minor > old_minor)) { DEBUG(6,("file_version_is_newer: Replacing [%s] with [%s]\n", old_file, new_file)); return True; } else { DEBUG(6,("file_version_is_newer: Leaving [%s] unchanged\n", old_file)); return False; } } else { /* Compare modification time/dates and choose the newest time/date */ if (new_create_time > old_create_time) { DEBUG(6,("file_version_is_newer: Replacing [%s] with [%s]\n", old_file, new_file)); return True; } else { DEBUG(6,("file_version_is_newer: Leaving [%s] unchanged\n", old_file)); return False; } } error_exit: if(fsp) close_file(fsp, True); return -1; } /**************************************************************************** Determine the correct cVersion associated with an architecture and driver ****************************************************************************/ static uint32 get_correct_cversion(const char *architecture, fstring driverpath_in, struct current_user *user, WERROR *perr) { int cversion; int access_mode; int action; NTSTATUS nt_status; pstring driverpath; DATA_BLOB null_pw; fstring res_type; files_struct *fsp = NULL; BOOL bad_path; SMB_STRUCT_STAT st; connection_struct *conn; ZERO_STRUCT(st); *perr = WERR_INVALID_PARAM; /* If architecture is Windows 95/98/ME, the version is always 0. */ if (strcmp(architecture, "WIN40") == 0) { DEBUG(10,("get_correct_cversion: Driver is Win9x, cversion = 0\n")); *perr = WERR_OK; return 0; } /* * Connect to the print$ share under the same account as the user connected * to the rpc pipe. Note we must still be root to do this. */ /* Null password is ok - we are already an authenticated user... */ null_pw = data_blob(NULL, 0); fstrcpy(res_type, "A:"); become_root(); conn = make_connection_with_chdir("print$", null_pw, res_type, user->vuid, &nt_status); unbecome_root(); if (conn == NULL) { DEBUG(0,("get_correct_cversion: Unable to connect\n")); *perr = ntstatus_to_werror(nt_status); return -1; } /* We are temporarily becoming the connection user. */ if (!become_user(conn, user->vuid)) { DEBUG(0,("get_correct_cversion: Can't become user!\n")); *perr = WERR_ACCESS_DENIED; return -1; } /* Open the driver file (Portable Executable format) and determine the * deriver the cversion. */ slprintf(driverpath, sizeof(driverpath)-1, "%s/%s", architecture, driverpath_in); unix_convert(driverpath,conn,NULL,&bad_path,&st); fsp = open_file_shared(conn, driverpath, &st, SET_OPEN_MODE(DOS_OPEN_RDONLY), (FILE_FAIL_IF_NOT_EXIST|FILE_EXISTS_OPEN), 0, 0, &access_mode, &action); if (!fsp) { DEBUG(3,("get_correct_cversion: Can't open file [%s], errno = %d\n", driverpath, errno)); *perr = WERR_ACCESS_DENIED; goto error_exit; } else { uint32 major; uint32 minor; int ret = get_file_version(fsp, driverpath, &major, &minor); if (ret == -1) goto error_exit; if (!ret) { DEBUG(6,("get_correct_cversion: Version info not found [%s]\n", driverpath)); goto error_exit; } /* * This is a Microsoft'ism. See references in MSDN to VER_FILEVERSION * for more details. Version in this case is not just the version of the * file, but the version in the sense of kernal mode (2) vs. user mode * (3) drivers. Other bits of the version fields are the version info. * JRR 010716 */ cversion = major & 0x0000ffff; switch (cversion) { case 2: /* WinNT drivers */ case 3: /* Win2K drivers */ break; default: DEBUG(6,("get_correct_cversion: cversion invalid [%s] cversion = %d\n", driverpath, cversion)); goto error_exit; } DEBUG(10,("get_correct_cversion: Version info found [%s] major = 0x%x minor = 0x%x\n", driverpath, major, minor)); } DEBUG(10,("get_correct_cversion: Driver file [%s] cversion = %d\n", driverpath, cversion)); close_file(fsp, True); close_cnum(conn, user->vuid); unbecome_user(); *perr = WERR_OK; return cversion; error_exit: if(fsp) close_file(fsp, True); close_cnum(conn, user->vuid); unbecome_user(); return -1; } /**************************************************************************** ****************************************************************************/ static WERROR clean_up_driver_struct_level_3(NT_PRINTER_DRIVER_INFO_LEVEL_3 *driver, struct current_user *user) { const char *architecture; fstring new_name; char *p; int i; WERROR err; /* clean up the driver name. * we can get .\driver.dll * or worse c:\windows\system\driver.dll ! */ /* using an intermediate string to not have overlaping memcpy()'s */ if ((p = strrchr(driver->driverpath,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->driverpath, new_name); } if ((p = strrchr(driver->datafile,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->datafile, new_name); } if ((p = strrchr(driver->configfile,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->configfile, new_name); } if ((p = strrchr(driver->helpfile,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->helpfile, new_name); } if (driver->dependentfiles) { for (i=0; *driver->dependentfiles[i]; i++) { if ((p = strrchr(driver->dependentfiles[i],'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->dependentfiles[i], new_name); } } } architecture = get_short_archi(driver->environment); /* jfm:7/16/2000 the client always sends the cversion=0. * The server should check which version the driver is by reading * the PE header of driver->driverpath. * * For Windows 95/98 the version is 0 (so the value sent is correct) * For Windows NT (the architecture doesn't matter) * NT 3.1: cversion=0 * NT 3.5/3.51: cversion=1 * NT 4: cversion=2 * NT2K: cversion=3 */ if ((driver->cversion = get_correct_cversion( architecture, driver->driverpath, user, &err)) == -1) return err; return WERR_OK; } /**************************************************************************** ****************************************************************************/ static WERROR clean_up_driver_struct_level_6(NT_PRINTER_DRIVER_INFO_LEVEL_6 *driver, struct current_user *user) { const char *architecture; fstring new_name; char *p; int i; WERROR err; /* clean up the driver name. * we can get .\driver.dll * or worse c:\windows\system\driver.dll ! */ /* using an intermediate string to not have overlaping memcpy()'s */ if ((p = strrchr(driver->driverpath,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->driverpath, new_name); } if ((p = strrchr(driver->datafile,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->datafile, new_name); } if ((p = strrchr(driver->configfile,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->configfile, new_name); } if ((p = strrchr(driver->helpfile,'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->helpfile, new_name); } if (driver->dependentfiles) { for (i=0; *driver->dependentfiles[i]; i++) { if ((p = strrchr(driver->dependentfiles[i],'\\')) != NULL) { fstrcpy(new_name, p+1); fstrcpy(driver->dependentfiles[i], new_name); } } } architecture = get_short_archi(driver->environment); /* jfm:7/16/2000 the client always sends the cversion=0. * The server should check which version the driver is by reading * the PE header of driver->driverpath. * * For Windows 95/98 the version is 0 (so the value sent is correct) * For Windows NT (the architecture doesn't matter) * NT 3.1: cversion=0 * NT 3.5/3.51: cversion=1 * NT 4: cversion=2 * NT2K: cversion=3 */ if ((driver->version = get_correct_cversion(architecture, driver->driverpath, user, &err)) == -1) return err; return WERR_OK; } /**************************************************************************** ****************************************************************************/ WERROR clean_up_driver_struct(NT_PRINTER_DRIVER_INFO_LEVEL driver_abstract, uint32 level, struct current_user *user) { switch (level) { case 3: { NT_PRINTER_DRIVER_INFO_LEVEL_3 *driver; driver=driver_abstract.info_3; return clean_up_driver_struct_level_3(driver, user); } case 6: { NT_PRINTER_DRIVER_INFO_LEVEL_6 *driver; driver=driver_abstract.info_6; return clean_up_driver_struct_level_6(driver, user); } default: return WERR_INVALID_PARAM; } } /**************************************************************************** This function sucks and should be replaced. JRA. ****************************************************************************/ static void convert_level_6_to_level3(NT_PRINTER_DRIVER_INFO_LEVEL_3 *dst, NT_PRINTER_DRIVER_INFO_LEVEL_6 *src) { dst->cversion = src->version; fstrcpy( dst->name, src->name); fstrcpy( dst->environment, src->environment); fstrcpy( dst->driverpath, src->driverpath); fstrcpy( dst->datafile, src->datafile); fstrcpy( dst->configfile, src->configfile); fstrcpy( dst->helpfile, src->helpfile); fstrcpy( dst->monitorname, src->monitorname); fstrcpy( dst->defaultdatatype, src->defaultdatatype); dst->dependentfiles = src->dependentfiles; } #if 0 /* Debugging function */ static char* ffmt(unsigned char *c){ int i; static char ffmt_str[17]; for (i=0; i<16; i++) { if ((c[i] < ' ') || (c[i] > '~')) ffmt_str[i]='.'; else ffmt_str[i]=c[i]; } ffmt_str[16]='\0'; return ffmt_str; } #endif /**************************************************************************** ****************************************************************************/ BOOL move_driver_to_download_area(NT_PRINTER_DRIVER_INFO_LEVEL driver_abstract, uint32 level, struct current_user *user, WERROR *perr) { NT_PRINTER_DRIVER_INFO_LEVEL_3 *driver; NT_PRINTER_DRIVER_INFO_LEVEL_3 converted_driver; const char *architecture; pstring new_dir; pstring old_name; pstring new_name; DATA_BLOB null_pw; connection_struct *conn; NTSTATUS nt_status; pstring inbuf; pstring outbuf; fstring res_type; int ver = 0; int i; memset(inbuf, '\0', sizeof(inbuf)); memset(outbuf, '\0', sizeof(outbuf)); *perr = WERR_OK; if (level==3) driver=driver_abstract.info_3; else if (level==6) { convert_level_6_to_level3(&converted_driver, driver_abstract.info_6); driver = &converted_driver; } else { DEBUG(0,("move_driver_to_download_area: Unknown info level (%u)\n", (unsigned int)level )); return False; } architecture = get_short_archi(driver->environment); /* * Connect to the print$ share under the same account as the user connected to the rpc pipe. * Note we must be root to do this. */ null_pw = data_blob(NULL, 0); fstrcpy(res_type, "A:"); become_root(); conn = make_connection_with_chdir("print$", null_pw, res_type, user->vuid, &nt_status); unbecome_root(); if (conn == NULL) { DEBUG(0,("move_driver_to_download_area: Unable to connect\n")); *perr = ntstatus_to_werror(nt_status); return False; } /* * Save who we are - we are temporarily becoming the connection user. */ if (!become_user(conn, conn->vuid)) { DEBUG(0,("move_driver_to_download_area: Can't become user!\n")); return False; } /* * make the directories version and version\driver_name * under the architecture directory. */ DEBUG(5,("Creating first directory\n")); slprintf(new_dir, sizeof(new_dir)-1, "%s/%d", architecture, driver->cversion); mkdir_internal(conn, new_dir); /* For each driver file, archi\filexxx.yyy, if there is a duplicate file * listed for this driver which has already been moved, skip it (note: * drivers may list the same file name several times. Then check if the * file already exists in archi\cversion\, if so, check that the version * info (or time stamps if version info is unavailable) is newer (or the * date is later). If it is, move it to archi\cversion\filexxx.yyy. * Otherwise, delete the file. * * If a file is not moved to archi\cversion\ because of an error, all the * rest of the 'unmoved' driver files are removed from archi\. If one or * more of the driver's files was already moved to archi\cversion\, it * potentially leaves the driver in a partially updated state. Version * trauma will most likely occur if an client attempts to use any printer * bound to the driver. Perhaps a rewrite to make sure the moves can be * done is appropriate... later JRR */ DEBUG(5,("Moving files now !\n")); if (driver->driverpath && strlen(driver->driverpath)) { slprintf(new_name, sizeof(new_name)-1, "%s/%s", architecture, driver->driverpath); slprintf(old_name, sizeof(old_name)-1, "%s/%s", new_dir, driver->driverpath); if (ver != -1 && (ver=file_version_is_newer(conn, new_name, old_name)) > 0) { NTSTATUS status; status = rename_internals(conn, new_name, old_name, 0, True); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("move_driver_to_download_area: Unable to rename [%s] to [%s]\n", new_name, old_name)); *perr = ntstatus_to_werror(status); unlink_internals(conn, 0, new_name); ver = -1; } } else unlink_internals(conn, 0, new_name); } if (driver->datafile && strlen(driver->datafile)) { if (!strequal(driver->datafile, driver->driverpath)) { slprintf(new_name, sizeof(new_name)-1, "%s/%s", architecture, driver->datafile); slprintf(old_name, sizeof(old_name)-1, "%s/%s", new_dir, driver->datafile); if (ver != -1 && (ver=file_version_is_newer(conn, new_name, old_name)) > 0) { NTSTATUS status; status = rename_internals(conn, new_name, old_name, 0, True); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("move_driver_to_download_area: Unable to rename [%s] to [%s]\n", new_name, old_name)); *perr = ntstatus_to_werror(status); unlink_internals(conn, 0, new_name); ver = -1; } } else unlink_internals(conn, 0, new_name); } } if (driver->configfile && strlen(driver->configfile)) { if (!strequal(driver->configfile, driver->driverpath) && !strequal(driver->configfile, driver->datafile)) { slprintf(new_name, sizeof(new_name)-1, "%s/%s", architecture, driver->configfile); slprintf(old_name, sizeof(old_name)-1, "%s/%s", new_dir, driver->configfile); if (ver != -1 && (ver=file_version_is_newer(conn, new_name, old_name)) > 0) { NTSTATUS status; status = rename_internals(conn, new_name, old_name, 0, True); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("move_driver_to_download_area: Unable to rename [%s] to [%s]\n", new_name, old_name)); *perr = ntstatus_to_werror(status); unlink_internals(conn, 0, new_name); ver = -1; } } else unlink_internals(conn, 0, new_name); } } if (driver->helpfile && strlen(driver->helpfile)) { if (!strequal(driver->helpfile, driver->driverpath) && !strequal(driver->helpfile, driver->datafile) && !strequal(driver->helpfile, driver->configfile)) { slprintf(new_name, sizeof(new_name)-1, "%s/%s", architecture, driver->helpfile); slprintf(old_name, sizeof(old_name)-1, "%s/%s", new_dir, driver->helpfile); if (ver != -1 && (ver=file_version_is_newer(conn, new_name, old_name)) > 0) { NTSTATUS status; status = rename_internals(conn, new_name, old_name, 0, True); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("move_driver_to_download_area: Unable to rename [%s] to [%s]\n", new_name, old_name)); *perr = ntstatus_to_werror(status); unlink_internals(conn, 0, new_name); ver = -1; } } else unlink_internals(conn, 0, new_name); } } if (driver->dependentfiles) { for (i=0; *driver->dependentfiles[i]; i++) { if (!strequal(driver->dependentfiles[i], driver->driverpath) && !strequal(driver->dependentfiles[i], driver->datafile) && !strequal(driver->dependentfiles[i], driver->configfile) && !strequal(driver->dependentfiles[i], driver->helpfile)) { int j; for (j=0; j < i; j++) { if (strequal(driver->dependentfiles[i], driver->dependentfiles[j])) { goto NextDriver; } } slprintf(new_name, sizeof(new_name)-1, "%s/%s", architecture, driver->dependentfiles[i]); slprintf(old_name, sizeof(old_name)-1, "%s/%s", new_dir, driver->dependentfiles[i]); if (ver != -1 && (ver=file_version_is_newer(conn, new_name, old_name)) > 0) { NTSTATUS status; status = rename_internals(conn, new_name, old_name, 0, True); if (!NT_STATUS_IS_OK(status)) { DEBUG(0,("move_driver_to_download_area: Unable to rename [%s] to [%s]\n", new_name, old_name)); *perr = ntstatus_to_werror(status); unlink_internals(conn, 0, new_name); ver = -1; } } else unlink_internals(conn, 0, new_name); } NextDriver: ; } } close_cnum(conn, user->vuid); unbecome_user(); return ver == -1 ? False : True; } /**************************************************************************** ****************************************************************************/ static uint32 add_a_printer_driver_3(NT_PRINTER_DRIVER_INFO_LEVEL_3 *driver) { int len, buflen; const char *architecture; pstring directory; fstring temp_name; pstring key; char *buf; int i, ret; TDB_DATA kbuf, dbuf; architecture = get_short_archi(driver->environment); /* The names are relative. We store them in the form: \print$\arch\version\driver.xxx * \\server is added in the rpc server layer. * It does make sense to NOT store the server's name in the printer TDB. */ slprintf(directory, sizeof(directory)-1, "\\print$\\%s\\%d\\", architecture, driver->cversion); /* .inf files do not always list a file for each of the four standard files. * Don't prepend a path to a null filename, or client claims: * "The server on which the printer resides does not have a suitable * printer driver installed. Click OK if you * wish to install the driver on your local machine." */ if (strlen(driver->driverpath)) { fstrcpy(temp_name, driver->driverpath); slprintf(driver->driverpath, sizeof(driver->driverpath)-1, "%s%s", directory, temp_name); } if (strlen(driver->datafile)) { fstrcpy(temp_name, driver->datafile); slprintf(driver->datafile, sizeof(driver->datafile)-1, "%s%s", directory, temp_name); } if (strlen(driver->configfile)) { fstrcpy(temp_name, driver->configfile); slprintf(driver->configfile, sizeof(driver->configfile)-1, "%s%s", directory, temp_name); } if (strlen(driver->helpfile)) { fstrcpy(temp_name, driver->helpfile); slprintf(driver->helpfile, sizeof(driver->helpfile)-1, "%s%s", directory, temp_name); } if (driver->dependentfiles) { for (i=0; *driver->dependentfiles[i]; i++) { fstrcpy(temp_name, driver->dependentfiles[i]); slprintf(driver->dependentfiles[i], sizeof(driver->dependentfiles[i])-1, "%s%s", directory, temp_name); } } slprintf(key, sizeof(key)-1, "%s%s/%d/%s", DRIVERS_PREFIX, architecture, driver->cversion, driver->name); DEBUG(5,("add_a_printer_driver_3: Adding driver with key %s\n", key )); buf = NULL; len = buflen = 0; again: len = 0; len += tdb_pack(buf+len, buflen-len, "dffffffff", driver->cversion, driver->name, driver->environment, driver->driverpath, driver->datafile, driver->configfile, driver->helpfile, driver->monitorname, driver->defaultdatatype); if (driver->dependentfiles) { for (i=0; *driver->dependentfiles[i]; i++) { len += tdb_pack(buf+len, buflen-len, "f", driver->dependentfiles[i]); } } if (len != buflen) { char *tb; tb = (char *)Realloc(buf, len); if (!tb) { DEBUG(0,("add_a_printer_driver_3: failed to enlarge buffer\n!")); ret = -1; goto done; } else buf = tb; buflen = len; goto again; } kbuf.dptr = key; kbuf.dsize = strlen(key)+1; dbuf.dptr = buf; dbuf.dsize = len; ret = tdb_store(tdb_drivers, kbuf, dbuf, TDB_REPLACE); done: if (ret) DEBUG(0,("add_a_printer_driver_3: Adding driver with key %s failed.\n", key )); SAFE_FREE(buf); return ret; } /**************************************************************************** ****************************************************************************/ static uint32 add_a_printer_driver_6(NT_PRINTER_DRIVER_INFO_LEVEL_6 *driver) { NT_PRINTER_DRIVER_INFO_LEVEL_3 info3; ZERO_STRUCT(info3); info3.cversion = driver->version; fstrcpy(info3.name,driver->name); fstrcpy(info3.environment,driver->environment); fstrcpy(info3.driverpath,driver->driverpath); fstrcpy(info3.datafile,driver->datafile); fstrcpy(info3.configfile,driver->configfile); fstrcpy(info3.helpfile,driver->helpfile); fstrcpy(info3.monitorname,driver->monitorname); fstrcpy(info3.defaultdatatype,driver->defaultdatatype); info3.dependentfiles = driver->dependentfiles; return add_a_printer_driver_3(&info3); } /**************************************************************************** ****************************************************************************/ static WERROR get_a_printer_driver_3_default(NT_PRINTER_DRIVER_INFO_LEVEL_3 **info_ptr, const char *driver, const char *arch) { NT_PRINTER_DRIVER_INFO_LEVEL_3 info; ZERO_STRUCT(info); fstrcpy(info.name, driver); fstrcpy(info.defaultdatatype, "RAW"); fstrcpy(info.driverpath, ""); fstrcpy(info.datafile, ""); fstrcpy(info.configfile, ""); fstrcpy(info.helpfile, ""); if ((info.dependentfiles=(fstring *)malloc(2*sizeof(fstring))) == NULL) return WERR_NOMEM; memset(info.dependentfiles, '\0', 2*sizeof(fstring)); fstrcpy(info.dependentfiles[0], ""); *info_ptr = memdup(&info, sizeof(info)); return WERR_OK; } /**************************************************************************** ****************************************************************************/ static WERROR get_a_printer_driver_3(NT_PRINTER_DRIVER_INFO_LEVEL_3 **info_ptr, fstring drivername, const char *arch, uint32 version) { NT_PRINTER_DRIVER_INFO_LEVEL_3 driver; TDB_DATA kbuf, dbuf; const char *architecture; int len = 0; int i; pstring key; ZERO_STRUCT(driver); architecture = get_short_archi(arch); /* Windows 4.0 (i.e. win9x) should always use a version of 0 */ if ( strcmp( architecture, SPL_ARCH_WIN40 ) == 0 ) version = 0; DEBUG(8,("get_a_printer_driver_3: [%s%s/%d/%s]\n", DRIVERS_PREFIX, architecture, version, drivername)); slprintf(key, sizeof(key)-1, "%s%s/%d/%s", DRIVERS_PREFIX, architecture, version, drivername); kbuf.dptr = key; kbuf.dsize = strlen(key)+1; dbuf = tdb_fetch(tdb_drivers, kbuf); if (!dbuf.dptr) return WERR_UNKNOWN_PRINTER_DRIVER; len += tdb_unpack(dbuf.dptr, dbuf.dsize, "dffffffff", &driver.cversion, driver.name, driver.environment, driver.driverpath, driver.datafile, driver.configfile, driver.helpfile, driver.monitorname, driver.defaultdatatype); i=0; while (len < dbuf.dsize) { fstring *tddfs; tddfs = (fstring *)Realloc(driver.dependentfiles, sizeof(fstring)*(i+2)); if (tddfs == NULL) { DEBUG(0,("get_a_printer_driver_3: failed to enlarge buffer!\n")); break; } else driver.dependentfiles = tddfs; len += tdb_unpack(dbuf.dptr+len, dbuf.dsize-len, "f", &driver.dependentfiles[i]); i++; } if (driver.dependentfiles != NULL) fstrcpy(driver.dependentfiles[i], ""); SAFE_FREE(dbuf.dptr); if (len != dbuf.dsize) { SAFE_FREE(driver.dependentfiles); return get_a_printer_driver_3_default(info_ptr, drivername, arch); } *info_ptr = (NT_PRINTER_DRIVER_INFO_LEVEL_3 *)memdup(&driver, sizeof(driver)); return WERR_OK; } /**************************************************************************** Debugging function, dump at level 6 the struct in the logs. ****************************************************************************/ static uint32 dump_a_printer_driver(NT_PRINTER_DRIVER_INFO_LEVEL driver, uint32 level) { uint32 result; NT_PRINTER_DRIVER_INFO_LEVEL_3 *info3; int i; DEBUG(20,("Dumping printer driver at level [%d]\n", level)); switch (level) { case 3: { if (driver.info_3 == NULL) result=5; else { info3=driver.info_3; DEBUGADD(20,("version:[%d]\n", info3->cversion)); DEBUGADD(20,("name:[%s]\n", info3->name)); DEBUGADD(20,("environment:[%s]\n", info3->environment)); DEBUGADD(20,("driverpath:[%s]\n", info3->driverpath)); DEBUGADD(20,("datafile:[%s]\n", info3->datafile)); DEBUGADD(20,("configfile:[%s]\n", info3->configfile)); DEBUGADD(20,("helpfile:[%s]\n", info3->helpfile)); DEBUGADD(20,("monitorname:[%s]\n", info3->monitorname)); DEBUGADD(20,("defaultdatatype:[%s]\n", info3->defaultdatatype)); for (i=0; info3->dependentfiles && *info3->dependentfiles[i]; i++) { DEBUGADD(20,("dependentfile:[%s]\n", info3->dependentfiles[i])); } result=0; } break; } default: DEBUGADD(20,("dump_a_printer_driver: Level %u not implemented\n", (unsigned int)level)); result=1; break; } return result; } /**************************************************************************** ****************************************************************************/ int pack_devicemode(NT_DEVICEMODE *nt_devmode, char *buf, int buflen) { int len = 0; len += tdb_pack(buf+len, buflen-len, "p", nt_devmode); if (!nt_devmode) return len; len += tdb_pack(buf+len, buflen-len, "ffwwwwwwwwwwwwwwwwwwddddddddddddddp", nt_devmode->devicename, nt_devmode->formname, nt_devmode->specversion, nt_devmode->driverversion, nt_devmode->size, nt_devmode->driverextra, nt_devmode->orientation, nt_devmode->papersize, nt_devmode->paperlength, nt_devmode->paperwidth, nt_devmode->scale, nt_devmode->copies, nt_devmode->defaultsource, nt_devmode->printquality, nt_devmode->color, nt_devmode->duplex, nt_devmode->yresolution, nt_devmode->ttoption, nt_devmode->collate, nt_devmode->logpixels, nt_devmode->fields, nt_devmode->bitsperpel, nt_devmode->pelswidth, nt_devmode->pelsheight, nt_devmode->displayflags, nt_devmode->displayfrequency, nt_devmode->icmmethod, nt_devmode->icmintent, nt_devmode->mediatype, nt_devmode->dithertype, nt_devmode->reserved1, nt_devmode->reserved2, nt_devmode->panningwidth, nt_devmode->panningheight, nt_devmode->private); if (nt_devmode->private) { len += tdb_pack(buf+len, buflen-len, "B", nt_devmode->driverextra, nt_devmode->private); } DEBUG(8,("Packed devicemode [%s]\n", nt_devmode->formname)); return len; } /**************************************************************************** Pack all values in all printer keys ***************************************************************************/ static int pack_values(NT_PRINTER_DATA *data, char *buf, int buflen) { int len = 0; int i, j; REGISTRY_VALUE *val; REGVAL_CTR *val_ctr; pstring path; int num_values; if ( !data ) return 0; /* loop over all keys */ for ( i=0; inum_keys; i++ ) { val_ctr = &data->keys[i].values; num_values = regval_ctr_numvals( val_ctr ); /* loop over all values */ for ( j=0; j\ */ val = regval_ctr_specific_value( val_ctr, j ); pstrcpy( path, data->keys[i].name ); pstrcat( path, "\\" ); pstrcat( path, regval_name(val) ); len += tdb_pack(buf+len, buflen-len, "pPdB", val, path, regval_type(val), regval_size(val), regval_data_p(val) ); } } /* terminator */ len += tdb_pack(buf+len, buflen-len, "p", NULL); return len; } /**************************************************************************** Delete a printer - this just deletes the printer info file, any open handles are not affected. ****************************************************************************/ uint32 del_a_printer(char *sharename) { pstring key; TDB_DATA kbuf; slprintf(key, sizeof(key)-1, "%s%s", PRINTERS_PREFIX, sharename); kbuf.dptr=key; kbuf.dsize=strlen(key)+1; tdb_delete(tdb_printers, kbuf); return 0; } /* FIXME!!! Reorder so this forward declaration is not necessary --jerry */ static WERROR get_a_printer_2(NT_PRINTER_INFO_LEVEL_2 **, const char* sharename); static void free_nt_printer_info_level_2(NT_PRINTER_INFO_LEVEL_2 **); /**************************************************************************** ****************************************************************************/ static WERROR update_a_printer_2(NT_PRINTER_INFO_LEVEL_2 *info) { pstring key; char *buf; int buflen, len; WERROR ret; TDB_DATA kbuf, dbuf; /* * in addprinter: no servername and the printer is the name * in setprinter: servername is \\server * and printer is \\server\\printer * * Samba manages only local printers. * we currently don't support things like path=\\other_server\printer */ if (info->servername[0]!='\0') { trim_string(info->printername, info->servername, NULL); trim_char(info->printername, '\\', '\0'); info->servername[0]='\0'; } /* * JFM: one day I'll forget. * below that's info->portname because that's the SAMBA sharename * and I made NT 'thinks' it's the portname * the info->sharename is the thing you can name when you add a printer * that's the short-name when you create shared printer for 95/98 * So I've made a limitation in SAMBA: you can only have 1 printer model * behind a SAMBA share. */ buf = NULL; buflen = 0; again: len = 0; len += tdb_pack(buf+len, buflen-len, "dddddddddddfffffPfffff", info->attributes, info->priority, info->default_priority, info->starttime, info->untiltime, info->status, info->cjobs, info->averageppm, info->changeid, info->c_setprinter, info->setuptime, info->servername, info->printername, info->sharename, info->portname, info->drivername, info->comment, info->location, info->sepfile, info->printprocessor, info->datatype, info->parameters); len += pack_devicemode(info->devmode, buf+len, buflen-len); len += pack_values( &info->data, buf+len, buflen-len ); if (buflen != len) { char *tb; tb = (char *)Realloc(buf, len); if (!tb) { DEBUG(0,("update_a_printer_2: failed to enlarge buffer!\n")); ret = WERR_NOMEM; goto done; } else buf = tb; buflen = len; goto again; } slprintf(key, sizeof(key)-1, "%s%s", PRINTERS_PREFIX, info->sharename); kbuf.dptr = key; kbuf.dsize = strlen(key)+1; dbuf.dptr = buf; dbuf.dsize = len; ret = (tdb_store(tdb_printers, kbuf, dbuf, TDB_REPLACE) == 0? WERR_OK : WERR_NOMEM); done: if (!W_ERROR_IS_OK(ret)) DEBUG(8, ("error updating printer to tdb on disk\n")); SAFE_FREE(buf); DEBUG(8,("packed printer [%s] with driver [%s] portname=[%s] len=%d\n", info->sharename, info->drivername, info->portname, len)); return ret; } /**************************************************************************** Malloc and return an NT devicemode. ****************************************************************************/ NT_DEVICEMODE *construct_nt_devicemode(const fstring default_devicename) { char adevice[MAXDEVICENAME]; NT_DEVICEMODE *nt_devmode = (NT_DEVICEMODE *)malloc(sizeof(NT_DEVICEMODE)); if (nt_devmode == NULL) { DEBUG(0,("construct_nt_devicemode: malloc fail.\n")); return NULL; } ZERO_STRUCTP(nt_devmode); safe_strcpy(adevice, default_devicename, sizeof(adevice)-1); fstrcpy(nt_devmode->devicename, adevice); fstrcpy(nt_devmode->formname, "Letter"); nt_devmode->specversion = 0x0401; nt_devmode->driverversion = 0x0400; nt_devmode->size = 0x00DC; nt_devmode->driverextra = 0x0000; nt_devmode->fields = FORMNAME | TTOPTION | PRINTQUALITY | DEFAULTSOURCE | COPIES | SCALE | PAPERSIZE | ORIENTATION; nt_devmode->orientation = 1; nt_devmode->papersize = PAPER_LETTER; nt_devmode->paperlength = 0; nt_devmode->paperwidth = 0; nt_devmode->scale = 0x64; nt_devmode->copies = 1; nt_devmode->defaultsource = BIN_FORMSOURCE; nt_devmode->printquality = RES_HIGH; /* 0x0258 */ nt_devmode->color = COLOR_MONOCHROME; nt_devmode->duplex = DUP_SIMPLEX; nt_devmode->yresolution = 0; nt_devmode->ttoption = TT_SUBDEV; nt_devmode->collate = COLLATE_FALSE; nt_devmode->icmmethod = 0; nt_devmode->icmintent = 0; nt_devmode->mediatype = 0; nt_devmode->dithertype = 0; /* non utilisés par un driver d'imprimante */ nt_devmode->logpixels = 0; nt_devmode->bitsperpel = 0; nt_devmode->pelswidth = 0; nt_devmode->pelsheight = 0; nt_devmode->displayflags = 0; nt_devmode->displayfrequency = 0; nt_devmode->reserved1 = 0; nt_devmode->reserved2 = 0; nt_devmode->panningwidth = 0; nt_devmode->panningheight = 0; nt_devmode->private = NULL; return nt_devmode; } /**************************************************************************** Deepcopy an NT devicemode. ****************************************************************************/ NT_DEVICEMODE *dup_nt_devicemode(NT_DEVICEMODE *nt_devicemode) { NT_DEVICEMODE *new_nt_devicemode = NULL; if ( !nt_devicemode ) return NULL; if ((new_nt_devicemode = (NT_DEVICEMODE *)memdup(nt_devicemode, sizeof(NT_DEVICEMODE))) == NULL) { DEBUG(0,("dup_nt_devicemode: malloc fail.\n")); return NULL; } new_nt_devicemode->private = NULL; if (nt_devicemode->private != NULL) { if ((new_nt_devicemode->private = memdup(nt_devicemode->private, nt_devicemode->driverextra)) == NULL) { SAFE_FREE(new_nt_devicemode); DEBUG(0,("dup_nt_devicemode: malloc fail.\n")); return NULL; } } return new_nt_devicemode; } /**************************************************************************** Clean up and deallocate a (maybe partially) allocated NT_DEVICEMODE. ****************************************************************************/ void free_nt_devicemode(NT_DEVICEMODE **devmode_ptr) { NT_DEVICEMODE *nt_devmode = *devmode_ptr; if(nt_devmode == NULL) return; DEBUG(106,("free_nt_devicemode: deleting DEVMODE\n")); SAFE_FREE(nt_devmode->private); SAFE_FREE(*devmode_ptr); } /**************************************************************************** Clean up and deallocate a (maybe partially) allocated NT_PRINTER_INFO_LEVEL_2. ****************************************************************************/ static void free_nt_printer_info_level_2(NT_PRINTER_INFO_LEVEL_2 **info_ptr) { NT_PRINTER_INFO_LEVEL_2 *info = *info_ptr; NT_PRINTER_DATA *data; int i; if ( !info ) return; DEBUG(106,("free_nt_printer_info_level_2: deleting info\n")); free_nt_devicemode(&info->devmode); /* clean up all registry keys */ data = &info->data; for ( i=0; inum_keys; i++ ) { SAFE_FREE( data->keys[i].name ); regval_ctr_destroy( &data->keys[i].values ); } SAFE_FREE( data->keys ); /* finally the top level structure */ SAFE_FREE( *info_ptr ); } /**************************************************************************** ****************************************************************************/ int unpack_devicemode(NT_DEVICEMODE **nt_devmode, char *buf, int buflen) { int len = 0; int extra_len = 0; NT_DEVICEMODE devmode; ZERO_STRUCT(devmode); len += tdb_unpack(buf+len, buflen-len, "p", nt_devmode); if (!*nt_devmode) return len; len += tdb_unpack(buf+len, buflen-len, "ffwwwwwwwwwwwwwwwwwwddddddddddddddp", devmode.devicename, devmode.formname, &devmode.specversion, &devmode.driverversion, &devmode.size, &devmode.driverextra, &devmode.orientation, &devmode.papersize, &devmode.paperlength, &devmode.paperwidth, &devmode.scale, &devmode.copies, &devmode.defaultsource, &devmode.printquality, &devmode.color, &devmode.duplex, &devmode.yresolution, &devmode.ttoption, &devmode.collate, &devmode.logpixels, &devmode.fields, &devmode.bitsperpel, &devmode.pelswidth, &devmode.pelsheight, &devmode.displayflags, &devmode.displayfrequency, &devmode.icmmethod, &devmode.icmintent, &devmode.mediatype, &devmode.dithertype, &devmode.reserved1, &devmode.reserved2, &devmode.panningwidth, &devmode.panningheight, &devmode.private); if (devmode.private) { /* the len in tdb_unpack is an int value and * devmode.driverextra is only a short */ len += tdb_unpack(buf+len, buflen-len, "B", &extra_len, &devmode.private); devmode.driverextra=(uint16)extra_len; /* check to catch an invalid TDB entry so we don't segfault */ if (devmode.driverextra == 0) { devmode.private = NULL; } } *nt_devmode = (NT_DEVICEMODE *)memdup(&devmode, sizeof(devmode)); DEBUG(8,("Unpacked devicemode [%s](%s)\n", devmode.devicename, devmode.formname)); if (devmode.private) DEBUG(8,("with a private section of %d bytes\n", devmode.driverextra)); return len; } /**************************************************************************** Allocate and initialize a new slot. ***************************************************************************/ static int add_new_printer_key( NT_PRINTER_DATA *data, const char *name ) { NT_PRINTER_KEY *d; int key_index; if ( !data || !name ) return -1; /* allocate another slot in the NT_PRINTER_KEY array */ d = Realloc( data->keys, sizeof(NT_PRINTER_KEY)*(data->num_keys+1) ); if ( d ) data->keys = d; key_index = data->num_keys; /* initialze new key */ data->num_keys++; data->keys[key_index].name = strdup( name ); ZERO_STRUCTP( &data->keys[key_index].values ); regval_ctr_init( &data->keys[key_index].values ); DEBUG(10,("add_new_printer_key: Inserted new data key [%s]\n", name )); return key_index; } /**************************************************************************** search for a registry key name in the existing printer data ***************************************************************************/ int lookup_printerkey( NT_PRINTER_DATA *data, const char *name ) { int key_index = -1; int i; if ( !data || !name ) return -1; DEBUG(12,("lookup_printerkey: Looking for [%s]\n", name)); /* loop over all existing keys */ for ( i=0; inum_keys; i++ ) { if ( strequal(data->keys[i].name, name) ) { DEBUG(12,("lookup_printerkey: Found [%s]!\n", name)); key_index = i; break; } } return key_index; } /**************************************************************************** ***************************************************************************/ uint32 get_printer_subkeys( NT_PRINTER_DATA *data, const char* key, fstring **subkeys ) { int i, j; int key_len; int num_subkeys = 0; char *p; fstring *ptr, *subkeys_ptr = NULL; fstring subkeyname; if ( !data ) return 0; for ( i=0; inum_keys; i++ ) { if ( StrnCaseCmp(data->keys[i].name, key, strlen(key)) == 0 ) { /* match sure it is a subkey and not the key itself */ key_len = strlen( key ); if ( strlen(data->keys[i].name) == key_len ) continue; /* get subkey path */ p = data->keys[i].name + key_len; if ( *p == '\\' ) p++; fstrcpy( subkeyname, p ); if ( (p = strchr( subkeyname, '\\' )) ) *p = '\0'; /* don't add a key more than once */ for ( j=0; jdata, SPOOL_DSSPOOLER_KEY)) < 0) i = add_new_printer_key(&info2->data, SPOOL_DSSPOOLER_KEY); ctr = &info2->data.keys[i].values; map_sz_into_ctr(ctr, SPOOL_REG_PRINTERNAME, info2->sharename); map_sz_into_ctr(ctr, SPOOL_REG_SHORTSERVERNAME, global_myname()); get_mydnsfullname(longname); map_sz_into_ctr(ctr, SPOOL_REG_SERVERNAME, longname); asprintf(&allocated_string, "\\\\%s\\%s", longname, info2->sharename); map_sz_into_ctr(ctr, SPOOL_REG_UNCNAME, allocated_string); SAFE_FREE(allocated_string); map_dword_into_ctr(ctr, SPOOL_REG_VERSIONNUMBER, 4); map_sz_into_ctr(ctr, SPOOL_REG_DRIVERNAME, info2->drivername); map_sz_into_ctr(ctr, SPOOL_REG_LOCATION, info2->location); map_sz_into_ctr(ctr, SPOOL_REG_DESCRIPTION, info2->comment); map_single_multi_sz_into_ctr(ctr, SPOOL_REG_PORTNAME, info2->portname); map_sz_into_ctr(ctr, SPOOL_REG_PRINTSEPARATORFILE, info2->sepfile); map_dword_into_ctr(ctr, SPOOL_REG_PRINTSTARTTIME, info2->starttime); map_dword_into_ctr(ctr, SPOOL_REG_PRINTENDTIME, info2->untiltime); map_dword_into_ctr(ctr, SPOOL_REG_PRIORITY, info2->priority); map_bool_into_ctr(ctr, SPOOL_REG_PRINTKEEPPRINTEDJOBS, (info2->attributes & PRINTER_ATTRIBUTE_KEEPPRINTEDJOBS)); switch (info2->attributes & 0x3) { case 0: ascii_str = SPOOL_REGVAL_PRINTWHILESPOOLING; break; case 1: ascii_str = SPOOL_REGVAL_PRINTAFTERSPOOLED; break; case 2: ascii_str = SPOOL_REGVAL_PRINTDIRECT; break; default: ascii_str = "unknown"; } map_sz_into_ctr(ctr, SPOOL_REG_PRINTSPOOLING, ascii_str); return True; } static void store_printer_guid(NT_PRINTER_INFO_LEVEL_2 *info2, struct uuid guid) { int i; REGVAL_CTR *ctr=NULL; /* find the DsSpooler key */ if ((i = lookup_printerkey(&info2->data, SPOOL_DSSPOOLER_KEY)) < 0) i = add_new_printer_key(&info2->data, SPOOL_DSSPOOLER_KEY); ctr = &info2->data.keys[i].values; regval_ctr_delvalue(ctr, "objectGUID"); regval_ctr_addvalue(ctr, "objectGUID", REG_BINARY, (char *) &guid, sizeof(struct uuid)); } static WERROR publish_it(NT_PRINTER_INFO_LEVEL *printer) { ADS_STATUS ads_rc; TALLOC_CTX *ctx = talloc_init("publish_it"); ADS_MODLIST mods = ads_init_mods(ctx); char *prt_dn = NULL, *srv_dn, *srv_cn_0; char *srv_dn_utf8, **srv_cn_utf8; void *res = NULL; ADS_STRUCT *ads; const char *attrs[] = {"objectGUID", NULL}; struct uuid guid; WERROR win_rc = WERR_OK; ZERO_STRUCT(guid); /* set the DsSpooler info and attributes */ if (!(map_nt_printer_info2_to_dsspooler(printer->info_2))) return WERR_NOMEM; printer->info_2->attributes |= PRINTER_ATTRIBUTE_PUBLISHED; win_rc = mod_a_printer(*printer, 2); if (!W_ERROR_IS_OK(win_rc)) { DEBUG(3, ("err %d saving data\n", W_ERROR_V(win_rc))); return win_rc; } /* Build the ads mods */ get_local_printer_publishing_data(ctx, &mods, &printer->info_2->data); ads_mod_str(ctx, &mods, SPOOL_REG_PRINTERNAME, printer->info_2->sharename); /* initial ads structure */ ads = ads_init(NULL, NULL, NULL); if (!ads) { DEBUG(3, ("ads_init() failed\n")); return WERR_SERVER_UNAVAILABLE; } setenv(KRB5_ENV_CCNAME, "MEMORY:prtpub_cache", 1); SAFE_FREE(ads->auth.password); ads->auth.password = secrets_fetch_machine_password(lp_workgroup(), NULL, NULL); /* ads_connect() will find the DC for us */ ads_rc = ads_connect(ads); if (!ADS_ERR_OK(ads_rc)) { DEBUG(3, ("ads_connect failed: %s\n", ads_errstr(ads_rc))); ads_destroy(&ads); return WERR_ACCESS_DENIED; } /* figure out where to publish */ ads_find_machine_acct(ads, &res, global_myname()); /* We use ldap_get_dn here as we need the answer * in utf8 to call ldap_explode_dn(). JRA. */ srv_dn_utf8 = ldap_get_dn(ads->ld, res); if (!srv_dn_utf8) { ads_destroy(&ads); return WERR_SERVER_UNAVAILABLE; } ads_msgfree(ads, res); srv_cn_utf8 = ldap_explode_dn(srv_dn_utf8, 1); if (!srv_cn_utf8) { ldap_memfree(srv_dn_utf8); ads_destroy(&ads); return WERR_SERVER_UNAVAILABLE; } /* Now convert to CH_UNIX. */ if (pull_utf8_allocate(&srv_dn, srv_dn_utf8) == (size_t)-1) { ldap_memfree(srv_dn_utf8); ldap_memfree(srv_cn_utf8); ads_destroy(&ads); return WERR_SERVER_UNAVAILABLE; } if (pull_utf8_allocate(&srv_cn_0, srv_cn_utf8[0]) == (size_t)-1) { ldap_memfree(srv_dn_utf8); ldap_memfree(srv_cn_utf8); ads_destroy(&ads); SAFE_FREE(srv_dn); return WERR_SERVER_UNAVAILABLE; } ldap_memfree(srv_dn_utf8); ldap_memfree(srv_cn_utf8); asprintf(&prt_dn, "cn=%s-%s,%s", srv_cn_0, printer->info_2->sharename, srv_dn); SAFE_FREE(srv_dn); SAFE_FREE(srv_cn_0); /* publish it */ ads_rc = ads_add_printer_entry(ads, prt_dn, ctx, &mods); if (LDAP_ALREADY_EXISTS == ads_rc.err.rc) ads_rc = ads_mod_printer_entry(ads, prt_dn, ctx,&mods); /* retreive the guid and store it locally */ if (ADS_ERR_OK(ads_search_dn(ads, &res, prt_dn, attrs))) { ads_memfree(ads, prt_dn); ads_pull_guid(ads, res, &guid); ads_msgfree(ads, res); store_printer_guid(printer->info_2, guid); win_rc = mod_a_printer(*printer, 2); } safe_free(prt_dn); ads_destroy(&ads); return WERR_OK; } WERROR unpublish_it(NT_PRINTER_INFO_LEVEL *printer) { ADS_STATUS ads_rc; ADS_STRUCT *ads; void *res; char *prt_dn = NULL; WERROR win_rc; printer->info_2->attributes ^= PRINTER_ATTRIBUTE_PUBLISHED; win_rc = mod_a_printer(*printer, 2); if (!W_ERROR_IS_OK(win_rc)) { DEBUG(3, ("err %d saving data\n", W_ERROR_V(win_rc))); return win_rc; } ads = ads_init(NULL, NULL, NULL); if (!ads) { DEBUG(3, ("ads_init() failed\n")); return WERR_SERVER_UNAVAILABLE; } setenv(KRB5_ENV_CCNAME, "MEMORY:prtpub_cache", 1); SAFE_FREE(ads->auth.password); ads->auth.password = secrets_fetch_machine_password(lp_workgroup(), NULL, NULL); /* ads_connect() will find the DC for us */ ads_rc = ads_connect(ads); if (!ADS_ERR_OK(ads_rc)) { DEBUG(3, ("ads_connect failed: %s\n", ads_errstr(ads_rc))); ads_destroy(&ads); return WERR_ACCESS_DENIED; } /* remove the printer from the directory */ ads_rc = ads_find_printer_on_server(ads, &res, printer->info_2->sharename, global_myname()); if (ADS_ERR_OK(ads_rc) && ads_count_replies(ads, res)) { prt_dn = ads_get_dn(ads, res); ads_msgfree(ads, res); ads_rc = ads_del_dn(ads, prt_dn); ads_memfree(ads, prt_dn); } ads_destroy(&ads); return WERR_OK; } /**************************************************************************** * Publish a printer in the directory * * @param snum describing printer service * @return WERROR indicating status of publishing ***************************************************************************/ WERROR nt_printer_publish(Printer_entry *print_hnd, int snum, int action) { NT_PRINTER_INFO_LEVEL *printer = NULL; WERROR win_rc; win_rc = get_a_printer(print_hnd, &printer, 2, lp_servicename(snum)); if (!W_ERROR_IS_OK(win_rc)) return win_rc; switch(action) { case SPOOL_DS_PUBLISH: case SPOOL_DS_UPDATE: win_rc = publish_it(printer); break; case SPOOL_DS_UNPUBLISH: win_rc = unpublish_it(printer); break; default: win_rc = WERR_NOT_SUPPORTED; } free_a_printer(&printer, 2); return win_rc; } BOOL is_printer_published(Printer_entry *print_hnd, int snum, struct uuid *guid) { NT_PRINTER_INFO_LEVEL *printer = NULL; REGVAL_CTR *ctr; REGISTRY_VALUE *guid_val; WERROR win_rc; int i; win_rc = get_a_printer(print_hnd, &printer, 2, lp_servicename(snum)); if (!W_ERROR_IS_OK(win_rc)) return False; if (!(printer->info_2->attributes & PRINTER_ATTRIBUTE_PUBLISHED)) return False; if ((i = lookup_printerkey(&printer->info_2->data, SPOOL_DSSPOOLER_KEY)) < 0) return False; if (!(ctr = &printer->info_2->data.keys[i].values)) { return False; } if (!(guid_val = regval_ctr_getvalue(ctr, "objectGUID"))) { return False; } if (regval_size(guid_val) == sizeof(struct uuid)) memcpy(guid, regval_data_p(guid_val), sizeof(struct uuid)); return True; } #else WERROR nt_printer_publish(Printer_entry *print_hnd, int snum, int action) { return WERR_OK; } BOOL is_printer_published(Printer_entry *print_hnd, int snum, struct uuid *guid) { return False; } #endif /**************************************************************************** ***************************************************************************/ WERROR delete_all_printer_data( NT_PRINTER_INFO_LEVEL_2 *p2, const char *key ) { NT_PRINTER_DATA *data; int i; int removed_keys = 0; int empty_slot; data = &p2->data; empty_slot = data->num_keys; if ( !key ) return WERR_INVALID_PARAM; /* remove all keys */ if ( !strlen(key) ) { for ( i=0; inum_keys; i++ ) { DEBUG(8,("delete_all_printer_data: Removed all Printer Data from key [%s]\n", data->keys[i].name)); SAFE_FREE( data->keys[i].name ); regval_ctr_destroy( &data->keys[i].values ); } DEBUG(8,("delete_all_printer_data: Removed all Printer Data from printer [%s]\n", p2->printername )); SAFE_FREE( data->keys ); ZERO_STRUCTP( data ); return WERR_OK; } /* remove a specific key (and all subkeys) */ for ( i=0; inum_keys; i++ ) { if ( StrnCaseCmp( data->keys[i].name, key, strlen(key)) == 0 ) { DEBUG(8,("delete_all_printer_data: Removed all Printer Data from key [%s]\n", data->keys[i].name)); SAFE_FREE( data->keys[i].name ); regval_ctr_destroy( &data->keys[i].values ); /* mark the slot as empty */ ZERO_STRUCTP( &data->keys[i] ); } } /* find the first empty slot */ for ( i=0; inum_keys; i++ ) { if ( !data->keys[i].name ) { empty_slot = i; removed_keys++; break; } } if ( i == data->num_keys ) /* nothing was removed */ return WERR_INVALID_PARAM; /* move everything down */ for ( i=empty_slot+1; inum_keys; i++ ) { if ( data->keys[i].name ) { memcpy( &data->keys[empty_slot], &data->keys[i], sizeof(NT_PRINTER_KEY) ); ZERO_STRUCTP( &data->keys[i] ); empty_slot++; removed_keys++; } } /* update count */ data->num_keys -= removed_keys; /* sanity check to see if anything is left */ if ( !data->num_keys ) { DEBUG(8,("delete_all_printer_data: No keys left for printer [%s]\n", p2->printername )); SAFE_FREE( data->keys ); ZERO_STRUCTP( data ); } return WERR_OK; } /**************************************************************************** ***************************************************************************/ WERROR delete_printer_data( NT_PRINTER_INFO_LEVEL_2 *p2, const char *key, const char *value ) { WERROR result = WERR_OK; int key_index; /* we must have names on non-zero length */ if ( !key || !*key|| !value || !*value ) return WERR_INVALID_NAME; /* find the printer key first */ key_index = lookup_printerkey( &p2->data, key ); if ( key_index == -1 ) return WERR_OK; /* make sure the value exists so we can return the correct error code */ if ( !regval_ctr_getvalue( &p2->data.keys[key_index].values, value ) ) return WERR_BADFILE; regval_ctr_delvalue( &p2->data.keys[key_index].values, value ); DEBUG(8,("delete_printer_data: Removed key => [%s], value => [%s]\n", key, value )); return result; } /**************************************************************************** ***************************************************************************/ WERROR add_printer_data( NT_PRINTER_INFO_LEVEL_2 *p2, const char *key, const char *value, uint32 type, uint8 *data, int real_len ) { WERROR result = WERR_OK; int key_index; /* we must have names on non-zero length */ if ( !key || !*key|| !value || !*value ) return WERR_INVALID_NAME; /* find the printer key first */ key_index = lookup_printerkey( &p2->data, key ); if ( key_index == -1 ) key_index = add_new_printer_key( &p2->data, key ); if ( key_index == -1 ) return WERR_NOMEM; regval_ctr_addvalue( &p2->data.keys[key_index].values, value, type, (const char *)data, real_len ); DEBUG(8,("add_printer_data: Added key => [%s], value => [%s], type=> [%d], size => [%d]\n", key, value, type, real_len )); return result; } /**************************************************************************** ***************************************************************************/ REGISTRY_VALUE* get_printer_data( NT_PRINTER_INFO_LEVEL_2 *p2, const char *key, const char *value ) { int key_index; if ( (key_index = lookup_printerkey( &p2->data, key )) == -1 ) return NULL; DEBUG(8,("get_printer_data: Attempting to lookup key => [%s], value => [%s]\n", key, value )); return regval_ctr_getvalue( &p2->data.keys[key_index].values, value ); } /**************************************************************************** Unpack a list of registry values frem the TDB ***************************************************************************/ static int unpack_values(NT_PRINTER_DATA *printer_data, char *buf, int buflen) { int len = 0; uint32 type; pstring string, valuename, keyname; char *str; int size; uint8 *data_p; REGISTRY_VALUE *regval_p; int key_index; /* add the "PrinterDriverData" key first for performance reasons */ add_new_printer_key( printer_data, SPOOL_PRINTERDATA_KEY ); /* loop and unpack the rest of the registry values */ while ( True ) { /* check to see if there are any more registry values */ len += tdb_unpack(buf+len, buflen-len, "p", ®val_p); if ( !regval_p ) break; /* unpack the next regval */ len += tdb_unpack(buf+len, buflen-len, "fdB", string, &type, &size, &data_p); /* * break of the keyname from the value name. * Should only be one '\' in the string returned. */ str = strrchr( string, '\\'); /* Put in "PrinterDriverData" is no key specified */ if ( !str ) { pstrcpy( keyname, SPOOL_PRINTERDATA_KEY ); pstrcpy( valuename, string ); } else { *str = '\0'; pstrcpy( keyname, string ); pstrcpy( valuename, str+1 ); } /* see if we need a new key */ if ( (key_index=lookup_printerkey( printer_data, keyname )) == -1 ) key_index = add_new_printer_key( printer_data, keyname ); if ( key_index == -1 ) { DEBUG(0,("unpack_values: Failed to allocate a new key [%s]!\n", keyname)); break; } /* add the new value */ regval_ctr_addvalue( &printer_data->keys[key_index].values, valuename, type, (const char *)data_p, size ); SAFE_FREE(data_p); /* 'B' option to tdbpack does a malloc() */ DEBUG(8,("specific: [%s:%s], len: %d\n", keyname, valuename, size)); } return len; } /**************************************************************************** ***************************************************************************/ static void map_to_os2_driver(fstring drivername) { static BOOL initialised=False; static fstring last_from,last_to; char *mapfile = lp_os2_driver_map(); char **lines = NULL; int numlines = 0; int i; if (!strlen(drivername)) return; if (!*mapfile) return; if (!initialised) { *last_from = *last_to = 0; initialised = True; } if (strequal(drivername,last_from)) { DEBUG(3,("Mapped Windows driver %s to OS/2 driver %s\n",drivername,last_to)); fstrcpy(drivername,last_to); return; } lines = file_lines_load(mapfile, &numlines); if (numlines == 0) { DEBUG(0,("No entries in OS/2 driver map %s\n",mapfile)); return; } DEBUG(4,("Scanning OS/2 driver map %s\n",mapfile)); for( i = 0; i < numlines; i++) { char *nt_name = lines[i]; char *os2_name = strchr(nt_name,'='); if (!os2_name) continue; *os2_name++ = 0; while (isspace(*nt_name)) nt_name++; if (!*nt_name || strchr("#;",*nt_name)) continue; { int l = strlen(nt_name); while (l && isspace(nt_name[l-1])) { nt_name[l-1] = 0; l--; } } while (isspace(*os2_name)) os2_name++; { int l = strlen(os2_name); while (l && isspace(os2_name[l-1])) { os2_name[l-1] = 0; l--; } } if (strequal(nt_name,drivername)) { DEBUG(3,("Mapped windows driver %s to os2 driver%s\n",drivername,os2_name)); fstrcpy(last_from,drivername); fstrcpy(last_to,os2_name); fstrcpy(drivername,os2_name); file_lines_free(lines); return; } } file_lines_free(lines); } /**************************************************************************** Get a default printer info 2 struct. ****************************************************************************/ static WERROR get_a_printer_2_default(NT_PRINTER_INFO_LEVEL_2 **info_ptr, const char *sharename) { int snum; NT_PRINTER_INFO_LEVEL_2 info; ZERO_STRUCT(info); snum = lp_servicenumber(sharename); slprintf(info.servername, sizeof(info.servername)-1, "\\\\%s", get_called_name()); slprintf(info.printername, sizeof(info.printername)-1, "\\\\%s\\%s", get_called_name(), sharename); fstrcpy(info.sharename, sharename); fstrcpy(info.portname, SAMBA_PRINTER_PORT_NAME); /* by setting the driver name to an empty string, a local NT admin can now run the **local** APW to install a local printer driver for a Samba shared printer in 2.2. Without this, drivers **must** be installed on the Samba server for NT clients --jerry */ #if 0 /* JERRY --do not uncomment-- */ if (!*info.drivername) fstrcpy(info.drivername, "NO DRIVER AVAILABLE FOR THIS PRINTER"); #endif DEBUG(10,("get_a_printer_2_default: driver name set to [%s]\n", info.drivername)); pstrcpy(info.comment, ""); fstrcpy(info.printprocessor, "winprint"); fstrcpy(info.datatype, "RAW"); info.attributes = PRINTER_ATTRIBUTE_SAMBA; info.starttime = 0; /* Minutes since 12:00am GMT */ info.untiltime = 0; /* Minutes since 12:00am GMT */ info.priority = 1; info.default_priority = 1; info.setuptime = (uint32)time(NULL); /* * I changed this as I think it is better to have a generic * DEVMODE than to crash Win2k explorer.exe --jerry * See the HP Deskjet 990c Win2k drivers for an example. * * However the default devmode appears to cause problems * with the HP CLJ 8500 PCL driver. Hence the addition of * the "default devmode" parameter --jerry 22/01/2002 */ if (lp_default_devmode(snum)) { if ((info.devmode = construct_nt_devicemode(info.printername)) == NULL) goto fail; } else { info.devmode = NULL; } /* This will get the current RPC talloc context, but we should be passing this as a parameter... fixme... JRA ! */ if (!nt_printing_getsec(get_talloc_ctx(), sharename, &info.secdesc_buf)) goto fail; *info_ptr = (NT_PRINTER_INFO_LEVEL_2 *)memdup(&info, sizeof(info)); if (! *info_ptr) { DEBUG(0,("get_a_printer_2_default: malloc fail.\n")); goto fail; } return WERR_OK; fail: if (info.devmode) free_nt_devicemode(&info.devmode); return WERR_ACCESS_DENIED; } /**************************************************************************** ****************************************************************************/ static WERROR get_a_printer_2(NT_PRINTER_INFO_LEVEL_2 **info_ptr, const char *sharename) { pstring key; NT_PRINTER_INFO_LEVEL_2 info; int len = 0; TDB_DATA kbuf, dbuf; fstring printername; char adevice[MAXDEVICENAME]; ZERO_STRUCT(info); slprintf(key, sizeof(key)-1, "%s%s", PRINTERS_PREFIX, sharename); kbuf.dptr = key; kbuf.dsize = strlen(key)+1; dbuf = tdb_fetch(tdb_printers, kbuf); if (!dbuf.dptr) return get_a_printer_2_default(info_ptr, sharename); len += tdb_unpack(dbuf.dptr+len, dbuf.dsize-len, "dddddddddddfffffPfffff", &info.attributes, &info.priority, &info.default_priority, &info.starttime, &info.untiltime, &info.status, &info.cjobs, &info.averageppm, &info.changeid, &info.c_setprinter, &info.setuptime, info.servername, info.printername, info.sharename, info.portname, info.drivername, info.comment, info.location, info.sepfile, info.printprocessor, info.datatype, info.parameters); /* Samba has to have shared raw drivers. */ info.attributes |= PRINTER_ATTRIBUTE_SAMBA; /* Restore the stripped strings. */ slprintf(info.servername, sizeof(info.servername)-1, "\\\\%s", get_called_name()); slprintf(printername, sizeof(printername)-1, "\\\\%s\\%s", get_called_name(), info.printername); fstrcpy(info.printername, printername); len += unpack_devicemode(&info.devmode,dbuf.dptr+len, dbuf.dsize-len); /* * Some client drivers freak out if there is a NULL devmode * (probably the driver is not checking before accessing * the devmode pointer) --jerry * * See comments in get_a_printer_2_default() */ if (lp_default_devmode(lp_servicenumber(sharename)) && !info.devmode) { DEBUG(8,("get_a_printer_2: Constructing a default device mode for [%s]\n", printername)); info.devmode = construct_nt_devicemode(printername); } safe_strcpy(adevice, info.printername, sizeof(adevice)-1); if (info.devmode) { fstrcpy(info.devmode->devicename, adevice); } len += unpack_values( &info.data, dbuf.dptr+len, dbuf.dsize-len ); /* This will get the current RPC talloc context, but we should be passing this as a parameter... fixme... JRA ! */ nt_printing_getsec(get_talloc_ctx(), sharename, &info.secdesc_buf); /* Fix for OS/2 drivers. */ if (get_remote_arch() == RA_OS2) map_to_os2_driver(info.drivername); SAFE_FREE(dbuf.dptr); *info_ptr=memdup(&info, sizeof(info)); DEBUG(9,("Unpacked printer [%s] name [%s] running driver [%s]\n", sharename, info.printername, info.drivername)); return WERR_OK; } /**************************************************************************** Debugging function, dump at level 6 the struct in the logs. ****************************************************************************/ static uint32 dump_a_printer(NT_PRINTER_INFO_LEVEL printer, uint32 level) { uint32 result; NT_PRINTER_INFO_LEVEL_2 *info2; DEBUG(106,("Dumping printer at level [%d]\n", level)); switch (level) { case 2: { if (printer.info_2 == NULL) result=5; else { info2=printer.info_2; DEBUGADD(106,("attributes:[%d]\n", info2->attributes)); DEBUGADD(106,("priority:[%d]\n", info2->priority)); DEBUGADD(106,("default_priority:[%d]\n", info2->default_priority)); DEBUGADD(106,("starttime:[%d]\n", info2->starttime)); DEBUGADD(106,("untiltime:[%d]\n", info2->untiltime)); DEBUGADD(106,("status:[%d]\n", info2->status)); DEBUGADD(106,("cjobs:[%d]\n", info2->cjobs)); DEBUGADD(106,("averageppm:[%d]\n", info2->averageppm)); DEBUGADD(106,("changeid:[%d]\n", info2->changeid)); DEBUGADD(106,("c_setprinter:[%d]\n", info2->c_setprinter)); DEBUGADD(106,("setuptime:[%d]\n", info2->setuptime)); DEBUGADD(106,("servername:[%s]\n", info2->servername)); DEBUGADD(106,("printername:[%s]\n", info2->printername)); DEBUGADD(106,("sharename:[%s]\n", info2->sharename)); DEBUGADD(106,("portname:[%s]\n", info2->portname)); DEBUGADD(106,("drivername:[%s]\n", info2->drivername)); DEBUGADD(106,("comment:[%s]\n", info2->comment)); DEBUGADD(106,("location:[%s]\n", info2->location)); DEBUGADD(106,("sepfile:[%s]\n", info2->sepfile)); DEBUGADD(106,("printprocessor:[%s]\n", info2->printprocessor)); DEBUGADD(106,("datatype:[%s]\n", info2->datatype)); DEBUGADD(106,("parameters:[%s]\n", info2->parameters)); result=0; } break; } default: DEBUGADD(106,("dump_a_printer: Level %u not implemented\n", (unsigned int)level )); result=1; break; } return result; } /**************************************************************************** Update the changeid time. This is SO NASTY as some drivers need this to change, others need it static. This value will change every second, and I must hope that this is enough..... DON'T CHANGE THIS CODE WITHOUT A TEST MATRIX THE SIZE OF UTAH ! JRA. ****************************************************************************/ static uint32 rev_changeid(void) { struct timeval tv; get_process_uptime(&tv); #if 1 /* JERRY */ /* Return changeid as msec since spooler restart */ return tv.tv_sec * 1000 + tv.tv_usec / 1000; #else /* * This setting seems to work well but is too untested * to replace the above calculation. Left in for experiementation * of the reader --jerry (Tue Mar 12 09:15:05 CST 2002) */ return tv.tv_sec * 10 + tv.tv_usec / 100000; #endif } /* * The function below are the high level ones. * only those ones must be called from the spoolss code. * JFM. */ /**************************************************************************** Modify a printer. This is called from SETPRINTERDATA/DELETEPRINTERDATA. ****************************************************************************/ WERROR mod_a_printer(NT_PRINTER_INFO_LEVEL printer, uint32 level) { WERROR result; dump_a_printer(printer, level); /* * invalidate cache for all open handles to this printer. * cache for a given handle will be updated on the next * get_a_printer() */ invalidate_printer_hnd_cache( printer.info_2->sharename ); switch (level) { case 2: { /* * Update the changestamp. Emperical tests show that the * ChangeID is always updated,but c_setprinter is * global spooler variable (not per printer). */ /* ChangeID **must** be increasing over the lifetime of client's spoolss service in order for the client's cache to show updates */ printer.info_2->changeid = rev_changeid(); /* * Because one day someone will ask: * NT->NT An admin connection to a remote * printer show changes imeediately in * the properities dialog * * A non-admin connection will only show the * changes after viewing the properites page * 2 times. Seems to be related to a * race condition in the client between the spooler * updating the local cache and the Explorer.exe GUI * actually displaying the properties. * * This is fixed in Win2k. admin/non-admin * connections both display changes immediately. * * 14/12/01 --jerry */ result=update_a_printer_2(printer.info_2); break; } default: result=WERR_UNKNOWN_LEVEL; break; } return result; } /**************************************************************************** Initialize printer devmode & data with previously saved driver init values. ****************************************************************************/ static BOOL set_driver_init_2( NT_PRINTER_INFO_LEVEL_2 *info_ptr ) { int len = 0; pstring key; TDB_DATA kbuf, dbuf; NT_PRINTER_INFO_LEVEL_2 info; ZERO_STRUCT(info); /* * Delete any printer data 'values' already set. When called for driver * replace, there will generally be some, but during an add printer, there * should not be any (if there are delete them). */ delete_all_printer_data( info_ptr, "" ); slprintf(key, sizeof(key)-1, "%s%s", DRIVER_INIT_PREFIX, info_ptr->drivername); kbuf.dptr = key; kbuf.dsize = strlen(key)+1; dbuf = tdb_fetch(tdb_drivers, kbuf); if (!dbuf.dptr) { /* * When changing to a driver that has no init info in the tdb, remove * the previous drivers init info and leave the new on blank. */ free_nt_devicemode(&info_ptr->devmode); return False; } /* * Get the saved DEVMODE.. */ len += unpack_devicemode(&info.devmode,dbuf.dptr+len, dbuf.dsize-len); /* * The saved DEVMODE contains the devicename from the printer used during * the initialization save. Change it to reflect the new printer. */ if ( info.devmode ) { ZERO_STRUCT(info.devmode->devicename); fstrcpy(info.devmode->devicename, info_ptr->printername); } /* * NT/2k does not change out the entire DeviceMode of a printer * when changing the driver. Only the driverextra, private, & * driverversion fields. --jerry (Thu Mar 14 08:58:43 CST 2002) * * Later examination revealed that Windows NT/2k does reset the * the printer's device mode, bit **only** when you change a * property of the device mode such as the page orientation. * --jerry */ /* Bind the saved DEVMODE to the new the printer */ free_nt_devicemode(&info_ptr->devmode); info_ptr->devmode = info.devmode; DEBUG(10,("set_driver_init_2: Set printer [%s] init %s DEVMODE for driver [%s]\n", info_ptr->printername, info_ptr->devmode?"VALID":"NULL", info_ptr->drivername)); /* Add the printer data 'values' to the new printer */ len += unpack_values( &info_ptr->data, dbuf.dptr+len, dbuf.dsize-len ); SAFE_FREE(dbuf.dptr); return True; } /**************************************************************************** Initialize printer devmode & data with previously saved driver init values. When a printer is created using AddPrinter, the drivername bound to the printer is used to lookup previously saved driver initialization info, which is bound to the new printer. ****************************************************************************/ BOOL set_driver_init(NT_PRINTER_INFO_LEVEL *printer, uint32 level) { BOOL result = False; switch (level) { case 2: result = set_driver_init_2(printer->info_2); break; default: DEBUG(0,("set_driver_init: Programmer's error! Unknown driver_init level [%d]\n", level)); break; } return result; } /**************************************************************************** Delete driver init data stored for a specified driver ****************************************************************************/ BOOL del_driver_init(char *drivername) { pstring key; TDB_DATA kbuf; if (!drivername || !*drivername) { DEBUG(3,("del_driver_init: No drivername specified!\n")); return False; } slprintf(key, sizeof(key)-1, "%s%s", DRIVER_INIT_PREFIX, drivername); kbuf.dptr = key; kbuf.dsize = strlen(key)+1; DEBUG(6,("del_driver_init: Removing driver init data for [%s]\n", drivername)); return (tdb_delete(tdb_drivers, kbuf) == 0); } /**************************************************************************** Pack up the DEVMODE and values for a printer into a 'driver init' entry in the tdb. Note: this is different from the driver entry and the printer entry. There should be a single driver init entry for each driver regardless of whether it was installed from NT or 2K. Technically, they should be different, but they work out to the same struct. ****************************************************************************/ static uint32 update_driver_init_2(NT_PRINTER_INFO_LEVEL_2 *info) { pstring key; char *buf; int buflen, len, ret; TDB_DATA kbuf, dbuf; buf = NULL; buflen = 0; again: len = 0; len += pack_devicemode(info->devmode, buf+len, buflen-len); len += pack_values( &info->data, buf+len, buflen-len ); if (buflen != len) { char *tb; tb = (char *)Realloc(buf, len); if (!tb) { DEBUG(0, ("update_driver_init_2: failed to enlarge buffer!\n")); ret = -1; goto done; } else buf = tb; buflen = len; goto again; } slprintf(key, sizeof(key)-1, "%s%s", DRIVER_INIT_PREFIX, info->drivername); kbuf.dptr = key; kbuf.dsize = strlen(key)+1; dbuf.dptr = buf; dbuf.dsize = len; ret = tdb_store(tdb_drivers, kbuf, dbuf, TDB_REPLACE); done: if (ret == -1) DEBUG(8, ("update_driver_init_2: error updating printer init to tdb on disk\n")); SAFE_FREE(buf); DEBUG(10,("update_driver_init_2: Saved printer [%s] init DEVMODE & values for driver [%s]\n", info->sharename, info->drivername)); return ret; } /**************************************************************************** Update (i.e. save) the driver init info (DEVMODE and values) for a printer ****************************************************************************/ uint32 update_driver_init(NT_PRINTER_INFO_LEVEL printer, uint32 level) { uint32 result; dump_a_printer(printer, level); switch (level) { case 2: result = update_driver_init_2(printer.info_2); break; default: result = 1; break; } return result; } /**************************************************************************** Convert the printer data value, a REG_BINARY array, into an initialization DEVMODE. Note: the array must be parsed as if it was a DEVMODE in an rpc... got to keep the endians happy :). ****************************************************************************/ static BOOL convert_driver_init( TALLOC_CTX *ctx, NT_DEVICEMODE *nt_devmode, uint8 *data, uint32 data_len ) { BOOL result = False; prs_struct ps; DEVICEMODE devmode; ZERO_STRUCT(devmode); prs_init(&ps, 0, ctx, UNMARSHALL); ps.data_p = (char *)data; ps.buffer_size = data_len; if (spoolss_io_devmode("phantom DEVMODE", &ps, 0, &devmode)) result = convert_devicemode("", &devmode, &nt_devmode); else DEBUG(10,("convert_driver_init: error parsing DEVMODE\n")); return result; } /**************************************************************************** Set the DRIVER_INIT info in the tdb. Requires Win32 client code that: 1. Use the driver's config DLL to this UNC printername and: a. Call DrvPrintEvent with PRINTER_EVENT_INITIALIZE b. Call DrvConvertDevMode with CDM_DRIVER_DEFAULT to get default DEVMODE 2. Call SetPrinterData with the 'magic' key and the DEVMODE as data. The last step triggers saving the "driver initialization" information for this printer into the tdb. Later, new printers that use this driver will have this initialization information bound to them. This simulates the driver initialization, as if it had run on the Samba server (as it would have done on NT). The Win32 client side code requirement sucks! But until we can run arbitrary Win32 printer driver code on any Unix that Samba runs on, we are stuck with it. It would have been easier to use SetPrinter because all the UNMARSHALLING of the DEVMODE is done there, but 2K/XP clients do not set the DEVMODE... think about it and you will realize why. JRR 010720 ****************************************************************************/ static WERROR save_driver_init_2(NT_PRINTER_INFO_LEVEL *printer, uint8 *data, uint32 data_len ) { WERROR status = WERR_OK; TALLOC_CTX *ctx = NULL; NT_DEVICEMODE *nt_devmode = NULL; NT_DEVICEMODE *tmp_devmode = printer->info_2->devmode; /* * When the DEVMODE is already set on the printer, don't try to unpack it. */ DEBUG(8,("save_driver_init_2: Enter...\n")); if ( !printer->info_2->devmode && data_len ) { /* * Set devmode on printer info, so entire printer initialization can be * saved to tdb. */ if ((ctx = talloc_init("save_driver_init_2")) == NULL) return WERR_NOMEM; if ((nt_devmode = (NT_DEVICEMODE*)malloc(sizeof(NT_DEVICEMODE))) == NULL) { status = WERR_NOMEM; goto done; } ZERO_STRUCTP(nt_devmode); /* * The DEVMODE is held in the 'data' component of the param in raw binary. * Convert it to to a devmode structure */ if ( !convert_driver_init( ctx, nt_devmode, data, data_len )) { DEBUG(10,("save_driver_init_2: error converting DEVMODE\n")); status = WERR_INVALID_PARAM; goto done; } printer->info_2->devmode = nt_devmode; } /* * Pack up and add (or update) the DEVMODE and any current printer data to * a 'driver init' element in the tdb * */ if ( update_driver_init(*printer, 2) != 0 ) { DEBUG(10,("save_driver_init_2: error updating DEVMODE\n")); status = WERR_NOMEM; goto done; } /* * If driver initialization info was successfully saved, set the current * printer to match it. This allows initialization of the current printer * as well as the driver. */ status = mod_a_printer(*printer, 2); if (!W_ERROR_IS_OK(status)) { DEBUG(10,("save_driver_init_2: error setting DEVMODE on printer [%s]\n", printer->info_2->printername)); } done: talloc_destroy(ctx); free_nt_devicemode( &nt_devmode ); printer->info_2->devmode = tmp_devmode; return status; } /**************************************************************************** Update the driver init info (DEVMODE and specifics) for a printer ****************************************************************************/ WERROR save_driver_init(NT_PRINTER_INFO_LEVEL *printer, uint32 level, uint8 *data, uint32 data_len) { WERROR status = WERR_OK; switch (level) { case 2: status = save_driver_init_2( printer, data, data_len ); break; default: status = WERR_UNKNOWN_LEVEL; break; } return status; } /**************************************************************************** Deep copy a NT_PRINTER_DATA ****************************************************************************/ static NTSTATUS copy_printer_data( NT_PRINTER_DATA *dst, NT_PRINTER_DATA *src ) { int i, j, num_vals, new_key_index; REGVAL_CTR *src_key, *dst_key; if ( !dst || !src ) return NT_STATUS_NO_MEMORY; for ( i=0; inum_keys; i++ ) { /* create a new instance of the printerkey in the destination printer_data object */ new_key_index = add_new_printer_key( dst, src->keys[i].name ); dst_key = &dst->keys[new_key_index].values; src_key = &src->keys[i].values; num_vals = regval_ctr_numvals( src_key ); /* dup the printer entire printer key */ for ( j=0; jdevmode = dup_nt_devicemode( printer->devmode ); ZERO_STRUCT( copy->data ); copy_printer_data( ©->data, &printer->data ); /* this is talloc()'d; very ugly that we have a structure that is half malloc()'d and half talloc()'d but that is the way that the PRINTER_INFO stuff is written right now. --jerry */ copy->secdesc_buf = dup_sec_desc_buf( ctx, printer->secdesc_buf ); return copy; } /**************************************************************************** Get a NT_PRINTER_INFO_LEVEL struct. It returns malloced memory. Previously the code had a memory allocation problem because it always used the TALLOC_CTX from the Printer_entry*. This context lasts as a long as the original handle is open. So if the client made a lot of getprinter[data]() calls, the memory usage would climb. Now we use a short lived TALLOC_CTX for printer_info_2 objects returned. We still use the Printer_entry->ctx for maintaining the cache copy though since that object must live as long as the handle by definition. --jerry ****************************************************************************/ WERROR get_a_printer( Printer_entry *print_hnd, NT_PRINTER_INFO_LEVEL **pp_printer, uint32 level, const char *sharename) { WERROR result; NT_PRINTER_INFO_LEVEL *printer = NULL; *pp_printer = NULL; DEBUG(10,("get_a_printer: [%s] level %u\n", sharename, (unsigned int)level)); switch (level) { case 2: if ((printer = (NT_PRINTER_INFO_LEVEL *)malloc(sizeof(NT_PRINTER_INFO_LEVEL))) == NULL) { DEBUG(0,("get_a_printer: malloc fail.\n")); return WERR_NOMEM; } ZERO_STRUCTP(printer); /* * check for cache first. A Printer handle cannot changed * to another printer object so we only check that the printer * is actually for a printer and that the printer_info pointer * is valid */ if ( print_hnd && (print_hnd->printer_type==PRINTER_HANDLE_IS_PRINTER) && print_hnd->printer_info ) { /* get_talloc_ctx() works here because we need a short lived talloc context */ if ( !(printer->info_2 = dup_printer_2(get_talloc_ctx(), print_hnd->printer_info->info_2)) ) { DEBUG(0,("get_a_printer: unable to copy cached printer info!\n")); SAFE_FREE(printer); return WERR_NOMEM; } DEBUG(10,("get_a_printer: using cached copy of printer_info_2\n")); *pp_printer = printer; result = WERR_OK; break; } /* no cache for this handle; see if we can match one from another handle. Make sure to use a short lived talloc ctx */ if ( print_hnd ) result = find_printer_in_print_hnd_cache(get_talloc_ctx(), &printer->info_2, sharename); /* fail to disk if we don't have it with any open handle */ if ( !print_hnd || !W_ERROR_IS_OK(result) ) result = get_a_printer_2(&printer->info_2, sharename); /* we have a new printer now. Save it with this handle */ if ( W_ERROR_IS_OK(result) ) { dump_a_printer(*printer, level); /* save a copy in cache */ if ( print_hnd && (print_hnd->printer_type==PRINTER_HANDLE_IS_PRINTER)) { if ( !print_hnd->printer_info ) print_hnd->printer_info = (NT_PRINTER_INFO_LEVEL *)malloc(sizeof(NT_PRINTER_INFO_LEVEL)); if ( print_hnd->printer_info ) { /* make sure to use the handle's talloc ctx here since the printer_2 object must last until the handle is closed */ print_hnd->printer_info->info_2 = dup_printer_2(print_hnd->ctx, printer->info_2); /* don't fail the lookup just because the cache update failed */ if ( !print_hnd->printer_info->info_2 ) DEBUG(0,("get_a_printer: unable to copy new printer info!\n")); } } *pp_printer = printer; } else SAFE_FREE(printer); break; default: result=WERR_UNKNOWN_LEVEL; break; } DEBUG(10,("get_a_printer: [%s] level %u returning %s\n", sharename, (unsigned int)level, dos_errstr(result))); return result; } /**************************************************************************** Deletes a NT_PRINTER_INFO_LEVEL struct. ****************************************************************************/ uint32 free_a_printer(NT_PRINTER_INFO_LEVEL **pp_printer, uint32 level) { uint32 result; NT_PRINTER_INFO_LEVEL *printer = *pp_printer; DEBUG(104,("freeing a printer at level [%d]\n", level)); if (printer == NULL) return 0; switch (level) { case 2: if (printer->info_2 != NULL) { free_nt_printer_info_level_2(&printer->info_2); result=0; } else result=4; break; default: result=1; break; } SAFE_FREE(*pp_printer); return result; } /**************************************************************************** ****************************************************************************/ uint32 add_a_printer_driver(NT_PRINTER_DRIVER_INFO_LEVEL driver, uint32 level) { uint32 result; DEBUG(104,("adding a printer at level [%d]\n", level)); dump_a_printer_driver(driver, level); switch (level) { case 3: result=add_a_printer_driver_3(driver.info_3); break; case 6: result=add_a_printer_driver_6(driver.info_6); break; default: result=1; break; } return result; } /**************************************************************************** ****************************************************************************/ WERROR get_a_printer_driver(NT_PRINTER_DRIVER_INFO_LEVEL *driver, uint32 level, fstring drivername, const char *architecture, uint32 version) { WERROR result; switch (level) { case 3: /* Sometime we just want any version of the driver */ if ( version == DRIVER_ANY_VERSION ) { /* look for Win2k first and then for NT4 */ result = get_a_printer_driver_3(&driver->info_3, drivername, architecture, 3); if ( !W_ERROR_IS_OK(result) ) { result = get_a_printer_driver_3( &driver->info_3, drivername, architecture, 2 ); } } else { result = get_a_printer_driver_3(&driver->info_3, drivername, architecture, version); } break; default: result=W_ERROR(1); break; } if (W_ERROR_IS_OK(result)) dump_a_printer_driver(*driver, level); return result; } /**************************************************************************** ****************************************************************************/ uint32 free_a_printer_driver(NT_PRINTER_DRIVER_INFO_LEVEL driver, uint32 level) { uint32 result; switch (level) { case 3: { NT_PRINTER_DRIVER_INFO_LEVEL_3 *info3; if (driver.info_3 != NULL) { info3=driver.info_3; SAFE_FREE(info3->dependentfiles); ZERO_STRUCTP(info3); SAFE_FREE(info3); result=0; } else { result=4; } break; } case 6: { NT_PRINTER_DRIVER_INFO_LEVEL_6 *info6; if (driver.info_6 != NULL) { info6=driver.info_6; SAFE_FREE(info6->dependentfiles); SAFE_FREE(info6->previousnames); ZERO_STRUCTP(info6); SAFE_FREE(info6); result=0; } else { result=4; } break; } default: result=1; break; } return result; } /**************************************************************************** Determine whether or not a particular driver is currently assigned to a printer ****************************************************************************/ BOOL printer_driver_in_use ( NT_PRINTER_DRIVER_INFO_LEVEL_3 *info_3 ) { int snum; int n_services = lp_numservices(); NT_PRINTER_INFO_LEVEL *printer = NULL; if ( !info_3 ) return False; DEBUG(5,("printer_driver_in_use: Beginning search through ntprinters.tdb...\n")); /* loop through the printers.tdb and check for the drivername */ for (snum=0; snumname, printer->info_2->drivername) ) { free_a_printer( &printer, 2 ); return True; } free_a_printer( &printer, 2 ); } DEBUG(5,("printer_driver_in_use: Completed search through ntprinters.tdb...\n")); /* report that the driver is not in use by default */ return False; } /********************************************************************** Check to see if a ogiven file is in use by *info *********************************************************************/ static BOOL drv_file_in_use( char* file, NT_PRINTER_DRIVER_INFO_LEVEL_3 *info ) { int i = 0; if ( !info ) return False; if ( strequal(file, info->driverpath) ) return True; if ( strequal(file, info->datafile) ) return True; if ( strequal(file, info->configfile) ) return True; if ( strequal(file, info->helpfile) ) return True; /* see of there are any dependent files to examine */ if ( !info->dependentfiles ) return False; while ( *info->dependentfiles[i] ) { if ( strequal(file, info->dependentfiles[i]) ) return True; i++; } return False; } /********************************************************************** Utility function to remove the dependent file pointed to by the input parameter from the list *********************************************************************/ static void trim_dependent_file( fstring files[], int idx ) { /* bump everything down a slot */ while( *files[idx+1] ) { fstrcpy( files[idx], files[idx+1] ); idx++; } *files[idx] = '\0'; return; } /********************************************************************** Check if any of the files used by src are also used by drv *********************************************************************/ static BOOL trim_overlap_drv_files( NT_PRINTER_DRIVER_INFO_LEVEL_3 *src, NT_PRINTER_DRIVER_INFO_LEVEL_3 *drv ) { BOOL in_use = False; int i = 0; if ( !src || !drv ) return False; /* check each file. Remove it from the src structure if it overlaps */ if ( drv_file_in_use(src->driverpath, drv) ) { in_use = True; DEBUG(10,("Removing driverfile [%s] from list\n", src->driverpath)); fstrcpy( src->driverpath, "" ); } if ( drv_file_in_use(src->datafile, drv) ) { in_use = True; DEBUG(10,("Removing datafile [%s] from list\n", src->datafile)); fstrcpy( src->datafile, "" ); } if ( drv_file_in_use(src->configfile, drv) ) { in_use = True; DEBUG(10,("Removing configfile [%s] from list\n", src->configfile)); fstrcpy( src->configfile, "" ); } if ( drv_file_in_use(src->helpfile, drv) ) { in_use = True; DEBUG(10,("Removing helpfile [%s] from list\n", src->helpfile)); fstrcpy( src->helpfile, "" ); } /* are there any dependentfiles to examine? */ if ( !src->dependentfiles ) return in_use; while ( *src->dependentfiles[i] ) { if ( drv_file_in_use(src->dependentfiles[i], drv) ) { in_use = True; DEBUG(10,("Removing [%s] from dependent file list\n", src->dependentfiles[i])); trim_dependent_file( src->dependentfiles, i ); } else i++; } return in_use; } /**************************************************************************** Determine whether or not a particular driver files are currently being used by any other driver. Return value is True if any files were in use by other drivers and False otherwise. Upon return, *info has been modified to only contain the driver files which are not in use ****************************************************************************/ BOOL printer_driver_files_in_use ( NT_PRINTER_DRIVER_INFO_LEVEL_3 *info ) { int i; int ndrivers; uint32 version; fstring *list = NULL; NT_PRINTER_DRIVER_INFO_LEVEL driver; if ( !info ) return False; version = info->cversion; /* loop over all driver versions */ DEBUG(5,("printer_driver_files_in_use: Beginning search through ntdrivers.tdb...\n")); /* get the list of drivers */ list = NULL; ndrivers = get_ntdrivers(&list, info->environment, version); DEBUGADD(4,("we have:[%d] drivers in environment [%s] and version [%d]\n", ndrivers, info->environment, version)); /* check each driver for overlap in files */ for (i=0; ienvironment, version)) ) { SAFE_FREE(list); return True; } /* check if d2 uses any files from d1 */ /* only if this is a different driver than the one being deleted */ if ( !strequal(info->name, driver.info_3->name) ) { if ( trim_overlap_drv_files(info, driver.info_3) ) { free_a_printer_driver(driver, 3); SAFE_FREE( list ); return True; } } free_a_printer_driver(driver, 3); } SAFE_FREE(list); DEBUG(5,("printer_driver_files_in_use: Completed search through ntdrivers.tdb...\n")); driver.info_3 = info; if ( DEBUGLEVEL >= 20 ) dump_a_printer_driver( driver, 3 ); return False; } /**************************************************************************** Actually delete the driver files. Make sure that printer_driver_files_in_use() return False before calling this. ****************************************************************************/ static BOOL delete_driver_files( NT_PRINTER_DRIVER_INFO_LEVEL_3 *info_3, struct current_user *user ) { int i = 0; char *s; connection_struct *conn; DATA_BLOB null_pw; NTSTATUS nt_status; fstring res_type; if ( !info_3 ) return False; DEBUG(6,("delete_driver_files: deleting driver [%s] - version [%d]\n", info_3->name, info_3->cversion)); /* * Connect to the print$ share under the same account as the * user connected to the rpc pipe. Note we must be root to * do this. */ null_pw = data_blob( NULL, 0 ); fstrcpy(res_type, "A:"); become_root(); conn = make_connection_with_chdir( "print$", null_pw, res_type, user->vuid, &nt_status ); unbecome_root(); if ( !conn ) { DEBUG(0,("delete_driver_files: Unable to connect\n")); return False; } /* Save who we are - we are temporarily becoming the connection user. */ if ( !become_user(conn, conn->vuid) ) { DEBUG(0,("delete_driver_files: Can't become user!\n")); return False; } /* now delete the files; must strip the '\print$' string from fron of path */ if ( *info_3->driverpath ) { if ( (s = strchr( &info_3->driverpath[1], '\\' )) != NULL ) { DEBUG(10,("deleting driverfile [%s]\n", s)); unlink_internals(conn, 0, s); } } if ( *info_3->configfile ) { if ( (s = strchr( &info_3->configfile[1], '\\' )) != NULL ) { DEBUG(10,("deleting configfile [%s]\n", s)); unlink_internals(conn, 0, s); } } if ( *info_3->datafile ) { if ( (s = strchr( &info_3->datafile[1], '\\' )) != NULL ) { DEBUG(10,("deleting datafile [%s]\n", s)); unlink_internals(conn, 0, s); } } if ( *info_3->helpfile ) { if ( (s = strchr( &info_3->helpfile[1], '\\' )) != NULL ) { DEBUG(10,("deleting helpfile [%s]\n", s)); unlink_internals(conn, 0, s); } } /* check if we are done removing files */ if ( info_3->dependentfiles ) { while ( *info_3->dependentfiles[i] ) { char *file; /* bypass the "\print$" portion of the path */ if ( (file = strchr( info_3->dependentfiles[i]+1, '\\' )) != NULL ) { DEBUG(10,("deleting dependent file [%s]\n", file)); unlink_internals(conn, 0, file ); } i++; } } unbecome_user(); return True; } /**************************************************************************** Remove a printer driver from the TDB. This assumes that the the driver was previously looked up. ***************************************************************************/ WERROR delete_printer_driver( NT_PRINTER_DRIVER_INFO_LEVEL_3 *info_3, struct current_user *user, uint32 version, BOOL delete_files ) { pstring key; const char *arch; TDB_DATA kbuf, dbuf; NT_PRINTER_DRIVER_INFO_LEVEL ctr; /* delete the tdb data first */ arch = get_short_archi(info_3->environment); slprintf(key, sizeof(key)-1, "%s%s/%d/%s", DRIVERS_PREFIX, arch, version, info_3->name); DEBUG(5,("delete_printer_driver: key = [%s] delete_files = %s\n", key, delete_files ? "TRUE" : "FALSE" )); ctr.info_3 = info_3; dump_a_printer_driver( ctr, 3 ); kbuf.dptr=key; kbuf.dsize=strlen(key)+1; /* check if the driver actually exists for this environment */ dbuf = tdb_fetch( tdb_drivers, kbuf ); if ( !dbuf.dptr ) { DEBUG(8,("delete_printer_driver: Driver unknown [%s]\n", key)); return WERR_UNKNOWN_PRINTER_DRIVER; } SAFE_FREE( dbuf.dptr ); /* ok... the driver exists so the delete should return success */ if (tdb_delete(tdb_drivers, kbuf) == -1) { DEBUG (0,("delete_printer_driver: fail to delete %s!\n", key)); return WERR_ACCESS_DENIED; } /* * now delete any associated files if delete_files == True * even if this part failes, we return succes because the * driver doesn not exist any more */ if ( delete_files ) delete_driver_files( info_3, user ); DEBUG(5,("delete_printer_driver: driver delete successful [%s]\n", key)); return WERR_OK; } /**************************************************************************** Store a security desc for a printer. ****************************************************************************/ WERROR nt_printing_setsec(const char *printername, SEC_DESC_BUF *secdesc_ctr) { SEC_DESC_BUF *new_secdesc_ctr = NULL; SEC_DESC_BUF *old_secdesc_ctr = NULL; prs_struct ps; TALLOC_CTX *mem_ctx = NULL; fstring key; WERROR status; mem_ctx = talloc_init("nt_printing_setsec"); if (mem_ctx == NULL) return WERR_NOMEM; /* The old owner and group sids of the security descriptor are not present when new ACEs are added or removed by changing printer permissions through NT. If they are NULL in the new security descriptor then copy them over from the old one. */ if (!secdesc_ctr->sec->owner_sid || !secdesc_ctr->sec->grp_sid) { DOM_SID *owner_sid, *group_sid; SEC_ACL *dacl, *sacl; SEC_DESC *psd = NULL; size_t size; nt_printing_getsec(mem_ctx, printername, &old_secdesc_ctr); /* Pick out correct owner and group sids */ owner_sid = secdesc_ctr->sec->owner_sid ? secdesc_ctr->sec->owner_sid : old_secdesc_ctr->sec->owner_sid; group_sid = secdesc_ctr->sec->grp_sid ? secdesc_ctr->sec->grp_sid : old_secdesc_ctr->sec->grp_sid; dacl = secdesc_ctr->sec->dacl ? secdesc_ctr->sec->dacl : old_secdesc_ctr->sec->dacl; sacl = secdesc_ctr->sec->sacl ? secdesc_ctr->sec->sacl : old_secdesc_ctr->sec->sacl; /* Make a deep copy of the security descriptor */ psd = make_sec_desc(mem_ctx, secdesc_ctr->sec->revision, secdesc_ctr->sec->type, owner_sid, group_sid, sacl, dacl, &size); new_secdesc_ctr = make_sec_desc_buf(mem_ctx, size, psd); } if (!new_secdesc_ctr) { new_secdesc_ctr = secdesc_ctr; } /* Store the security descriptor in a tdb */ prs_init(&ps, (uint32)sec_desc_size(new_secdesc_ctr->sec) + sizeof(SEC_DESC_BUF), mem_ctx, MARSHALL); if (!sec_io_desc_buf("nt_printing_setsec", &new_secdesc_ctr, &ps, 1)) { status = WERR_BADFUNC; goto out; } slprintf(key, sizeof(key)-1, "SECDESC/%s", printername); if (tdb_prs_store(tdb_printers, key, &ps)==0) { status = WERR_OK; } else { DEBUG(1,("Failed to store secdesc for %s\n", printername)); status = WERR_BADFUNC; } /* Free malloc'ed memory */ out: prs_mem_free(&ps); if (mem_ctx) talloc_destroy(mem_ctx); return status; } /**************************************************************************** Construct a default security descriptor buffer for a printer. ****************************************************************************/ static SEC_DESC_BUF *construct_default_printer_sdb(TALLOC_CTX *ctx) { SEC_ACE ace[3]; SEC_ACCESS sa; SEC_ACL *psa = NULL; SEC_DESC_BUF *sdb = NULL; SEC_DESC *psd = NULL; DOM_SID owner_sid; size_t sd_size; /* Create an ACE where Everyone is allowed to print */ init_sec_access(&sa, PRINTER_ACE_PRINT); init_sec_ace(&ace[0], &global_sid_World, SEC_ACE_TYPE_ACCESS_ALLOWED, sa, SEC_ACE_FLAG_CONTAINER_INHERIT); /* Make the security descriptor owned by the Administrators group on the PDC of the domain. */ if (secrets_fetch_domain_sid(lp_workgroup(), &owner_sid)) { sid_append_rid(&owner_sid, DOMAIN_USER_RID_ADMIN); } else { /* Backup plan - make printer owned by admins. This should emulate a lanman printer as security settings can't be changed. */ sid_copy(&owner_sid, get_global_sam_sid()); sid_append_rid(&owner_sid, DOMAIN_USER_RID_ADMIN); } init_sec_access(&sa, PRINTER_ACE_FULL_CONTROL); init_sec_ace(&ace[1], &owner_sid, SEC_ACE_TYPE_ACCESS_ALLOWED, sa, SEC_ACE_FLAG_OBJECT_INHERIT | SEC_ACE_FLAG_INHERIT_ONLY); init_sec_access(&sa, PRINTER_ACE_FULL_CONTROL); init_sec_ace(&ace[2], &owner_sid, SEC_ACE_TYPE_ACCESS_ALLOWED, sa, SEC_ACE_FLAG_CONTAINER_INHERIT); /* The ACL revision number in rpc_secdesc.h differs from the one created by NT when setting ACE entries in printer descriptors. NT4 complains about the property being edited by a NT5 machine. */ if ((psa = make_sec_acl(ctx, NT4_ACL_REVISION, 3, ace)) != NULL) { psd = make_sec_desc(ctx, SEC_DESC_REVISION, SEC_DESC_SELF_RELATIVE, &owner_sid, NULL, NULL, psa, &sd_size); } if (!psd) { DEBUG(0,("construct_default_printer_sd: Failed to make SEC_DESC.\n")); return NULL; } sdb = make_sec_desc_buf(ctx, sd_size, psd); DEBUG(4,("construct_default_printer_sdb: size = %u.\n", (unsigned int)sd_size)); return sdb; } /**************************************************************************** Get a security desc for a printer. ****************************************************************************/ BOOL nt_printing_getsec(TALLOC_CTX *ctx, const char *printername, SEC_DESC_BUF **secdesc_ctr) { prs_struct ps; fstring key; char *temp; if (strlen(printername) > 2 && (temp = strchr(printername + 2, '\\'))) { printername = temp + 1; } /* Fetch security descriptor from tdb */ slprintf(key, sizeof(key)-1, "SECDESC/%s", printername); if (tdb_prs_fetch(tdb_printers, key, &ps, ctx)!=0 || !sec_io_desc_buf("nt_printing_getsec", secdesc_ctr, &ps, 1)) { DEBUG(4,("using default secdesc for %s\n", printername)); if (!(*secdesc_ctr = construct_default_printer_sdb(ctx))) { return False; } /* Save default security descriptor for later */ prs_init(&ps, (uint32)sec_desc_size((*secdesc_ctr)->sec) + sizeof(SEC_DESC_BUF), ctx, MARSHALL); if (sec_io_desc_buf("nt_printing_getsec", secdesc_ctr, &ps, 1)) tdb_prs_store(tdb_printers, key, &ps); prs_mem_free(&ps); return True; } /* If security descriptor is owned by S-1-1-0 and winbindd is up, this security descriptor has been created when winbindd was down. Take ownership of security descriptor. */ if (sid_equal((*secdesc_ctr)->sec->owner_sid, &global_sid_World)) { DOM_SID owner_sid; /* Change sd owner to workgroup administrator */ if (secrets_fetch_domain_sid(lp_workgroup(), &owner_sid)) { SEC_DESC_BUF *new_secdesc_ctr = NULL; SEC_DESC *psd = NULL; size_t size; /* Create new sd */ sid_append_rid(&owner_sid, DOMAIN_USER_RID_ADMIN); psd = make_sec_desc(ctx, (*secdesc_ctr)->sec->revision, (*secdesc_ctr)->sec->type, &owner_sid, (*secdesc_ctr)->sec->grp_sid, (*secdesc_ctr)->sec->sacl, (*secdesc_ctr)->sec->dacl, &size); new_secdesc_ctr = make_sec_desc_buf(ctx, size, psd); /* Swap with other one */ *secdesc_ctr = new_secdesc_ctr; /* Set it */ nt_printing_setsec(printername, *secdesc_ctr); } } if (DEBUGLEVEL >= 10) { SEC_ACL *the_acl = (*secdesc_ctr)->sec->dacl; int i; DEBUG(10, ("secdesc_ctr for %s has %d aces:\n", printername, the_acl->num_aces)); for (i = 0; i < the_acl->num_aces; i++) { fstring sid_str; sid_to_string(sid_str, &the_acl->ace[i].trustee); DEBUG(10, ("%s %d %d 0x%08x\n", sid_str, the_acl->ace[i].type, the_acl->ace[i].flags, the_acl->ace[i].info.mask)); } } prs_mem_free(&ps); return True; } /* error code: 0: everything OK 1: level not implemented 2: file doesn't exist 3: can't allocate memory 4: can't free memory 5: non existant struct */ /* A printer and a printer driver are 2 different things. NT manages them separatelly, Samba does the same. Why ? Simply because it's easier and it makes sense ! Now explanation: You have 3 printers behind your samba server, 2 of them are the same make and model (laser A and B). But laser B has an 3000 sheet feeder and laser A doesn't such an option. Your third printer is an old dot-matrix model for the accounting :-). If the /usr/local/samba/lib directory (default dir), you will have 5 files to describe all of this. 3 files for the printers (1 by printer): NTprinter_laser A NTprinter_laser B NTprinter_accounting 2 files for the drivers (1 for the laser and 1 for the dot matrix) NTdriver_printer model X NTdriver_printer model Y jfm: I should use this comment for the text file to explain same thing for the forms BTW. Je devrais mettre mes commentaires en francais, ca serait mieux :-) */ /* Convert generic access rights to printer object specific access rights. It turns out that NT4 security descriptors use generic access rights and NT5 the object specific ones. */ void map_printer_permissions(SEC_DESC *sd) { int i; for (i = 0; sd->dacl && i < sd->dacl->num_aces; i++) { se_map_generic(&sd->dacl->ace[i].info.mask, &printer_generic_mapping); } } /**************************************************************************** Check a user has permissions to perform the given operation. We use the permission constants defined in include/rpc_spoolss.h to check the various actions we perform when checking printer access. PRINTER_ACCESS_ADMINISTER: print_queue_pause, print_queue_resume, update_printer_sec, update_printer, spoolss_addprinterex_level_2, _spoolss_setprinterdata PRINTER_ACCESS_USE: print_job_start JOB_ACCESS_ADMINISTER: print_job_delete, print_job_pause, print_job_resume, print_queue_purge ****************************************************************************/ BOOL print_access_check(struct current_user *user, int snum, int access_type) { SEC_DESC_BUF *secdesc = NULL; uint32 access_granted; NTSTATUS status; BOOL result; const char *pname; TALLOC_CTX *mem_ctx = NULL; extern struct current_user current_user; /* If user is NULL then use the current_user structure */ if (!user) user = ¤t_user; /* Always allow root or printer admins to do anything */ if (user->uid == 0 || user_in_list(uidtoname(user->uid), lp_printer_admin(snum), user->groups, user->ngroups)) { return True; } /* Get printer name */ pname = PRINTERNAME(snum); if (!pname || !*pname) { errno = EACCES; return False; } /* Get printer security descriptor */ if(!(mem_ctx = talloc_init("print_access_check"))) { errno = ENOMEM; return False; } nt_printing_getsec(mem_ctx, pname, &secdesc); if (access_type == JOB_ACCESS_ADMINISTER) { SEC_DESC_BUF *parent_secdesc = secdesc; /* Create a child security descriptor to check permissions against. This is because print jobs are child objects objects of a printer. */ secdesc = se_create_child_secdesc(mem_ctx, parent_secdesc->sec, False); /* Now this is the bit that really confuses me. The access type needs to be changed from JOB_ACCESS_ADMINISTER to PRINTER_ACCESS_ADMINISTER for this to work. Something to do with the child (job) object becoming like a printer?? -tpot */ access_type = PRINTER_ACCESS_ADMINISTER; } /* Check access */ map_printer_permissions(secdesc->sec); result = se_access_check(secdesc->sec, user->nt_user_token, access_type, &access_granted, &status); DEBUG(4, ("access check was %s\n", result ? "SUCCESS" : "FAILURE")); talloc_destroy(mem_ctx); if (!result) errno = EACCES; return result; } /**************************************************************************** Check the time parameters allow a print operation. *****************************************************************************/ BOOL print_time_access_check(int snum) { NT_PRINTER_INFO_LEVEL *printer = NULL; BOOL ok = False; time_t now = time(NULL); struct tm *t; uint32 mins; if (!W_ERROR_IS_OK(get_a_printer(NULL, &printer, 2, lp_servicename(snum)))) return False; if (printer->info_2->starttime == 0 && printer->info_2->untiltime == 0) ok = True; t = gmtime(&now); mins = (uint32)t->tm_hour*60 + (uint32)t->tm_min; if (mins >= printer->info_2->starttime && mins <= printer->info_2->untiltime) ok = True; free_a_printer(&printer, 2); if (!ok) errno = EACCES; return ok; }