/* Unix SMB/CIFS implementation. Parameter loading functions Copyright (C) Karl Auer 1993-1998 Largely re-written by Andrew Tridgell, September 1994 Copyright (C) Simo Sorce 2001 Copyright (C) Alexander Bokovoy 2002 Copyright (C) Stefan (metze) Metzmacher 2002 Copyright (C) Jim McDonough (jmcd@us.ibm.com) 2003. Copyright (C) James Myers 2003 Copyright (C) Jelmer Vernooij 2007 Copyright (C) Andrew Bartlett 2011-2012 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ /* * Load parameters. * * This module provides suitable callback functions for the params * module. It builds the internal table of service details which is * then used by the rest of the server. * * To add a parameter: * * 1) add it to the global or service structure definition * 2) add it to the parm_table * 3) add it to the list of available functions (eg: using FN_GLOBAL_STRING()) * 4) If it's a global then initialise it in init_globals. If a local * (ie. service) parameter then initialise it in the sDefault structure * * * Notes: * The configuration file is processed sequentially for speed. It is NOT * accessed randomly as happens in 'real' Windows. For this reason, there * is a fair bit of sequence-dependent code here - ie., code which assumes * that certain things happen before others. In particular, the code which * happens at the boundary between sections is delicately poised, so be * careful! * */ #include "includes.h" #include "version.h" #include "dynconfig/dynconfig.h" #include "system/time.h" #include "system/locale.h" #include "system/network.h" /* needed for TCP_NODELAY */ #include "../lib/util/dlinklist.h" #include "lib/param/param.h" #define LOADPARM_SUBSTITUTION_INTERNALS 1 #include "lib/param/loadparm.h" #include "auth/gensec/gensec.h" #include "lib/param/s3_param.h" #include "lib/util/bitmap.h" #include "libcli/smb/smb_constants.h" #include "tdb.h" #include "librpc/gen_ndr/nbt.h" #include "librpc/gen_ndr/dns.h" #include "librpc/gen_ndr/security.h" #include "libds/common/roles.h" #include "lib/util/samba_util.h" #include "libcli/auth/ntlm_check.h" #include "lib/crypto/gnutls_helpers.h" #include "lib/util/smb_strtox.h" #include "auth/credentials/credentials.h" #ifdef HAVE_HTTPCONNECTENCRYPT #include #endif #define standard_sub_basic talloc_strdup #include "lib/param/param_global.h" struct loadparm_service *lpcfg_default_service(struct loadparm_context *lp_ctx) { return lp_ctx->sDefault; } int lpcfg_rpc_low_port(struct loadparm_context *lp_ctx) { return lp_ctx->globals->rpc_low_port; } int lpcfg_rpc_high_port(struct loadparm_context *lp_ctx) { return lp_ctx->globals->rpc_high_port; } enum samba_weak_crypto lpcfg_weak_crypto(struct loadparm_context *lp_ctx) { if (lp_ctx->globals->weak_crypto == SAMBA_WEAK_CRYPTO_UNKNOWN) { lp_ctx->globals->weak_crypto = SAMBA_WEAK_CRYPTO_DISALLOWED; if (samba_gnutls_weak_crypto_allowed()) { lp_ctx->globals->weak_crypto = SAMBA_WEAK_CRYPTO_ALLOWED; } } return lp_ctx->globals->weak_crypto; } /** * Convenience routine to grab string parameters into temporary memory * and run standard_sub_basic on them. * * The buffers can be written to by * callers without affecting the source string. */ static const char *lpcfg_string(const char *s) { #if 0 /* until REWRITE done to make thread-safe */ size_t len = s ? strlen(s) : 0; char *ret; #endif /* The follow debug is useful for tracking down memory problems especially if you have an inner loop that is calling a lp_*() function that returns a string. Perhaps this debug should be present all the time? */ #if 0 DEBUG(10, ("lpcfg_string(%s)\n", s)); #endif #if 0 /* until REWRITE done to make thread-safe */ if (!lp_talloc) lp_talloc = talloc_init("lp_talloc"); ret = talloc_array(lp_talloc, char, len + 100); /* leave room for substitution */ if (!ret) return NULL; if (!s) *ret = 0; else strlcpy(ret, s, len); if (trim_string(ret, "\"", "\"")) { if (strchr(ret,'"') != NULL) strlcpy(ret, s, len); } standard_sub_basic(ret,len+100); return (ret); #endif return s; } /* In this section all the functions that are used to access the parameters from the rest of the program are defined */ /* * the creation of separate lpcfg_*() and lp_*() functions is to allow * for code compatibility between existing Samba4 and Samba3 code. */ /* this global context supports the lp_*() function varients */ static struct loadparm_context *global_loadparm_context; #define FN_GLOBAL_SUBSTITUTED_STRING(fn_name,var_name) \ _PUBLIC_ char *lpcfg_ ## fn_name(struct loadparm_context *lp_ctx, \ const struct loadparm_substitution *lp_sub, TALLOC_CTX *mem_ctx) \ { \ if (lp_ctx == NULL) return NULL; \ return lpcfg_substituted_string(mem_ctx, lp_sub, \ lp_ctx->globals->var_name ? lp_ctx->globals->var_name : ""); \ } #define FN_GLOBAL_CONST_STRING(fn_name,var_name) \ _PUBLIC_ const char *lpcfg_ ## fn_name(struct loadparm_context *lp_ctx) { \ if (lp_ctx == NULL) return NULL; \ return lp_ctx->globals->var_name ? lpcfg_string(lp_ctx->globals->var_name) : ""; \ } #define FN_GLOBAL_LIST(fn_name,var_name) \ _PUBLIC_ const char **lpcfg_ ## fn_name(struct loadparm_context *lp_ctx) { \ if (lp_ctx == NULL) return NULL; \ return lp_ctx->globals->var_name; \ } #define FN_GLOBAL_BOOL(fn_name,var_name) \ _PUBLIC_ bool lpcfg_ ## fn_name(struct loadparm_context *lp_ctx) {\ if (lp_ctx == NULL) return false; \ return lp_ctx->globals->var_name; \ } #define FN_GLOBAL_INTEGER(fn_name,var_name) \ _PUBLIC_ int lpcfg_ ## fn_name(struct loadparm_context *lp_ctx) { \ return lp_ctx->globals->var_name; \ } /* Local parameters don't need the ->s3_fns because the struct * loadparm_service is shared and lpcfg_service() checks the ->s3_fns * hook */ #define FN_LOCAL_SUBSTITUTED_STRING(fn_name,val) \ _PUBLIC_ char *lpcfg_ ## fn_name(struct loadparm_service *service, \ struct loadparm_service *sDefault, TALLOC_CTX *ctx) { \ return(talloc_strdup(ctx, lpcfg_string((const char *)((service != NULL && service->val != NULL) ? service->val : sDefault->val)))); \ } #define FN_LOCAL_CONST_STRING(fn_name,val) \ _PUBLIC_ const char *lpcfg_ ## fn_name(struct loadparm_service *service, \ struct loadparm_service *sDefault) { \ return((const char *)((service != NULL && service->val != NULL) ? service->val : sDefault->val)); \ } #define FN_LOCAL_LIST(fn_name,val) \ _PUBLIC_ const char **lpcfg_ ## fn_name(struct loadparm_service *service, \ struct loadparm_service *sDefault) {\ return(const char **)(service != NULL && service->val != NULL? service->val : sDefault->val); \ } #define FN_LOCAL_PARM_BOOL(fn_name, val) FN_LOCAL_BOOL(fn_name, val) #define FN_LOCAL_BOOL(fn_name,val) \ _PUBLIC_ bool lpcfg_ ## fn_name(struct loadparm_service *service, \ struct loadparm_service *sDefault) { \ return((service != NULL)? service->val : sDefault->val); \ } #define FN_LOCAL_INTEGER(fn_name,val) \ _PUBLIC_ int lpcfg_ ## fn_name(struct loadparm_service *service, \ struct loadparm_service *sDefault) { \ return((service != NULL)? service->val : sDefault->val); \ } #define FN_LOCAL_PARM_INTEGER(fn_name, val) FN_LOCAL_INTEGER(fn_name, val) #define FN_LOCAL_CHAR(fn_name,val) \ _PUBLIC_ char lpcfg_ ## fn_name(struct loadparm_service *service, \ struct loadparm_service *sDefault) { \ return((service != NULL)? service->val : sDefault->val); \ } #define FN_LOCAL_PARM_CHAR(fn_name,val) FN_LOCAL_CHAR(fn_name, val) #include "lib/param/param_functions.c" /* These functions cannot be auto-generated */ FN_LOCAL_BOOL(autoloaded, autoloaded) FN_GLOBAL_CONST_STRING(dnsdomain, dnsdomain) /* local prototypes */ static struct loadparm_service *lpcfg_getservicebyname(struct loadparm_context *lp_ctx, const char *pszServiceName); static bool do_section(const char *pszSectionName, void *); static bool set_variable_helper(TALLOC_CTX *mem_ctx, int parmnum, void *parm_ptr, const char *pszParmName, const char *pszParmValue); static bool lp_do_parameter_parametric(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmName, const char *pszParmValue, int flags); /* The following are helper functions for parametrical options support. */ /* It returns a pointer to parametrical option value if it exists or NULL otherwise */ /* Actual parametrical functions are quite simple */ struct parmlist_entry *get_parametric_helper(struct loadparm_service *service, const char *type, const char *option, struct parmlist_entry *global_opts) { size_t type_len = strlen(type); size_t option_len = strlen(option); char param_key[type_len + option_len + 2]; struct parmlist_entry *data = NULL; snprintf(param_key, sizeof(param_key), "%s:%s", type, option); /* * Try to fetch the option from the data. */ if (service != NULL) { data = service->param_opt; while (data != NULL) { if (strwicmp(data->key, param_key) == 0) { return data; } data = data->next; } } /* * Fall back to fetching from the globals. */ data = global_opts; while (data != NULL) { if (strwicmp(data->key, param_key) == 0) { return data; } data = data->next; } return NULL; } const char *lpcfg_get_parametric(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option) { struct parmlist_entry *data; if (lp_ctx == NULL) return NULL; data = get_parametric_helper(service, type, option, lp_ctx->globals->param_opt); if (data == NULL) { return NULL; } else { return data->value; } } /** * convenience routine to return int parameters. */ int lp_int(const char *s) { if (!s || !*s) { DEBUG(0,("lp_int(%s): is called with NULL!\n",s)); return -1; } return strtol(s, NULL, 0); } /** * convenience routine to return unsigned long parameters. */ unsigned long lp_ulong(const char *s) { int error = 0; unsigned long int ret; if (!s || !*s) { DBG_DEBUG("lp_ulong(%s): is called with NULL!\n",s); return -1; } ret = smb_strtoul(s, NULL, 0, &error, SMB_STR_STANDARD); if (error != 0) { DBG_DEBUG("lp_ulong(%s): conversion failed\n",s); return -1; } return ret; } /** * convenience routine to return unsigned long long parameters. */ unsigned long long lp_ulonglong(const char *s) { int error = 0; unsigned long long int ret; if (!s || !*s) { DBG_DEBUG("lp_ulonglong(%s): is called with NULL!\n", s); return -1; } ret = smb_strtoull(s, NULL, 0, &error, SMB_STR_STANDARD); if (error != 0) { DBG_DEBUG("lp_ulonglong(%s): conversion failed\n",s); return -1; } return ret; } /** * convenience routine to return unsigned long parameters. */ static long lp_long(const char *s) { if (!s) { DEBUG(0,("lp_long(%s): is called with NULL!\n",s)); return -1; } return strtol(s, NULL, 0); } /** * convenience routine to return unsigned long parameters. */ static double lp_double(const char *s) { if (!s) { DEBUG(0,("lp_double(%s): is called with NULL!\n",s)); return -1; } return strtod(s, NULL); } /** * convenience routine to return boolean parameters. */ bool lp_bool(const char *s) { bool ret = false; if (!s || !*s) { DEBUG(0,("lp_bool(%s): is called with NULL!\n",s)); return false; } if (!set_boolean(s, &ret)) { DEBUG(0,("lp_bool(%s): value is not boolean!\n",s)); return false; } return ret; } /** * Return parametric option from a given service. Type is a part of option before ':' * Parametric option has following syntax: 'Type: option = value' * Returned value is allocated in 'lp_talloc' context */ const char *lpcfg_parm_string(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value) return lpcfg_string(value); return NULL; } /** * Return parametric option from a given service. Type is a part of option before ':' * Parametric option has following syntax: 'Type: option = value' * Returned value is allocated in 'lp_talloc' context */ const char **lpcfg_parm_string_list(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, const char *separator) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value != NULL) { char **l = str_list_make(mem_ctx, value, separator); return discard_const_p(const char *, l); } return NULL; } /** * Return parametric option from a given service. Type is a part of option before ':' * Parametric option has following syntax: 'Type: option = value' */ int lpcfg_parm_int(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, int default_v) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value) return lp_int(value); return default_v; } /** * Return parametric option from a given service. Type is a part of * option before ':'. * Parametric option has following syntax: 'Type: option = value'. */ int lpcfg_parm_bytes(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, int default_v) { uint64_t bval; const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value && conv_str_size_error(value, &bval)) { if (bval <= INT_MAX) { return (int)bval; } } return default_v; } /** * Return parametric option from a given service. * Type is a part of option before ':' * Parametric option has following syntax: 'Type: option = value' */ unsigned long lpcfg_parm_ulong(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, unsigned long default_v) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value) return lp_ulong(value); return default_v; } /** * Return parametric option from a given service. * Type is a part of option before ':' * Parametric option has following syntax: 'Type: option = value' */ unsigned long long lpcfg_parm_ulonglong(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, unsigned long long default_v) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value) { return lp_ulonglong(value); } return default_v; } long lpcfg_parm_long(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, long default_v) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value) return lp_long(value); return default_v; } double lpcfg_parm_double(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, double default_v) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value != NULL) return lp_double(value); return default_v; } /** * Return parametric option from a given service. Type is a part of option before ':' * Parametric option has following syntax: 'Type: option = value' */ bool lpcfg_parm_bool(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *type, const char *option, bool default_v) { const char *value = lpcfg_get_parametric(lp_ctx, service, type, option); if (value != NULL) return lp_bool(value); return default_v; } /* this is used to prevent lots of mallocs of size 1 */ static const char lpcfg_string_empty[] = ""; /** Free a string value. **/ void lpcfg_string_free(char **s) { if (s == NULL) { return; } if (*s == lpcfg_string_empty) { *s = NULL; return; } TALLOC_FREE(*s); } /** * Set a string value, deallocating any existing space, and allocing the space * for the string */ bool lpcfg_string_set(TALLOC_CTX *mem_ctx, char **dest, const char *src) { lpcfg_string_free(dest); if ((src == NULL) || (*src == '\0')) { *dest = discard_const_p(char, lpcfg_string_empty); return true; } *dest = talloc_strdup(mem_ctx, src); if ((*dest) == NULL) { DEBUG(0,("Out of memory in string_set\n")); return false; } return true; } /** * Set a string value, deallocating any existing space, and allocing the space * for the string */ bool lpcfg_string_set_upper(TALLOC_CTX *mem_ctx, char **dest, const char *src) { lpcfg_string_free(dest); if ((src == NULL) || (*src == '\0')) { *dest = discard_const_p(char, lpcfg_string_empty); return true; } *dest = strupper_talloc(mem_ctx, src); if ((*dest) == NULL) { DEBUG(0,("Out of memory in string_set_upper\n")); return false; } return true; } /** * Add a new service to the services array initialising it with the given * service. */ struct loadparm_service *lpcfg_add_service(struct loadparm_context *lp_ctx, const struct loadparm_service *pservice, const char *name) { int i; int num_to_alloc = lp_ctx->iNumServices + 1; struct parmlist_entry *data, *pdata; if (lp_ctx->s3_fns != NULL) { smb_panic("Add a service should not be called on an s3 loadparm ctx"); } if (pservice == NULL) { pservice = lp_ctx->sDefault; } /* it might already exist */ if (name) { struct loadparm_service *service = lpcfg_getservicebyname(lp_ctx, name); if (service != NULL) { /* Clean all parametric options for service */ /* They will be added during parsing again */ data = service->param_opt; while (data) { pdata = data->next; talloc_free(data); data = pdata; } service->param_opt = NULL; return service; } } /* find an invalid one */ for (i = 0; i < lp_ctx->iNumServices; i++) if (lp_ctx->services[i] == NULL) break; /* if not, then create one */ if (i == lp_ctx->iNumServices) { struct loadparm_service **tsp; tsp = talloc_realloc(lp_ctx, lp_ctx->services, struct loadparm_service *, num_to_alloc); if (!tsp) { DEBUG(0,("lpcfg_add_service: failed to enlarge services!\n")); return NULL; } else { lp_ctx->services = tsp; lp_ctx->services[lp_ctx->iNumServices] = NULL; } lp_ctx->iNumServices++; } lp_ctx->services[i] = talloc_zero(lp_ctx->services, struct loadparm_service); if (lp_ctx->services[i] == NULL) { DEBUG(0,("lpcfg_add_service: out of memory!\n")); return NULL; } copy_service(lp_ctx->services[i], pservice, NULL); if (name != NULL) lpcfg_string_set(lp_ctx->services[i], &lp_ctx->services[i]->szService, name); return lp_ctx->services[i]; } /** * Map a parameter's string representation to something we can use. * Returns False if the parameter string is not recognised, else TRUE. */ int lpcfg_map_parameter(const char *pszParmName) { int iIndex; for (iIndex = 0; parm_table[iIndex].label; iIndex++) if (strwicmp(parm_table[iIndex].label, pszParmName) == 0) return iIndex; /* Warn only if it isn't parametric option */ if (strchr(pszParmName, ':') == NULL) DEBUG(0, ("Unknown parameter encountered: \"%s\"\n", pszParmName)); /* We do return 'fail' for parametric options as well because they are stored in different storage */ return -1; } /** return the parameter structure for a parameter */ struct parm_struct *lpcfg_parm_struct(struct loadparm_context *lp_ctx, const char *name) { int num = lpcfg_map_parameter(name); if (num < 0) { return NULL; } return &parm_table[num]; } /** return the parameter pointer for a parameter */ void *lpcfg_parm_ptr(struct loadparm_context *lp_ctx, struct loadparm_service *service, struct parm_struct *parm) { if (lp_ctx->s3_fns) { return lp_ctx->s3_fns->get_parm_ptr(service, parm); } if (service == NULL) { if (parm->p_class == P_LOCAL) return ((char *)lp_ctx->sDefault)+parm->offset; else if (parm->p_class == P_GLOBAL) return ((char *)lp_ctx->globals)+parm->offset; else return NULL; } else { return ((char *)service) + parm->offset; } } /** return the parameter pointer for a parameter */ bool lpcfg_parm_is_cmdline(struct loadparm_context *lp_ctx, const char *name) { int parmnum; parmnum = lpcfg_map_parameter(name); if (parmnum == -1) return false; return lp_ctx->flags[parmnum] & FLAG_CMDLINE; } bool lpcfg_parm_is_unspecified(struct loadparm_context *lp_ctx, const char *name) { int parmnum; parmnum = lpcfg_map_parameter(name); if (parmnum == -1) return false; return lp_ctx->flags[parmnum] & FLAG_DEFAULT; } /** * Find a service by name. Otherwise works like get_service. */ static struct loadparm_service *lpcfg_getservicebyname(struct loadparm_context *lp_ctx, const char *pszServiceName) { int iService; if (lp_ctx->s3_fns) { return lp_ctx->s3_fns->get_service(pszServiceName); } for (iService = lp_ctx->iNumServices - 1; iService >= 0; iService--) if (lp_ctx->services[iService] != NULL && strwicmp(lp_ctx->services[iService]->szService, pszServiceName) == 0) { return lp_ctx->services[iService]; } return NULL; } /** * Add a parametric option to a parmlist_entry, * replacing old value, if already present. */ void set_param_opt(TALLOC_CTX *mem_ctx, struct parmlist_entry **opt_list, const char *opt_name, const char *opt_value, unsigned priority) { struct parmlist_entry *new_opt, *opt; opt = *opt_list; /* Traverse destination */ while (opt) { /* If we already have same option, override it */ if (strwicmp(opt->key, opt_name) == 0) { if ((opt->priority & FLAG_CMDLINE) && !(priority & FLAG_CMDLINE)) { /* it's been marked as not to be overridden */ return; } TALLOC_FREE(opt->list); lpcfg_string_set(opt, &opt->value, opt_value); opt->priority = priority; return; } opt = opt->next; } new_opt = talloc_pooled_object( mem_ctx, struct parmlist_entry, 2, strlen(opt_name) + 1 + strlen(opt_value) + 1); if (new_opt == NULL) { smb_panic("OOM"); } new_opt->key = NULL; lpcfg_string_set(new_opt, &new_opt->key, opt_name); new_opt->value = NULL; lpcfg_string_set(new_opt, &new_opt->value, opt_value); new_opt->list = NULL; new_opt->priority = priority; DLIST_ADD(*opt_list, new_opt); } /** * Copy a service structure to another. * If pcopymapDest is NULL then copy all fields */ void copy_service(struct loadparm_service *pserviceDest, const struct loadparm_service *pserviceSource, struct bitmap *pcopymapDest) { int i; bool bcopyall = (pcopymapDest == NULL); struct parmlist_entry *data; for (i = 0; parm_table[i].label; i++) if (parm_table[i].p_class == P_LOCAL && (bcopyall || bitmap_query(pcopymapDest, i))) { const void *src_ptr = ((const char *)pserviceSource) + parm_table[i].offset; void *dest_ptr = ((char *)pserviceDest) + parm_table[i].offset; switch (parm_table[i].type) { case P_BOOL: case P_BOOLREV: *(bool *)dest_ptr = *(const bool *)src_ptr; break; case P_INTEGER: case P_BYTES: case P_OCTAL: case P_ENUM: *(int *)dest_ptr = *(const int *)src_ptr; break; case P_CHAR: *(char *)dest_ptr = *(const char *)src_ptr; break; case P_STRING: lpcfg_string_set(pserviceDest, (char **)dest_ptr, *(const char * const *)src_ptr); break; case P_USTRING: lpcfg_string_set_upper(pserviceDest, (char **)dest_ptr, *(const char * const *)src_ptr); break; case P_CMDLIST: case P_LIST: TALLOC_FREE(*((char ***)dest_ptr)); *(char ***)dest_ptr = str_list_copy(pserviceDest, *discard_const_p(const char **, src_ptr)); break; default: break; } } if (bcopyall) { init_copymap(pserviceDest); if (pserviceSource->copymap) bitmap_copy(pserviceDest->copymap, pserviceSource->copymap); } for (data = pserviceSource->param_opt; data != NULL; data = data->next) { set_param_opt(pserviceDest, &pserviceDest->param_opt, data->key, data->value, data->priority); } } /** * Check a service for consistency. Return False if the service is in any way * incomplete or faulty, else True. */ bool lpcfg_service_ok(struct loadparm_service *service) { bool bRetval; bRetval = true; if (service->szService[0] == '\0') { DEBUG(0, ("The following message indicates an internal error:\n")); DEBUG(0, ("No service name in service entry.\n")); bRetval = false; } /* The [printers] entry MUST be printable. I'm all for flexibility, but */ /* I can't see why you'd want a non-printable printer service... */ if (strwicmp(service->szService, PRINTERS_NAME) == 0) { if (!service->printable) { DEBUG(0, ("WARNING: [%s] service MUST be printable!\n", service->szService)); service->printable = true; } /* [printers] service must also be non-browsable. */ if (service->browseable) service->browseable = false; } if (service->path[0] == '\0' && strwicmp(service->szService, HOMES_NAME) != 0 && service->msdfs_proxy[0] == '\0') { DEBUG(0, ("WARNING: No path in service %s - making it unavailable!\n", service->szService)); service->available = false; } if (!service->available) DEBUG(1, ("NOTE: Service %s is flagged unavailable.\n", service->szService)); return bRetval; } /******************************************************************* Keep a linked list of all config files so we know when one has changed it's date and needs to be reloaded. ********************************************************************/ void add_to_file_list(TALLOC_CTX *mem_ctx, struct file_lists **list, const char *fname, const char *subfname) { struct file_lists *f = *list; while (f) { if (f->name && !strcmp(f->name, fname)) break; f = f->next; } if (!f) { f = talloc(mem_ctx, struct file_lists); if (!f) goto fail; f->next = *list; f->name = talloc_strdup(f, fname); if (!f->name) { TALLOC_FREE(f); goto fail; } f->subfname = talloc_strdup(f, subfname); if (!f->subfname) { TALLOC_FREE(f); goto fail; } *list = f; f->modtime = file_modtime(subfname); } else { time_t t = file_modtime(subfname); if (t) f->modtime = t; } return; fail: DEBUG(0, ("Unable to add file to file list: %s\n", fname)); } /* * set the value for a P_ENUM */ bool lp_set_enum_parm( struct parm_struct *parm, const char *pszParmValue, int *ptr ) { int i; for (i = 0; parm->enum_list[i].name; i++) { if (strwicmp(pszParmValue, parm->enum_list[i].name) == 0) { *ptr = parm->enum_list[i].value; return true; } } DEBUG(0, ("WARNING: Ignoring invalid value '%s' for parameter '%s'\n", pszParmValue, parm->label)); return false; } /*************************************************************************** Handle the "realm" parameter ***************************************************************************/ bool handle_realm(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { char *upper; char *lower; upper = strupper_talloc(lp_ctx, pszParmValue); if (upper == NULL) { return false; } lower = strlower_talloc(lp_ctx, pszParmValue); if (lower == NULL) { TALLOC_FREE(upper); return false; } lpcfg_string_set(lp_ctx->globals->ctx, &lp_ctx->globals->realm, upper); lpcfg_string_set(lp_ctx->globals->ctx, &lp_ctx->globals->dnsdomain, lower); return true; } /*************************************************************************** Handle the include operation. ***************************************************************************/ bool handle_include(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { char *fname; const char *substitution_variable_substring; char next_char; if (lp_ctx->s3_fns) { return lp_ctx->s3_fns->lp_include(lp_ctx, service, pszParmValue, ptr); } fname = standard_sub_basic(lp_ctx, pszParmValue); add_to_file_list(lp_ctx, &lp_ctx->file_lists, pszParmValue, fname); lpcfg_string_set(lp_ctx, ptr, fname); if (file_exist(fname)) return pm_process(fname, do_section, lpcfg_do_parameter, lp_ctx); /* * If the file doesn't exist, we check that it isn't due to variable * substitution */ substitution_variable_substring = strchr(fname, '%'); if (substitution_variable_substring != NULL) { next_char = substitution_variable_substring[1]; if ((next_char >= 'a' && next_char <= 'z') || (next_char >= 'A' && next_char <= 'Z')) { DEBUG(2, ("Tried to load %s but variable substitution in " "filename, ignoring file.\n", fname)); return true; } } DEBUG(2, ("Can't find include file %s\n", fname)); return false; } /*************************************************************************** Handle the interpretation of the copy parameter. ***************************************************************************/ bool handle_copy(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { bool bRetval; struct loadparm_service *serviceTemp = NULL; bRetval = false; DEBUG(3, ("Copying service from service %s\n", pszParmValue)); serviceTemp = lpcfg_getservicebyname(lp_ctx, pszParmValue); if (service == NULL) { DEBUG(0, ("Unable to copy service - invalid service destination.\n")); return false; } if (serviceTemp != NULL) { if (serviceTemp == service) { DEBUG(0, ("Can't copy service %s - unable to copy self!\n", pszParmValue)); } else { copy_service(service, serviceTemp, service->copymap); lpcfg_string_set(service, ptr, pszParmValue); bRetval = true; } } else { DEBUG(0, ("Unable to copy service - source not found: %s\n", pszParmValue)); bRetval = false; } return bRetval; } bool handle_debug_list(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { lpcfg_string_set(lp_ctx->globals->ctx, ptr, pszParmValue); return debug_parse_levels(pszParmValue); } bool handle_logfile(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { if (lp_ctx->s3_fns == NULL) { debug_set_logfile(pszParmValue); } lpcfg_string_set(lp_ctx->globals->ctx, ptr, pszParmValue); return true; } /* * These special charset handling methods only run in the source3 code. */ bool handle_charset(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { if (lp_ctx->s3_fns) { if (*ptr == NULL || strcmp(*ptr, pszParmValue) != 0) { struct smb_iconv_handle *ret = NULL; ret = reinit_iconv_handle(NULL, lpcfg_dos_charset(lp_ctx), lpcfg_unix_charset(lp_ctx)); if (ret == NULL) { smb_panic("reinit_iconv_handle failed"); } } } return lpcfg_string_set(lp_ctx->globals->ctx, ptr, pszParmValue); } bool handle_dos_charset(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { bool is_utf8 = false; size_t len = strlen(pszParmValue); if (lp_ctx->s3_fns) { if (len == 4 || len == 5) { /* Don't use StrCaseCmp here as we don't want to initialize iconv. */ if ((toupper_m(pszParmValue[0]) == 'U') && (toupper_m(pszParmValue[1]) == 'T') && (toupper_m(pszParmValue[2]) == 'F')) { if (len == 4) { if (pszParmValue[3] == '8') { is_utf8 = true; } } else { if (pszParmValue[3] == '-' && pszParmValue[4] == '8') { is_utf8 = true; } } } } if (*ptr == NULL || strcmp(*ptr, pszParmValue) != 0) { struct smb_iconv_handle *ret = NULL; if (is_utf8) { DEBUG(0,("ERROR: invalid DOS charset: 'dos charset' must not " "be UTF8, using (default value) %s instead.\n", DEFAULT_DOS_CHARSET)); pszParmValue = DEFAULT_DOS_CHARSET; } ret = reinit_iconv_handle(NULL, lpcfg_dos_charset(lp_ctx), lpcfg_unix_charset(lp_ctx)); if (ret == NULL) { smb_panic("reinit_iconv_handle failed"); } } } return lpcfg_string_set(lp_ctx->globals->ctx, ptr, pszParmValue); } bool handle_printing(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { static int parm_num = -1; if (parm_num == -1) { parm_num = lpcfg_map_parameter("printing"); } if (!lp_set_enum_parm(&parm_table[parm_num], pszParmValue, (int*)ptr)) { return false; } if (lp_ctx->s3_fns) { if (service == NULL) { init_printer_values(lp_ctx, lp_ctx->globals->ctx, lp_ctx->sDefault); } else { init_printer_values(lp_ctx, service, service); } } return true; } bool handle_ldap_debug_level(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { lp_ctx->globals->ldap_debug_level = lp_int(pszParmValue); if (lp_ctx->s3_fns) { lp_ctx->s3_fns->init_ldap_debugging(); } return true; } /* * idmap related parameters */ bool handle_idmap_backend(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { if (lp_ctx->s3_fns) { lp_do_parameter_parametric(lp_ctx, service, "idmap config * : backend", pszParmValue, 0); } return lpcfg_string_set(lp_ctx->globals->ctx, ptr, pszParmValue); } bool handle_idmap_uid(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { if (lp_ctx->s3_fns) { lp_do_parameter_parametric(lp_ctx, service, "idmap config * : range", pszParmValue, 0); } return lpcfg_string_set(lp_ctx->globals->ctx, ptr, pszParmValue); } bool handle_idmap_gid(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { if (lp_ctx->s3_fns) { lp_do_parameter_parametric(lp_ctx, service, "idmap config * : range", pszParmValue, 0); } return lpcfg_string_set(lp_ctx->globals->ctx, ptr, pszParmValue); } bool handle_smb_ports(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { static int parm_num = -1; int i; const char **list; if (!pszParmValue || !*pszParmValue) { return false; } if (parm_num == -1) { parm_num = lpcfg_map_parameter("smb ports"); if (parm_num == -1) { return false; } } if (!set_variable_helper(lp_ctx->globals->ctx, parm_num, ptr, "smb ports", pszParmValue)) { return false; } list = lp_ctx->globals->smb_ports; if (list == NULL) { return false; } /* Check that each port is a valid integer and within range */ for (i = 0; list[i] != NULL; i++) { char *end = NULL; int port = 0; port = strtol(list[i], &end, 10); if (*end != '\0' || port <= 0 || port > 65535) { TALLOC_FREE(list); return false; } } return true; } bool handle_rpc_server_dynamic_port_range(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { static int parm_num = -1; int low_port = -1, high_port = -1; int rc; if (parm_num == -1) { parm_num = lpcfg_map_parameter("rpc server dynamic port range"); if (parm_num == -1) { return false; } } if (pszParmValue == NULL || pszParmValue[0] == '\0') { return false; } rc = sscanf(pszParmValue, "%d - %d", &low_port, &high_port); if (rc != 2) { return false; } if (low_port > high_port) { return false; } if (low_port < SERVER_TCP_PORT_MIN|| high_port > SERVER_TCP_PORT_MAX) { return false; } if (!set_variable_helper(lp_ctx->globals->ctx, parm_num, ptr, "rpc server dynamic port range", pszParmValue)) { return false; } lp_ctx->globals->rpc_low_port = low_port; lp_ctx->globals->rpc_high_port = high_port; return true; } bool handle_smb2_max_credits(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { int value = lp_int(pszParmValue); if (value <= 0) { value = DEFAULT_SMB2_MAX_CREDITS; } *(int *)ptr = value; return true; } bool handle_cups_encrypt(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { int result = 0; #ifdef HAVE_HTTPCONNECTENCRYPT int value = lp_int(pszParmValue); switch (value) { case Auto: result = HTTP_ENCRYPT_REQUIRED; break; case true: result = HTTP_ENCRYPT_ALWAYS; break; case false: result = HTTP_ENCRYPT_NEVER; break; default: result = 0; break; } #endif *(int *)ptr = result; return true; } /*************************************************************************** Initialise a copymap. ***************************************************************************/ /** * Initializes service copymap * Note: pservice *must* be valid TALLOC_CTX */ void init_copymap(struct loadparm_service *pservice) { int i; TALLOC_FREE(pservice->copymap); pservice->copymap = bitmap_talloc(pservice, num_parameters()); if (!pservice->copymap) { DEBUG(0, ("Couldn't allocate copymap!! (size %d)\n", (int)num_parameters())); } else { for (i = 0; i < num_parameters(); i++) { bitmap_set(pservice->copymap, i); } } } /** * Process a parametric option */ static bool lp_do_parameter_parametric(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmName, const char *pszParmValue, int flags) { struct parmlist_entry **data; char *name; TALLOC_CTX *mem_ctx; while (isspace((unsigned char)*pszParmName)) { pszParmName++; } name = strlower_talloc(lp_ctx, pszParmName); if (!name) return false; if (service == NULL) { data = &lp_ctx->globals->param_opt; /** * s3 code cannot deal with parametric options stored on the globals ctx. */ if (lp_ctx->s3_fns != NULL) { mem_ctx = NULL; } else { mem_ctx = lp_ctx->globals->ctx; } } else { data = &service->param_opt; mem_ctx = service; } set_param_opt(mem_ctx, data, name, pszParmValue, flags); talloc_free(name); return true; } static bool set_variable_helper(TALLOC_CTX *mem_ctx, int parmnum, void *parm_ptr, const char *pszParmName, const char *pszParmValue) { size_t i; /* switch on the type of variable it is */ switch (parm_table[parmnum].type) { case P_BOOL: { bool b; if (!set_boolean(pszParmValue, &b)) { DEBUG(0, ("set_variable_helper(%s): value is not " "boolean!\n", pszParmValue)); return false; } *(bool *)parm_ptr = b; } break; case P_BOOLREV: { bool b; if (!set_boolean(pszParmValue, &b)) { DEBUG(0, ("set_variable_helper(%s): value is not " "boolean!\n", pszParmValue)); return false; } *(bool *)parm_ptr = !b; } break; case P_INTEGER: *(int *)parm_ptr = lp_int(pszParmValue); break; case P_CHAR: *(char *)parm_ptr = *pszParmValue; break; case P_OCTAL: i = sscanf(pszParmValue, "%o", (int *)parm_ptr); if ( i != 1 ) { DEBUG ( 0, ("Invalid octal number %s\n", pszParmName )); return false; } break; case P_BYTES: { uint64_t val; if (conv_str_size_error(pszParmValue, &val)) { if (val <= INT_MAX) { *(int *)parm_ptr = (int)val; break; } } DEBUG(0, ("set_variable_helper(%s): value is not " "a valid size specifier!\n", pszParmValue)); return false; } case P_CMDLIST: TALLOC_FREE(*(char ***)parm_ptr); *(char ***)parm_ptr = str_list_make_v3(mem_ctx, pszParmValue, NULL); break; case P_LIST: { char **new_list = str_list_make_v3(mem_ctx, pszParmValue, NULL); if (new_list == NULL) { break; } for (i=0; new_list[i]; i++) { if (*(const char ***)parm_ptr != NULL && new_list[i][0] == '+' && new_list[i][1]) { if (!str_list_check(*(const char ***)parm_ptr, &new_list[i][1])) { *(const char ***)parm_ptr = str_list_add(*(const char ***)parm_ptr, &new_list[i][1]); } } else if (*(const char ***)parm_ptr != NULL && new_list[i][0] == '-' && new_list[i][1]) { str_list_remove(*(const char ***)parm_ptr, &new_list[i][1]); } else { if (i != 0) { DEBUG(0, ("Unsupported list syntax for: %s = %s\n", pszParmName, pszParmValue)); return false; } *(char ***)parm_ptr = new_list; break; } } break; } case P_STRING: lpcfg_string_set(mem_ctx, (char **)parm_ptr, pszParmValue); break; case P_USTRING: lpcfg_string_set_upper(mem_ctx, (char **)parm_ptr, pszParmValue); break; case P_ENUM: if (!lp_set_enum_parm(&parm_table[parmnum], pszParmValue, (int*)parm_ptr)) { return false; } break; } return true; } bool handle_name_resolve_order(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { const char **valid_values = NULL; const char **values_to_set = NULL; int i; bool value_is_valid = false; valid_values = str_list_make_v3_const(NULL, DEFAULT_NAME_RESOLVE_ORDER, NULL); if (valid_values == NULL) { DBG_ERR("OOM: failed to make string list from %s\n", DEFAULT_NAME_RESOLVE_ORDER); goto out; } values_to_set = str_list_make_v3_const(lp_ctx->globals->ctx, pszParmValue, NULL); if (values_to_set == NULL) { DBG_ERR("OOM: failed to make string list from %s\n", pszParmValue); goto out; } TALLOC_FREE(lp_ctx->globals->name_resolve_order); for (i = 0; values_to_set[i] != NULL; i++) { value_is_valid = str_list_check(valid_values, values_to_set[i]); if (!value_is_valid) { DBG_ERR("WARNING: Ignoring invalid list value '%s' " "for parameter 'name resolve order'\n", values_to_set[i]); break; } } out: if (value_is_valid) { lp_ctx->globals->name_resolve_order = values_to_set; } else { TALLOC_FREE(values_to_set); } TALLOC_FREE(valid_values); return value_is_valid; } bool handle_kdc_default_domain_supported_enctypes(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { char **enctype_list = NULL; char **enctype = NULL; uint32_t result = 0; bool ok = true; enctype_list = str_list_make(NULL, pszParmValue, NULL); if (enctype_list == NULL) { DBG_ERR("OOM: failed to make string list from %s\n", pszParmValue); ok = false; goto out; } for (enctype = enctype_list; *enctype != NULL; ++enctype) { if (strwicmp(*enctype, "arcfour-hmac-md5") == 0 || strwicmp(*enctype, "rc4-hmac") == 0) { result |= KERB_ENCTYPE_RC4_HMAC_MD5; } else if (strwicmp(*enctype, "aes128-cts-hmac-sha1-96") == 0 || strwicmp(*enctype, "aes128-cts") == 0) { result |= KERB_ENCTYPE_AES128_CTS_HMAC_SHA1_96; } else if (strwicmp(*enctype, "aes256-cts-hmac-sha1-96") == 0 || strwicmp(*enctype, "aes256-cts") == 0) { result |= KERB_ENCTYPE_AES256_CTS_HMAC_SHA1_96; } else if (strwicmp(*enctype, "aes256-cts-hmac-sha1-96-sk") == 0 || strwicmp(*enctype, "aes256-cts-sk") == 0) { result |= KERB_ENCTYPE_AES256_CTS_HMAC_SHA1_96_SK; } else { const char *bitstr = *enctype; int base; int error; unsigned long bit; /* See if the bit's specified in hexadecimal. */ if (bitstr[0] == '0' && (bitstr[1] == 'x' || bitstr[2] == 'X')) { base = 16; bitstr += 2; } else { base = 10; } bit = smb_strtoul(bitstr, NULL, base, &error, SMB_STR_FULL_STR_CONV); if (error) { DBG_ERR("WARNING: Ignoring invalid value '%s' " "for parameter 'kdc default domain supported enctypes'\n", *enctype); ok = false; } else { result |= bit; } } } *(int *)ptr = result; out: TALLOC_FREE(enctype_list); return ok; } bool handle_kdc_supported_enctypes(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmValue, char **ptr) { char **enctype_list = NULL; char **enctype = NULL; uint32_t result = 0; bool ok = true; enctype_list = str_list_make(NULL, pszParmValue, NULL); if (enctype_list == NULL) { DBG_ERR("OOM: failed to make string list from %s\n", pszParmValue); ok = false; goto out; } for (enctype = enctype_list; *enctype != NULL; ++enctype) { if (strwicmp(*enctype, "arcfour-hmac-md5") == 0 || strwicmp(*enctype, "rc4-hmac") == 0) { result |= KERB_ENCTYPE_RC4_HMAC_MD5; } else if (strwicmp(*enctype, "aes128-cts-hmac-sha1-96") == 0 || strwicmp(*enctype, "aes128-cts") == 0) { result |= KERB_ENCTYPE_AES128_CTS_HMAC_SHA1_96; } else if (strwicmp(*enctype, "aes256-cts-hmac-sha1-96") == 0 || strwicmp(*enctype, "aes256-cts") == 0) { result |= KERB_ENCTYPE_AES256_CTS_HMAC_SHA1_96; } else { const char *bitstr = *enctype; int base; int error; unsigned long bit; /* See if the bit's specified in hexadecimal. */ if (bitstr[0] == '0' && (bitstr[1] == 'x' || bitstr[2] == 'X')) { base = 16; bitstr += 2; } else { base = 10; } bit = smb_strtoul(bitstr, NULL, base, &error, SMB_STR_FULL_STR_CONV); if (error) { DBG_ERR("WARNING: Ignoring invalid value '%s' " "for parameter 'kdc default domain supported enctypes'\n", *enctype); ok = false; } else { result |= bit; } } } *(int *)ptr = result; out: TALLOC_FREE(enctype_list); return ok; } static bool set_variable(TALLOC_CTX *mem_ctx, struct loadparm_service *service, int parmnum, void *parm_ptr, const char *pszParmName, const char *pszParmValue, struct loadparm_context *lp_ctx, bool on_globals) { int i; bool ok; /* if it is a special case then go ahead */ if (parm_table[parmnum].special) { ok = parm_table[parmnum].special(lp_ctx, service, pszParmValue, (char **)parm_ptr); } else { ok = set_variable_helper(mem_ctx, parmnum, parm_ptr, pszParmName, pszParmValue); } if (!ok) { return false; } if (on_globals && (lp_ctx->flags[parmnum] & FLAG_DEFAULT)) { lp_ctx->flags[parmnum] &= ~FLAG_DEFAULT; /* we have to also unset FLAG_DEFAULT on aliases */ for (i=parmnum-1;i>=0 && parm_table[i].offset == parm_table[parmnum].offset;i--) { lp_ctx->flags[i] &= ~FLAG_DEFAULT; } for (i=parmnum+1;iflags[i] &= ~FLAG_DEFAULT; } } return true; } bool lpcfg_do_global_parameter(struct loadparm_context *lp_ctx, const char *pszParmName, const char *pszParmValue) { int parmnum = lpcfg_map_parameter(pszParmName); void *parm_ptr; if (parmnum < 0) { if (strchr(pszParmName, ':')) { return lp_do_parameter_parametric(lp_ctx, NULL, pszParmName, pszParmValue, 0); } DEBUG(0, ("Ignoring unknown parameter \"%s\"\n", pszParmName)); return true; } /* if the flag has been set on the command line, then don't allow override, but don't report an error */ if (lp_ctx->flags[parmnum] & FLAG_CMDLINE) { return true; } if (parm_table[parmnum].flags & FLAG_DEPRECATED) { char *suppress_env = getenv("SAMBA_DEPRECATED_SUPPRESS"); bool print_warning = (suppress_env == NULL || suppress_env[0] == '\0'); if (print_warning) { DBG_WARNING("WARNING: The \"%s\" option " "is deprecated\n", pszParmName); } } parm_ptr = lpcfg_parm_ptr(lp_ctx, NULL, &parm_table[parmnum]); return set_variable(lp_ctx->globals->ctx, NULL, parmnum, parm_ptr, pszParmName, pszParmValue, lp_ctx, true); } bool lpcfg_do_service_parameter(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *pszParmName, const char *pszParmValue) { void *parm_ptr; int i; int parmnum = lpcfg_map_parameter(pszParmName); if (parmnum < 0) { if (strchr(pszParmName, ':')) { return lp_do_parameter_parametric(lp_ctx, service, pszParmName, pszParmValue, 0); } DEBUG(0, ("Ignoring unknown parameter \"%s\"\n", pszParmName)); return true; } /* if the flag has been set on the command line, then don't allow override, but don't report an error */ if (lp_ctx->flags[parmnum] & FLAG_CMDLINE) { return true; } if (parm_table[parmnum].flags & FLAG_DEPRECATED) { char *suppress_env = getenv("SAMBA_DEPRECATED_SUPPRESS"); bool print_warning = (suppress_env == NULL || suppress_env[0] == '\0'); if (print_warning) { DBG_WARNING("WARNING: The \"%s\" option " "is deprecated\n", pszParmName); } } if (parm_table[parmnum].p_class == P_GLOBAL) { DEBUG(0, ("Global parameter %s found in service section!\n", pszParmName)); return true; } parm_ptr = ((char *)service) + parm_table[parmnum].offset; if (!service->copymap) init_copymap(service); /* this handles the aliases - set the copymap for other * entries with the same data pointer */ for (i = 0; parm_table[i].label; i++) if (parm_table[i].offset == parm_table[parmnum].offset && parm_table[i].p_class == parm_table[parmnum].p_class) bitmap_clear(service->copymap, i); return set_variable(service, service, parmnum, parm_ptr, pszParmName, pszParmValue, lp_ctx, false); } /** * Process a parameter. */ bool lpcfg_do_parameter(const char *pszParmName, const char *pszParmValue, void *userdata) { struct loadparm_context *lp_ctx = (struct loadparm_context *)userdata; if (lp_ctx->bInGlobalSection) return lpcfg_do_global_parameter(lp_ctx, pszParmName, pszParmValue); else return lpcfg_do_service_parameter(lp_ctx, lp_ctx->currentService, pszParmName, pszParmValue); } /* variable argument do parameter */ bool lpcfg_do_global_parameter_var(struct loadparm_context *lp_ctx, const char *pszParmName, const char *fmt, ...) PRINTF_ATTRIBUTE(3, 4); bool lpcfg_do_global_parameter_var(struct loadparm_context *lp_ctx, const char *pszParmName, const char *fmt, ...) { char *s; bool ret; va_list ap; va_start(ap, fmt); s = talloc_vasprintf(NULL, fmt, ap); va_end(ap); ret = lpcfg_do_global_parameter(lp_ctx, pszParmName, s); talloc_free(s); return ret; } /* set a parameter from the commandline - this is called from command line parameter parsing code. It sets the parameter then marks the parameter as unable to be modified by smb.conf processing */ bool lpcfg_set_cmdline(struct loadparm_context *lp_ctx, const char *pszParmName, const char *pszParmValue) { int parmnum; int i; while (isspace((unsigned char)*pszParmValue)) pszParmValue++; parmnum = lpcfg_map_parameter(pszParmName); if (parmnum < 0 && strchr(pszParmName, ':')) { /* set a parametric option */ bool ok; ok = lp_do_parameter_parametric(lp_ctx, NULL, pszParmName, pszParmValue, FLAG_CMDLINE); if (lp_ctx->s3_fns != NULL) { if (ok) { lp_ctx->s3_fns->store_cmdline(pszParmName, pszParmValue); } } return ok; } if (parmnum < 0) { DEBUG(0,("Unknown option '%s'\n", pszParmName)); return false; } /* reset the CMDLINE flag in case this has been called before */ lp_ctx->flags[parmnum] &= ~FLAG_CMDLINE; if (!lpcfg_do_global_parameter(lp_ctx, pszParmName, pszParmValue)) { return false; } lp_ctx->flags[parmnum] |= FLAG_CMDLINE; /* we have to also set FLAG_CMDLINE on aliases */ for (i=parmnum-1; i>=0 && parm_table[i].p_class == parm_table[parmnum].p_class && parm_table[i].offset == parm_table[parmnum].offset; i--) { lp_ctx->flags[i] |= FLAG_CMDLINE; } for (i=parmnum+1; iflags[i] |= FLAG_CMDLINE; } if (lp_ctx->s3_fns != NULL) { lp_ctx->s3_fns->store_cmdline(pszParmName, pszParmValue); } return true; } /* set a option from the commandline in 'a=b' format. Use to support --option */ bool lpcfg_set_option(struct loadparm_context *lp_ctx, const char *option) { char *p, *s; bool ret; s = talloc_strdup(NULL, option); if (!s) { return false; } p = strchr(s, '='); if (!p) { talloc_free(s); return false; } *p = 0; ret = lpcfg_set_cmdline(lp_ctx, s, p+1); talloc_free(s); return ret; } #define BOOLSTR(b) ((b) ? "Yes" : "No") /** * Print a parameter of the specified type. */ void lpcfg_print_parameter(struct parm_struct *p, void *ptr, FILE * f) { /* For the seperation of lists values that we print below */ const char *list_sep = ", "; int i; switch (p->type) { case P_ENUM: for (i = 0; p->enum_list[i].name; i++) { if (*(int *)ptr == p->enum_list[i].value) { fprintf(f, "%s", p->enum_list[i].name); break; } } break; case P_BOOL: fprintf(f, "%s", BOOLSTR(*(bool *)ptr)); break; case P_BOOLREV: fprintf(f, "%s", BOOLSTR(!*(bool *)ptr)); break; case P_INTEGER: case P_BYTES: fprintf(f, "%d", *(int *)ptr); break; case P_CHAR: fprintf(f, "%c", *(char *)ptr); break; case P_OCTAL: { int val = *(int *)ptr; if (val == -1) { fprintf(f, "-1"); } else { fprintf(f, "0%03o", val); } break; } case P_CMDLIST: list_sep = " "; FALL_THROUGH; case P_LIST: if ((char ***)ptr && *(char ***)ptr) { char **list = *(char ***)ptr; for (; *list; list++) { /* surround strings with whitespace in double quotes */ if (*(list+1) == NULL) { /* last item, no extra separator */ list_sep = ""; } if ( strchr_m( *list, ' ' ) ) { fprintf(f, "\"%s\"%s", *list, list_sep); } else { fprintf(f, "%s%s", *list, list_sep); } } } break; case P_STRING: case P_USTRING: if (*(char **)ptr) { fprintf(f, "%s", *(char **)ptr); } break; } } /** * Check if two parameters are equal. */ static bool lpcfg_equal_parameter(parm_type type, void *ptr1, void *ptr2) { switch (type) { case P_BOOL: case P_BOOLREV: return (*((bool *)ptr1) == *((bool *)ptr2)); case P_INTEGER: case P_ENUM: case P_OCTAL: case P_BYTES: return (*((int *)ptr1) == *((int *)ptr2)); case P_CHAR: return (*((char *)ptr1) == *((char *)ptr2)); case P_LIST: case P_CMDLIST: return str_list_equal(*(const char ***)ptr1, *(const char ***)ptr2); case P_STRING: case P_USTRING: { char *p1 = *(char **)ptr1, *p2 = *(char **)ptr2; if (p1 && !*p1) p1 = NULL; if (p2 && !*p2) p2 = NULL; return (p1 == p2 || strequal(p1, p2)); } } return false; } /** * Process a new section (service). * * At this stage all sections are services. * Later we'll have special sections that permit server parameters to be set. * Returns True on success, False on failure. */ static bool do_section(const char *pszSectionName, void *userdata) { struct loadparm_context *lp_ctx = (struct loadparm_context *)userdata; bool bRetval; bool isglobal; if (lp_ctx->s3_fns != NULL) { return lp_ctx->s3_fns->do_section(pszSectionName, lp_ctx); } isglobal = ((strwicmp(pszSectionName, GLOBAL_NAME) == 0) || (strwicmp(pszSectionName, GLOBAL_NAME2) == 0)); /* if we've just struck a global section, note the fact. */ lp_ctx->bInGlobalSection = isglobal; /* check for multiple global sections */ if (lp_ctx->bInGlobalSection) { DEBUG(4, ("Processing section \"[%s]\"\n", pszSectionName)); bRetval = true; goto out; } /* if we have a current service, tidy it up before moving on */ bRetval = true; if (lp_ctx->currentService != NULL) bRetval = lpcfg_service_ok(lp_ctx->currentService); /* if all is still well, move to the next record in the services array */ if (bRetval) { /* We put this here to avoid an odd message order if messages are */ /* issued by the post-processing of a previous section. */ DEBUG(4, ("Processing section \"[%s]\"\n", pszSectionName)); if ((lp_ctx->currentService = lpcfg_add_service(lp_ctx, lp_ctx->sDefault, pszSectionName)) == NULL) { DEBUG(0, ("Failed to add a new service\n")); bRetval = false; goto out; } } out: return bRetval; } /** * Determine if a particular base parameter is currently set to the default value. */ static bool is_default(void *base_structure, int i) { void *def_ptr = ((char *)base_structure) + parm_table[i].offset; switch (parm_table[i].type) { case P_CMDLIST: case P_LIST: return str_list_equal((const char * const *)parm_table[i].def.lvalue, *(const char * const **)def_ptr); case P_STRING: case P_USTRING: return strequal(parm_table[i].def.svalue, *(char **)def_ptr); case P_BOOL: case P_BOOLREV: return parm_table[i].def.bvalue == *(bool *)def_ptr; case P_INTEGER: case P_CHAR: case P_OCTAL: case P_BYTES: case P_ENUM: return parm_table[i].def.ivalue == *(int *)def_ptr; } return false; } /** *Display the contents of the global structure. */ void lpcfg_dump_globals(struct loadparm_context *lp_ctx, FILE *f, bool show_defaults) { int i; struct parmlist_entry *data; fprintf(f, "# Global parameters\n[global]\n"); for (i = 0; parm_table[i].label; i++) { if (parm_table[i].p_class != P_GLOBAL) { continue; } if (parm_table[i].flags & FLAG_SYNONYM) { continue; } if (!show_defaults) { if (lp_ctx->flags && (lp_ctx->flags[i] & FLAG_DEFAULT)) { continue; } if (is_default(lp_ctx->globals, i)) { continue; } } fprintf(f, "\t%s = ", parm_table[i].label); lpcfg_print_parameter(&parm_table[i], lpcfg_parm_ptr(lp_ctx, NULL, &parm_table[i]), f); fprintf(f, "\n"); } if (lp_ctx->globals->param_opt != NULL) { for (data = lp_ctx->globals->param_opt; data; data = data->next) { if (!show_defaults && (data->priority & FLAG_DEFAULT)) { continue; } fprintf(f, "\t%s = %s\n", data->key, data->value); } } } /** * Display the contents of a single services record. */ void lpcfg_dump_a_service(struct loadparm_service * pService, struct loadparm_service *sDefault, FILE * f, unsigned int *flags, bool show_defaults) { int i; struct parmlist_entry *data; if (pService != sDefault) fprintf(f, "\n[%s]\n", pService->szService); for (i = 0; parm_table[i].label; i++) { if (parm_table[i].p_class != P_LOCAL) { continue; } if (parm_table[i].flags & FLAG_SYNONYM) { continue; } if (*parm_table[i].label == '-') { continue; } if (pService == sDefault) { if (!show_defaults) { if (flags && (flags[i] & FLAG_DEFAULT)) { continue; } if (is_default(sDefault, i)) { continue; } } } else { bool equal; equal = lpcfg_equal_parameter(parm_table[i].type, ((char *)pService) + parm_table[i].offset, ((char *)sDefault) + parm_table[i].offset); if (equal) { continue; } } fprintf(f, "\t%s = ", parm_table[i].label); lpcfg_print_parameter(&parm_table[i], ((char *)pService) + parm_table[i].offset, f); fprintf(f, "\n"); } if (pService->param_opt != NULL) { for (data = pService->param_opt; data; data = data->next) { if (!show_defaults && (data->priority & FLAG_DEFAULT)) { continue; } fprintf(f, "\t%s = %s\n", data->key, data->value); } } } bool lpcfg_dump_a_parameter(struct loadparm_context *lp_ctx, struct loadparm_service *service, const char *parm_name, FILE * f) { struct parm_struct *parm; void *ptr; char *local_parm_name; char *parm_opt; const char *parm_opt_value; /* check for parametrical option */ local_parm_name = talloc_strdup(lp_ctx, parm_name); if (local_parm_name == NULL) { return false; } parm_opt = strchr( local_parm_name, ':'); if (parm_opt) { *parm_opt = '\0'; parm_opt++; if (strlen(parm_opt)) { parm_opt_value = lpcfg_parm_string(lp_ctx, service, local_parm_name, parm_opt); if (parm_opt_value) { fprintf(f, "%s\n", parm_opt_value); TALLOC_FREE(local_parm_name); return true; } } TALLOC_FREE(local_parm_name); return false; } TALLOC_FREE(local_parm_name); /* parameter is not parametric, search the table */ parm = lpcfg_parm_struct(lp_ctx, parm_name); if (!parm) { return false; } if (service != NULL && parm->p_class == P_GLOBAL) { return false; } ptr = lpcfg_parm_ptr(lp_ctx, service,parm); lpcfg_print_parameter(parm, ptr, f); fprintf(f, "\n"); return true; } /** * Auto-load some home services. */ static void lpcfg_add_auto_services(struct loadparm_context *lp_ctx, const char *str) { return; } /*************************************************************************** Initialise the sDefault parameter structure for the printer values. ***************************************************************************/ void init_printer_values(struct loadparm_context *lp_ctx, TALLOC_CTX *ctx, struct loadparm_service *pService) { /* choose defaults depending on the type of printing */ switch (pService->printing) { case PRINT_BSD: case PRINT_AIX: case PRINT_LPRNT: case PRINT_LPROS2: lpcfg_string_set(ctx, &pService->lpq_command, "lpq -P'%p'"); lpcfg_string_set(ctx, &pService->lprm_command, "lprm -P'%p' %j"); lpcfg_string_set(ctx, &pService->print_command, "lpr -r -P'%p' %s"); break; case PRINT_LPRNG: case PRINT_PLP: lpcfg_string_set(ctx, &pService->lpq_command, "lpq -P'%p'"); lpcfg_string_set(ctx, &pService->lprm_command, "lprm -P'%p' %j"); lpcfg_string_set(ctx, &pService->print_command, "lpr -r -P'%p' %s"); lpcfg_string_set(ctx, &pService->queuepause_command, "lpc stop '%p'"); lpcfg_string_set(ctx, &pService->queueresume_command, "lpc start '%p'"); lpcfg_string_set(ctx, &pService->lppause_command, "lpc hold '%p' %j"); lpcfg_string_set(ctx, &pService->lpresume_command, "lpc release '%p' %j"); break; case PRINT_CUPS: case PRINT_IPRINT: /* set the lpq command to contain the destination printer name only. This is used by cups_queue_get() */ lpcfg_string_set(ctx, &pService->lpq_command, "%p"); lpcfg_string_set(ctx, &pService->lprm_command, ""); lpcfg_string_set(ctx, &pService->print_command, ""); lpcfg_string_set(ctx, &pService->lppause_command, ""); lpcfg_string_set(ctx, &pService->lpresume_command, ""); lpcfg_string_set(ctx, &pService->queuepause_command, ""); lpcfg_string_set(ctx, &pService->queueresume_command, ""); break; case PRINT_SYSV: case PRINT_HPUX: lpcfg_string_set(ctx, &pService->lpq_command, "lpstat -o%p"); lpcfg_string_set(ctx, &pService->lprm_command, "cancel %p-%j"); lpcfg_string_set(ctx, &pService->print_command, "lp -c -d%p %s; rm %s"); lpcfg_string_set(ctx, &pService->queuepause_command, "disable %p"); lpcfg_string_set(ctx, &pService->queueresume_command, "enable %p"); #ifndef HPUX lpcfg_string_set(ctx, &pService->lppause_command, "lp -i %p-%j -H hold"); lpcfg_string_set(ctx, &pService->lpresume_command, "lp -i %p-%j -H resume"); #endif /* HPUX */ break; case PRINT_QNX: lpcfg_string_set(ctx, &pService->lpq_command, "lpq -P%p"); lpcfg_string_set(ctx, &pService->lprm_command, "lprm -P%p %j"); lpcfg_string_set(ctx, &pService->print_command, "lp -r -P%p %s"); break; #if defined(DEVELOPER) || defined(ENABLE_SELFTEST) case PRINT_TEST: case PRINT_VLP: { const char *tdbfile; TALLOC_CTX *tmp_ctx = talloc_new(ctx); const char *tmp; tmp = lpcfg_parm_string(lp_ctx, NULL, "vlp", "tdbfile"); if (tmp == NULL) { tmp = "/tmp/vlp.tdb"; } tdbfile = talloc_asprintf(tmp_ctx, "tdbfile=%s", tmp); if (tdbfile == NULL) { tdbfile="tdbfile=/tmp/vlp.tdb"; } tmp = talloc_asprintf(tmp_ctx, "vlp %s print %%p %%s", tdbfile); lpcfg_string_set(ctx, &pService->print_command, tmp ? tmp : "vlp print %p %s"); tmp = talloc_asprintf(tmp_ctx, "vlp %s lpq %%p", tdbfile); lpcfg_string_set(ctx, &pService->lpq_command, tmp ? tmp : "vlp lpq %p"); tmp = talloc_asprintf(tmp_ctx, "vlp %s lprm %%p %%j", tdbfile); lpcfg_string_set(ctx, &pService->lprm_command, tmp ? tmp : "vlp lprm %p %j"); tmp = talloc_asprintf(tmp_ctx, "vlp %s lppause %%p %%j", tdbfile); lpcfg_string_set(ctx, &pService->lppause_command, tmp ? tmp : "vlp lppause %p %j"); tmp = talloc_asprintf(tmp_ctx, "vlp %s lpresume %%p %%j", tdbfile); lpcfg_string_set(ctx, &pService->lpresume_command, tmp ? tmp : "vlp lpresume %p %j"); tmp = talloc_asprintf(tmp_ctx, "vlp %s queuepause %%p", tdbfile); lpcfg_string_set(ctx, &pService->queuepause_command, tmp ? tmp : "vlp queuepause %p"); tmp = talloc_asprintf(tmp_ctx, "vlp %s queueresume %%p", tdbfile); lpcfg_string_set(ctx, &pService->queueresume_command, tmp ? tmp : "vlp queueresume %p"); TALLOC_FREE(tmp_ctx); break; } #endif /* DEVELOPER */ } } static int lpcfg_destructor(struct loadparm_context *lp_ctx) { struct parmlist_entry *data; if (lp_ctx->refuse_free) { /* someone is trying to free the global_loadparm_context. We can't allow that. */ return -1; } if (lp_ctx->globals->param_opt != NULL) { struct parmlist_entry *next; for (data = lp_ctx->globals->param_opt; data; data=next) { next = data->next; if (data->priority & FLAG_CMDLINE) continue; DLIST_REMOVE(lp_ctx->globals->param_opt, data); talloc_free(data); } } return 0; } /** * Initialise the global parameter structure. * * Note that most callers should use loadparm_init_global() instead */ struct loadparm_context *loadparm_init(TALLOC_CTX *mem_ctx) { int i; char *myname; struct loadparm_context *lp_ctx; struct parmlist_entry *parm; char *logfile; lp_ctx = talloc_zero(mem_ctx, struct loadparm_context); if (lp_ctx == NULL) return NULL; talloc_set_destructor(lp_ctx, lpcfg_destructor); lp_ctx->bInGlobalSection = true; lp_ctx->globals = talloc_zero(lp_ctx, struct loadparm_global); /* This appears odd, but globals in s3 isn't a pointer */ lp_ctx->globals->ctx = lp_ctx->globals; lp_ctx->globals->rpc_low_port = SERVER_TCP_LOW_PORT; lp_ctx->globals->rpc_high_port = SERVER_TCP_HIGH_PORT; lp_ctx->globals->weak_crypto = SAMBA_WEAK_CRYPTO_UNKNOWN; lp_ctx->sDefault = talloc_zero(lp_ctx, struct loadparm_service); lp_ctx->flags = talloc_zero_array(lp_ctx, unsigned int, num_parameters()); lp_ctx->sDefault->max_print_jobs = 1000; lp_ctx->sDefault->available = true; lp_ctx->sDefault->browseable = true; lp_ctx->sDefault->read_only = true; lp_ctx->sDefault->map_archive = true; lp_ctx->sDefault->strict_locking = true; lp_ctx->sDefault->oplocks = true; lp_ctx->sDefault->create_mask = 0744; lp_ctx->sDefault->force_create_mode = 0000; lp_ctx->sDefault->directory_mask = 0755; lp_ctx->sDefault->force_directory_mode = 0000; lp_ctx->sDefault->aio_read_size = 1; lp_ctx->sDefault->aio_write_size = 1; lp_ctx->sDefault->smbd_search_ask_sharemode = true; lp_ctx->sDefault->smbd_getinfo_ask_sharemode = true; lp_ctx->sDefault->volume_serial_number = -1; DEBUG(3, ("Initialising global parameters\n")); for (i = 0; parm_table[i].label; i++) { if ((parm_table[i].type == P_STRING || parm_table[i].type == P_USTRING) && !(lp_ctx->flags[i] & FLAG_CMDLINE)) { TALLOC_CTX *parent_mem; char **r; if (parm_table[i].p_class == P_LOCAL) { parent_mem = lp_ctx->sDefault; r = (char **)(((char *)lp_ctx->sDefault) + parm_table[i].offset); } else { parent_mem = lp_ctx->globals; r = (char **)(((char *)lp_ctx->globals) + parm_table[i].offset); } lpcfg_string_set(parent_mem, r, ""); } } logfile = talloc_asprintf(lp_ctx, "%s/log.samba", dyn_LOGFILEBASE); lpcfg_do_global_parameter(lp_ctx, "log file", logfile); talloc_free(logfile); lpcfg_do_global_parameter(lp_ctx, "log level", "0"); lpcfg_do_global_parameter(lp_ctx, "syslog", "1"); lpcfg_do_global_parameter(lp_ctx, "syslog only", "No"); lpcfg_do_global_parameter(lp_ctx, "debug timestamp", "Yes"); lpcfg_do_global_parameter(lp_ctx, "debug prefix timestamp", "No"); lpcfg_do_global_parameter(lp_ctx, "debug hires timestamp", "Yes"); lpcfg_do_global_parameter(lp_ctx, "debug syslog format", "No"); lpcfg_do_global_parameter(lp_ctx, "debug pid", "No"); lpcfg_do_global_parameter(lp_ctx, "debug uid", "No"); lpcfg_do_global_parameter(lp_ctx, "debug class", "No"); lpcfg_do_global_parameter(lp_ctx, "server role", "auto"); lpcfg_do_global_parameter(lp_ctx, "domain logons", "No"); lpcfg_do_global_parameter(lp_ctx, "domain master", "Auto"); /* options that can be set on the command line must be initialised via the slower lpcfg_do_global_parameter() to ensure that FLAG_CMDLINE is obeyed */ #ifdef TCP_NODELAY lpcfg_do_global_parameter(lp_ctx, "socket options", "TCP_NODELAY"); #endif lpcfg_do_global_parameter(lp_ctx, "workgroup", DEFAULT_WORKGROUP); myname = get_myname(lp_ctx); lpcfg_do_global_parameter(lp_ctx, "netbios name", myname); talloc_free(myname); lpcfg_do_global_parameter(lp_ctx, "name resolve order", DEFAULT_NAME_RESOLVE_ORDER); lpcfg_do_global_parameter(lp_ctx, "fstype", "NTFS"); lpcfg_do_global_parameter(lp_ctx, "ntvfs handler", "unixuid default"); lpcfg_do_global_parameter(lp_ctx, "max connections", "0"); lpcfg_do_global_parameter(lp_ctx, "dcerpc endpoint servers", "epmapper wkssvc samr netlogon lsarpc drsuapi dssetup unixinfo browser eventlog6 backupkey dnsserver"); lpcfg_do_global_parameter(lp_ctx, "server services", "s3fs rpc nbt wrepl ldap cldap kdc drepl winbindd ntp_signd kcc dnsupdate dns"); lpcfg_do_global_parameter(lp_ctx, "kccsrv:samba_kcc", "true"); /* the winbind method for domain controllers is for both RODC auth forwarding and for trusted domains */ lpcfg_do_global_parameter(lp_ctx, "private dir", dyn_PRIVATE_DIR); lpcfg_do_global_parameter(lp_ctx, "binddns dir", dyn_BINDDNS_DIR); lpcfg_do_global_parameter(lp_ctx, "registry:HKEY_LOCAL_MACHINE", "hklm.ldb"); /* This hive should be dynamically generated by Samba using data from the sam, but for the moment leave it in a tdb to keep regedt32 from popping up an annoying dialog. */ lpcfg_do_global_parameter(lp_ctx, "registry:HKEY_USERS", "hku.ldb"); /* using UTF8 by default allows us to support all chars */ lpcfg_do_global_parameter(lp_ctx, "unix charset", "UTF-8"); /* Use codepage 850 as a default for the dos character set */ lpcfg_do_global_parameter(lp_ctx, "dos charset", "CP850"); /* * Allow the default PASSWD_CHAT to be overridden in local.h. */ lpcfg_do_global_parameter(lp_ctx, "passwd chat", DEFAULT_PASSWD_CHAT); lpcfg_do_global_parameter(lp_ctx, "pid directory", dyn_PIDDIR); lpcfg_do_global_parameter(lp_ctx, "lock dir", dyn_LOCKDIR); lpcfg_do_global_parameter(lp_ctx, "state directory", dyn_STATEDIR); lpcfg_do_global_parameter(lp_ctx, "cache directory", dyn_CACHEDIR); lpcfg_do_global_parameter(lp_ctx, "ncalrpc dir", dyn_NCALRPCDIR); lpcfg_do_global_parameter(lp_ctx, "nbt client socket address", "0.0.0.0"); lpcfg_do_global_parameter_var(lp_ctx, "server string", "Samba %s", SAMBA_VERSION_STRING); lpcfg_do_global_parameter(lp_ctx, "password server", "*"); lpcfg_do_global_parameter(lp_ctx, "max mux", "50"); lpcfg_do_global_parameter(lp_ctx, "max xmit", "16644"); lpcfg_do_global_parameter(lp_ctx, "host msdfs", "true"); lpcfg_do_global_parameter(lp_ctx, "LargeReadwrite", "True"); lpcfg_do_global_parameter(lp_ctx, "server min protocol", "SMB2_02"); lpcfg_do_global_parameter(lp_ctx, "server max protocol", "SMB3"); lpcfg_do_global_parameter(lp_ctx, "client min protocol", "SMB2_02"); lpcfg_do_global_parameter(lp_ctx, "client max protocol", "default"); lpcfg_do_global_parameter(lp_ctx, "client ipc min protocol", "default"); lpcfg_do_global_parameter(lp_ctx, "client ipc max protocol", "default"); lpcfg_do_global_parameter(lp_ctx, "security", "AUTO"); lpcfg_do_global_parameter(lp_ctx, "EncryptPasswords", "True"); lpcfg_do_global_parameter(lp_ctx, "ReadRaw", "True"); lpcfg_do_global_parameter(lp_ctx, "WriteRaw", "True"); lpcfg_do_global_parameter(lp_ctx, "NullPasswords", "False"); lpcfg_do_global_parameter(lp_ctx, "old password allowed period", "60"); lpcfg_do_global_parameter(lp_ctx, "ObeyPamRestrictions", "False"); lpcfg_do_global_parameter(lp_ctx, "TimeServer", "False"); lpcfg_do_global_parameter(lp_ctx, "BindInterfacesOnly", "False"); lpcfg_do_global_parameter(lp_ctx, "Unicode", "True"); lpcfg_do_global_parameter(lp_ctx, "ClientLanManAuth", "False"); lpcfg_do_global_parameter(lp_ctx, "ClientNTLMv2Auth", "True"); lpcfg_do_global_parameter(lp_ctx, "LanmanAuth", "False"); lpcfg_do_global_parameter(lp_ctx, "NTLMAuth", "ntlmv2-only"); lpcfg_do_global_parameter(lp_ctx, "NT hash store", "always"); lpcfg_do_global_parameter(lp_ctx, "RawNTLMv2Auth", "False"); lpcfg_do_global_parameter(lp_ctx, "client use spnego principal", "False"); lpcfg_do_global_parameter(lp_ctx, "allow dcerpc auth level connect", "False"); lpcfg_do_global_parameter(lp_ctx, "UnixExtensions", "True"); lpcfg_do_global_parameter(lp_ctx, "PreferredMaster", "Auto"); lpcfg_do_global_parameter(lp_ctx, "LocalMaster", "True"); lpcfg_do_global_parameter(lp_ctx, "wins support", "False"); lpcfg_do_global_parameter(lp_ctx, "dns proxy", "True"); lpcfg_do_global_parameter(lp_ctx, "winbind separator", "\\"); lpcfg_do_global_parameter(lp_ctx, "winbind sealed pipes", "True"); lpcfg_do_global_parameter(lp_ctx, "winbind scan trusted domains", "False"); lpcfg_do_global_parameter(lp_ctx, "require strong key", "True"); lpcfg_do_global_parameter(lp_ctx, "reject md5 servers", "True"); lpcfg_do_global_parameter(lp_ctx, "winbindd socket directory", dyn_WINBINDD_SOCKET_DIR); lpcfg_do_global_parameter(lp_ctx, "ntp signd socket directory", dyn_NTP_SIGND_SOCKET_DIR); lpcfg_do_global_parameter_var(lp_ctx, "gpo update command", "%s/samba-gpupdate", dyn_SCRIPTSBINDIR); lpcfg_do_global_parameter_var(lp_ctx, "apply group policies", "False"); lpcfg_do_global_parameter_var(lp_ctx, "dns update command", "%s/samba_dnsupdate", dyn_SCRIPTSBINDIR); lpcfg_do_global_parameter_var(lp_ctx, "spn update command", "%s/samba_spnupdate", dyn_SCRIPTSBINDIR); lpcfg_do_global_parameter_var(lp_ctx, "samba kcc command", "%s/samba_kcc", dyn_SCRIPTSBINDIR); #ifdef MIT_KDC_PATH lpcfg_do_global_parameter_var(lp_ctx, "mit kdc command", MIT_KDC_PATH); #endif lpcfg_do_global_parameter(lp_ctx, "template shell", "/bin/false"); lpcfg_do_global_parameter(lp_ctx, "template homedir", "/home/%D/%U"); lpcfg_do_global_parameter(lp_ctx, "client signing", "default"); lpcfg_do_global_parameter(lp_ctx, "client ipc signing", "default"); lpcfg_do_global_parameter(lp_ctx, "server signing", "default"); lpcfg_do_global_parameter(lp_ctx, "use mmap", "True"); lpcfg_do_global_parameter(lp_ctx, "smb ports", "445 139"); lpcfg_do_global_parameter_var(lp_ctx, "nbt port", "%d", NBT_NAME_SERVICE_PORT); lpcfg_do_global_parameter_var(lp_ctx, "dgram port", "%d", NBT_DGRAM_SERVICE_PORT); lpcfg_do_global_parameter(lp_ctx, "cldap port", "389"); lpcfg_do_global_parameter(lp_ctx, "krb5 port", "88"); lpcfg_do_global_parameter(lp_ctx, "kpasswd port", "464"); lpcfg_do_global_parameter_var(lp_ctx, "dns port", "%d", DNS_SERVICE_PORT); lpcfg_do_global_parameter(lp_ctx, "kdc enable fast", "True"); lpcfg_do_global_parameter(lp_ctx, "nt status support", "True"); lpcfg_do_global_parameter(lp_ctx, "max wins ttl", "518400"); /* 6 days */ lpcfg_do_global_parameter(lp_ctx, "min wins ttl", "21600"); lpcfg_do_global_parameter(lp_ctx, "tls enabled", "True"); lpcfg_do_global_parameter(lp_ctx, "tls verify peer", "as_strict_as_possible"); lpcfg_do_global_parameter(lp_ctx, "tls keyfile", "tls/key.pem"); lpcfg_do_global_parameter(lp_ctx, "tls certfile", "tls/cert.pem"); lpcfg_do_global_parameter(lp_ctx, "tls cafile", "tls/ca.pem"); lpcfg_do_global_parameter(lp_ctx, "tls priority", "NORMAL:-VERS-SSL3.0"); lpcfg_do_global_parameter(lp_ctx, "nsupdate command", "/usr/bin/nsupdate -g"); lpcfg_do_global_parameter(lp_ctx, "allow dns updates", "secure only"); lpcfg_do_global_parameter(lp_ctx, "dns zone scavenging", "False"); lpcfg_do_global_parameter(lp_ctx, "dns forwarder", ""); lpcfg_do_global_parameter(lp_ctx, "algorithmic rid base", "1000"); lpcfg_do_global_parameter(lp_ctx, "enhanced browsing", "True"); lpcfg_do_global_parameter(lp_ctx, "winbind nss info", "template"); lpcfg_do_global_parameter(lp_ctx, "server schannel", "True"); lpcfg_do_global_parameter(lp_ctx, "server schannel require seal", "True"); lpcfg_do_global_parameter(lp_ctx, "reject md5 clients", "True"); lpcfg_do_global_parameter(lp_ctx, "short preserve case", "True"); lpcfg_do_global_parameter(lp_ctx, "max open files", "16384"); lpcfg_do_global_parameter(lp_ctx, "cups connection timeout", "30"); lpcfg_do_global_parameter(lp_ctx, "locking", "True"); lpcfg_do_global_parameter(lp_ctx, "block size", "1024"); lpcfg_do_global_parameter(lp_ctx, "client use spnego", "True"); lpcfg_do_global_parameter(lp_ctx, "change notify", "True"); lpcfg_do_global_parameter(lp_ctx, "name cache timeout", "660"); lpcfg_do_global_parameter(lp_ctx, "defer sharing violations", "True"); lpcfg_do_global_parameter(lp_ctx, "ldap replication sleep", "1000"); lpcfg_do_global_parameter(lp_ctx, "idmap backend", "tdb"); lpcfg_do_global_parameter(lp_ctx, "enable privileges", "True"); lpcfg_do_global_parameter_var(lp_ctx, "smb2 max write", "%u", DEFAULT_SMB2_MAX_WRITE); lpcfg_do_global_parameter(lp_ctx, "passdb backend", "tdbsam"); lpcfg_do_global_parameter(lp_ctx, "deadtime", "10080"); lpcfg_do_global_parameter(lp_ctx, "getwd cache", "True"); lpcfg_do_global_parameter(lp_ctx, "winbind nested groups", "True"); lpcfg_do_global_parameter(lp_ctx, "mangled names", "illegal"); lpcfg_do_global_parameter_var(lp_ctx, "smb2 max credits", "%u", DEFAULT_SMB2_MAX_CREDITS); lpcfg_do_global_parameter(lp_ctx, "ldap ssl", "start tls"); lpcfg_do_global_parameter(lp_ctx, "ldap deref", "auto"); lpcfg_do_global_parameter(lp_ctx, "lm interval", "60"); lpcfg_do_global_parameter(lp_ctx, "mangling method", "hash2"); lpcfg_do_global_parameter(lp_ctx, "hide dot files", "True"); lpcfg_do_global_parameter(lp_ctx, "browse list", "True"); lpcfg_do_global_parameter(lp_ctx, "passwd chat timeout", "2"); lpcfg_do_global_parameter(lp_ctx, "guest account", GUEST_ACCOUNT); lpcfg_do_global_parameter(lp_ctx, "client schannel", "True"); lpcfg_do_global_parameter(lp_ctx, "smb encrypt", "default"); lpcfg_do_global_parameter(lp_ctx, "max log size", "5000"); lpcfg_do_global_parameter(lp_ctx, "idmap negative cache time", "120"); lpcfg_do_global_parameter(lp_ctx, "ldap follow referral", "auto"); lpcfg_do_global_parameter(lp_ctx, "multicast dns register", "yes"); lpcfg_do_global_parameter(lp_ctx, "winbind reconnect delay", "30"); lpcfg_do_global_parameter(lp_ctx, "winbind request timeout", "60"); lpcfg_do_global_parameter(lp_ctx, "nt acl support", "yes"); lpcfg_do_global_parameter(lp_ctx, "acl check permissions", "yes"); lpcfg_do_global_parameter(lp_ctx, "keepalive", "300"); lpcfg_do_global_parameter(lp_ctx, "smbd profiling level", "off"); lpcfg_do_global_parameter(lp_ctx, "winbind cache time", "300"); lpcfg_do_global_parameter(lp_ctx, "level2 oplocks", "yes"); lpcfg_do_global_parameter(lp_ctx, "show add printer wizard", "yes"); lpcfg_do_global_parameter(lp_ctx, "ldap page size", "1000"); lpcfg_do_global_parameter(lp_ctx, "kernel share modes", "no"); lpcfg_do_global_parameter(lp_ctx, "strict locking", "Auto"); lpcfg_do_global_parameter(lp_ctx, "strict sync", "yes"); lpcfg_do_global_parameter(lp_ctx, "map readonly", "no"); lpcfg_do_global_parameter(lp_ctx, "allow trusted domains", "yes"); lpcfg_do_global_parameter(lp_ctx, "default devmode", "yes"); lpcfg_do_global_parameter(lp_ctx, "os level", "20"); lpcfg_do_global_parameter(lp_ctx, "dos filetimes", "yes"); lpcfg_do_global_parameter(lp_ctx, "mangling char", "~"); lpcfg_do_global_parameter(lp_ctx, "printcap cache time", "750"); lpcfg_do_global_parameter(lp_ctx, "create krb5 conf", "yes"); lpcfg_do_global_parameter(lp_ctx, "winbind max clients", "200"); lpcfg_do_global_parameter(lp_ctx, "acl map full control", "yes"); lpcfg_do_global_parameter(lp_ctx, "nt pipe support", "yes"); lpcfg_do_global_parameter(lp_ctx, "ldap debug threshold", "10"); lpcfg_do_global_parameter(lp_ctx, "client ldap sasl wrapping", "seal"); lpcfg_do_global_parameter(lp_ctx, "mdns name", "netbios"); lpcfg_do_global_parameter(lp_ctx, "ldap server require strong auth", "yes"); lpcfg_do_global_parameter(lp_ctx, "follow symlinks", "yes"); lpcfg_do_global_parameter(lp_ctx, "machine password timeout", "604800"); lpcfg_do_global_parameter(lp_ctx, "ldap connection timeout", "2"); lpcfg_do_global_parameter(lp_ctx, "winbind expand groups", "0"); lpcfg_do_global_parameter(lp_ctx, "stat cache", "yes"); lpcfg_do_global_parameter(lp_ctx, "lpq cache time", "30"); lpcfg_do_global_parameter_var(lp_ctx, "smb2 max trans", "%u", DEFAULT_SMB2_MAX_TRANSACT); lpcfg_do_global_parameter_var(lp_ctx, "smb2 max read", "%u", DEFAULT_SMB2_MAX_READ); lpcfg_do_global_parameter(lp_ctx, "durable handles", "yes"); lpcfg_do_global_parameter(lp_ctx, "max stat cache size", "512"); lpcfg_do_global_parameter(lp_ctx, "ldap passwd sync", "no"); lpcfg_do_global_parameter(lp_ctx, "kernel change notify", "yes"); lpcfg_do_global_parameter(lp_ctx, "max ttl", "259200"); lpcfg_do_global_parameter(lp_ctx, "blocking locks", "yes"); lpcfg_do_global_parameter(lp_ctx, "load printers", "yes"); lpcfg_do_global_parameter(lp_ctx, "idmap cache time", "604800"); lpcfg_do_global_parameter(lp_ctx, "preserve case", "yes"); lpcfg_do_global_parameter(lp_ctx, "lm announce", "auto"); lpcfg_do_global_parameter(lp_ctx, "afs token lifetime", "604800"); lpcfg_do_global_parameter(lp_ctx, "enable core files", "yes"); lpcfg_do_global_parameter(lp_ctx, "winbind max domain connections", "1"); lpcfg_do_global_parameter(lp_ctx, "case sensitive", "auto"); lpcfg_do_global_parameter(lp_ctx, "ldap timeout", "15"); lpcfg_do_global_parameter(lp_ctx, "mangle prefix", "1"); lpcfg_do_global_parameter(lp_ctx, "posix locking", "yes"); lpcfg_do_global_parameter(lp_ctx, "lock spin time", "200"); lpcfg_do_global_parameter(lp_ctx, "directory name cache size", "100"); lpcfg_do_global_parameter(lp_ctx, "nmbd bind explicit broadcast", "yes"); lpcfg_do_global_parameter(lp_ctx, "init logon delay", "100"); lpcfg_do_global_parameter(lp_ctx, "usershare owner only", "yes"); lpcfg_do_global_parameter(lp_ctx, "-valid", "yes"); lpcfg_do_global_parameter_var(lp_ctx, "usershare path", "%s/usershares", get_dyn_STATEDIR()); #ifdef DEVELOPER lpcfg_do_global_parameter_var(lp_ctx, "panic action", "/bin/sleep 999999999"); #endif lpcfg_do_global_parameter(lp_ctx, "smb passwd file", get_dyn_SMB_PASSWD_FILE()); lpcfg_do_global_parameter(lp_ctx, "logon home", "\\\\%N\\%U"); lpcfg_do_global_parameter(lp_ctx, "logon path", "\\\\%N\\%U\\profile"); lpcfg_do_global_parameter(lp_ctx, "printjob username", "%U"); lpcfg_do_global_parameter(lp_ctx, "aio max threads", "100"); lpcfg_do_global_parameter(lp_ctx, "smb2 leases", "yes"); lpcfg_do_global_parameter(lp_ctx, "server multi channel support", "yes"); lpcfg_do_global_parameter(lp_ctx, "kerberos encryption types", "all"); lpcfg_do_global_parameter(lp_ctx, "rpc server dynamic port range", "49152-65535"); lpcfg_do_global_parameter(lp_ctx, "prefork children", "4"); lpcfg_do_global_parameter(lp_ctx, "prefork backoff increment", "10"); lpcfg_do_global_parameter(lp_ctx, "prefork maximum backoff", "120"); lpcfg_do_global_parameter(lp_ctx, "check parent directory delete on close", "no"); lpcfg_do_global_parameter(lp_ctx, "ea support", "yes"); lpcfg_do_global_parameter(lp_ctx, "store dos attributes", "yes"); lpcfg_do_global_parameter(lp_ctx, "debug encryption", "no"); lpcfg_do_global_parameter(lp_ctx, "spotlight backend", "noindex"); lpcfg_do_global_parameter( lp_ctx, "ldap max anonymous request size", "256000"); lpcfg_do_global_parameter( lp_ctx, "ldap max authenticated request size", "16777216"); lpcfg_do_global_parameter( lp_ctx, "ldap max search request size", "256000"); /* Async DNS query timeout in seconds. */ lpcfg_do_global_parameter(lp_ctx, "async dns timeout", "10"); lpcfg_do_global_parameter(lp_ctx, "client smb encrypt", "default"); lpcfg_do_global_parameter(lp_ctx, "client use kerberos", "desired"); lpcfg_do_global_parameter(lp_ctx, "client protection", "default"); lpcfg_do_global_parameter(lp_ctx, "smbd max xattr size", "65536"); lpcfg_do_global_parameter(lp_ctx, "acl flag inherited canonicalization", "yes"); lpcfg_do_global_parameter(lp_ctx, "winbind use krb5 enterprise principals", "yes"); lpcfg_do_global_parameter(lp_ctx, "client smb3 signing algorithms", DEFAULT_SMB3_SIGNING_ALGORITHMS); lpcfg_do_global_parameter(lp_ctx, "server smb3 signing algorithms", DEFAULT_SMB3_SIGNING_ALGORITHMS); lpcfg_do_global_parameter(lp_ctx, "client smb3 encryption algorithms", DEFAULT_SMB3_ENCRYPTION_ALGORITHMS); lpcfg_do_global_parameter(lp_ctx, "server smb3 encryption algorithms", DEFAULT_SMB3_ENCRYPTION_ALGORITHMS); lpcfg_do_global_parameter(lp_ctx, "min domain uid", "1000"); lpcfg_do_global_parameter(lp_ctx, "rpc start on demand helpers", "yes"); for (i = 0; parm_table[i].label; i++) { if (!(lp_ctx->flags[i] & FLAG_CMDLINE)) { lp_ctx->flags[i] |= FLAG_DEFAULT; } } for (parm=lp_ctx->globals->param_opt; parm; parm=parm->next) { if (!(parm->priority & FLAG_CMDLINE)) { parm->priority |= FLAG_DEFAULT; } } for (parm=lp_ctx->sDefault->param_opt; parm; parm=parm->next) { if (!(parm->priority & FLAG_CMDLINE)) { parm->priority |= FLAG_DEFAULT; } } return lp_ctx; } /** * Initialise the global parameter structure. */ struct loadparm_context *loadparm_init_global(bool load_default) { if (global_loadparm_context == NULL) { global_loadparm_context = loadparm_init(NULL); } if (global_loadparm_context == NULL) { return NULL; } global_loadparm_context->global = true; if (load_default && !global_loadparm_context->loaded) { lpcfg_load_default(global_loadparm_context); } global_loadparm_context->refuse_free = true; return global_loadparm_context; } /** * Initialise the global parameter structure. */ struct loadparm_context *loadparm_init_s3(TALLOC_CTX *mem_ctx, const struct loadparm_s3_helpers *s3_fns) { struct loadparm_context *loadparm_context = talloc_zero(mem_ctx, struct loadparm_context); if (!loadparm_context) { return NULL; } loadparm_context->s3_fns = s3_fns; loadparm_context->globals = s3_fns->globals; loadparm_context->flags = s3_fns->flags; return loadparm_context; } const char *lpcfg_configfile(struct loadparm_context *lp_ctx) { return lp_ctx->szConfigFile; } const char *lp_default_path(void) { if (getenv("SMB_CONF_PATH")) return getenv("SMB_CONF_PATH"); else return dyn_CONFIGFILE; } /** * Update the internal state of a loadparm context after settings * have changed. */ static bool lpcfg_update(struct loadparm_context *lp_ctx) { struct debug_settings settings; int max_protocol, min_protocol; TALLOC_CTX *tmp_ctx; const struct loadparm_substitution *lp_sub = lpcfg_noop_substitution(); tmp_ctx = talloc_new(lp_ctx); if (tmp_ctx == NULL) { return false; } lpcfg_add_auto_services(lp_ctx, lpcfg_auto_services(lp_ctx, lp_sub, tmp_ctx)); if (!lp_ctx->globals->wins_server_list && lp_ctx->globals->we_are_a_wins_server) { lpcfg_do_global_parameter(lp_ctx, "wins server", "127.0.0.1"); } if (!lp_ctx->global) { TALLOC_FREE(tmp_ctx); return true; } panic_action = lp_ctx->globals->panic_action; reload_charcnv(lp_ctx); ZERO_STRUCT(settings); /* Add any more debug-related smb.conf parameters created in * future here */ settings.timestamp_logs = lp_ctx->globals->timestamp_logs; settings.debug_prefix_timestamp = lp_ctx->globals->debug_prefix_timestamp; settings.debug_hires_timestamp = lp_ctx->globals->debug_hires_timestamp; settings.debug_syslog_format = lp_ctx->globals->debug_syslog_format; settings.debug_pid = lp_ctx->globals->debug_pid; settings.debug_uid = lp_ctx->globals->debug_uid; settings.debug_class = lp_ctx->globals->debug_class; settings.max_log_size = lp_ctx->globals->max_log_size; debug_set_settings(&settings, lp_ctx->globals->logging, lp_ctx->globals->syslog, lp_ctx->globals->syslog_only); /* FIXME: This is a bit of a hack, but we can't use a global, since * not everything that uses lp also uses the socket library */ if (lpcfg_parm_bool(lp_ctx, NULL, "socket", "testnonblock", false)) { setenv("SOCKET_TESTNONBLOCK", "1", 1); } else { unsetenv("SOCKET_TESTNONBLOCK"); } /* Check if command line max protocol < min protocol, if so * report a warning to the user. */ max_protocol = lpcfg_client_max_protocol(lp_ctx); min_protocol = lpcfg_client_min_protocol(lp_ctx); if (lpcfg_client_max_protocol(lp_ctx) < lpcfg_client_min_protocol(lp_ctx)) { const char *max_protocolp, *min_protocolp; max_protocolp = lpcfg_get_smb_protocol(max_protocol); min_protocolp = lpcfg_get_smb_protocol(min_protocol); DBG_ERR("Max protocol %s is less than min protocol %s.\n", max_protocolp, min_protocolp); } TALLOC_FREE(tmp_ctx); return true; } bool lpcfg_load_default(struct loadparm_context *lp_ctx) { const char *path; path = lp_default_path(); if (!file_exist(path)) { /* We allow the default smb.conf file to not exist, * basically the equivalent of an empty file. */ return lpcfg_update(lp_ctx); } return lpcfg_load(lp_ctx, path); } /** * Load the services array from the services file. * * Return True on success, False on failure. */ static bool lpcfg_load_internal(struct loadparm_context *lp_ctx, const char *filename, bool set_global) { char *n2; bool bRetval; if (lp_ctx->szConfigFile != NULL) { talloc_free(discard_const_p(char, lp_ctx->szConfigFile)); lp_ctx->szConfigFile = NULL; } lp_ctx->szConfigFile = talloc_strdup(lp_ctx, filename); if (lp_ctx->s3_fns) { return lp_ctx->s3_fns->load(filename); } lp_ctx->bInGlobalSection = true; n2 = standard_sub_basic(lp_ctx, lp_ctx->szConfigFile); DEBUG(2, ("lpcfg_load: refreshing parameters from %s\n", n2)); add_to_file_list(lp_ctx, &lp_ctx->file_lists, lp_ctx->szConfigFile, n2); /* We get sections first, so have to start 'behind' to make up */ lp_ctx->currentService = NULL; bRetval = pm_process(n2, do_section, lpcfg_do_parameter, lp_ctx); /* finish up the last section */ DEBUG(4, ("pm_process() returned %s\n", BOOLSTR(bRetval))); if (bRetval) if (lp_ctx->currentService != NULL) bRetval = lpcfg_service_ok(lp_ctx->currentService); bRetval = bRetval && lpcfg_update(lp_ctx); /* we do this unconditionally, so that it happens even for a missing smb.conf */ reload_charcnv(lp_ctx); if (bRetval == true && set_global) { /* set this up so that any child python tasks will find the right smb.conf */ setenv("SMB_CONF_PATH", filename, 1); /* set the context used by the lp_*() function varients */ global_loadparm_context = lp_ctx; lp_ctx->loaded = true; } return bRetval; } bool lpcfg_load_no_global(struct loadparm_context *lp_ctx, const char *filename) { return lpcfg_load_internal(lp_ctx, filename, false); } bool lpcfg_load(struct loadparm_context *lp_ctx, const char *filename) { return lpcfg_load_internal(lp_ctx, filename, true); } /** * Return the max number of services. */ int lpcfg_numservices(struct loadparm_context *lp_ctx) { if (lp_ctx->s3_fns) { return lp_ctx->s3_fns->get_numservices(); } return lp_ctx->iNumServices; } /** * Display the contents of the services array in human-readable form. */ void lpcfg_dump(struct loadparm_context *lp_ctx, FILE *f, bool show_defaults, int maxtoprint) { int iService; if (lp_ctx->s3_fns) { lp_ctx->s3_fns->dump(f, show_defaults, maxtoprint); return; } lpcfg_dump_globals(lp_ctx, f, show_defaults); lpcfg_dump_a_service(lp_ctx->sDefault, lp_ctx->sDefault, f, lp_ctx->flags, show_defaults); for (iService = 0; iService < maxtoprint; iService++) lpcfg_dump_one(f, show_defaults, lp_ctx->services[iService], lp_ctx->sDefault); } /** * Display the contents of one service in human-readable form. */ void lpcfg_dump_one(FILE *f, bool show_defaults, struct loadparm_service *service, struct loadparm_service *sDefault) { if (service != NULL) { if (service->szService[0] == '\0') return; lpcfg_dump_a_service(service, sDefault, f, NULL, show_defaults); } } struct loadparm_service *lpcfg_servicebynum(struct loadparm_context *lp_ctx, int snum) { if (lp_ctx->s3_fns) { return lp_ctx->s3_fns->get_servicebynum(snum); } return lp_ctx->services[snum]; } struct loadparm_service *lpcfg_service(struct loadparm_context *lp_ctx, const char *service_name) { int iService; char *serviceName; if (lp_ctx->s3_fns) { return lp_ctx->s3_fns->get_service(service_name); } for (iService = lp_ctx->iNumServices - 1; iService >= 0; iService--) { if (lp_ctx->services[iService] && lp_ctx->services[iService]->szService) { /* * The substitution here is used to support %U is * service names */ serviceName = standard_sub_basic( lp_ctx->services[iService], lp_ctx->services[iService]->szService); if (strequal(serviceName, service_name)) { talloc_free(serviceName); return lp_ctx->services[iService]; } talloc_free(serviceName); } } DEBUG(7,("lpcfg_servicenumber: couldn't find %s\n", service_name)); return NULL; } const char *lpcfg_servicename(const struct loadparm_service *service) { return service ? lpcfg_string((const char *)service->szService) : NULL; } struct smb_iconv_handle *lpcfg_iconv_handle(struct loadparm_context *lp_ctx) { if (lp_ctx == NULL) { return get_iconv_handle(); } return lp_ctx->iconv_handle; } _PUBLIC_ void reload_charcnv(struct loadparm_context *lp_ctx) { if (!lp_ctx->global) { return; } lp_ctx->iconv_handle = reinit_iconv_handle(lp_ctx, lpcfg_dos_charset(lp_ctx), lpcfg_unix_charset(lp_ctx)); if (lp_ctx->iconv_handle == NULL) { smb_panic("reinit_iconv_handle failed"); } } _PUBLIC_ char *lpcfg_tls_keyfile(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx) { return lpcfg_private_path(mem_ctx, lp_ctx, lpcfg__tls_keyfile(lp_ctx)); } _PUBLIC_ char *lpcfg_tls_certfile(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx) { return lpcfg_private_path(mem_ctx, lp_ctx, lpcfg__tls_certfile(lp_ctx)); } _PUBLIC_ char *lpcfg_tls_cafile(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx) { return lpcfg_private_path(mem_ctx, lp_ctx, lpcfg__tls_cafile(lp_ctx)); } _PUBLIC_ char *lpcfg_tls_crlfile(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx) { return lpcfg_private_path(mem_ctx, lp_ctx, lpcfg__tls_crlfile(lp_ctx)); } _PUBLIC_ char *lpcfg_tls_dhpfile(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx) { return lpcfg_private_path(mem_ctx, lp_ctx, lpcfg__tls_dhpfile(lp_ctx)); } struct gensec_settings *lpcfg_gensec_settings(TALLOC_CTX *mem_ctx, struct loadparm_context *lp_ctx) { struct gensec_settings *settings = talloc_zero(mem_ctx, struct gensec_settings); if (settings == NULL) return NULL; SMB_ASSERT(lp_ctx != NULL); settings->lp_ctx = talloc_reference(settings, lp_ctx); settings->target_hostname = lpcfg_parm_string(lp_ctx, NULL, "gensec", "target_hostname"); return settings; } int lpcfg_server_role(struct loadparm_context *lp_ctx) { int domain_master = lpcfg__domain_master(lp_ctx); return lp_find_server_role(lpcfg__server_role(lp_ctx), lpcfg__security(lp_ctx), lpcfg__domain_logons(lp_ctx), (domain_master == true) || (domain_master == Auto)); } int lpcfg_security(struct loadparm_context *lp_ctx) { return lp_find_security(lpcfg__server_role(lp_ctx), lpcfg__security(lp_ctx)); } int lpcfg_client_max_protocol(struct loadparm_context *lp_ctx) { int client_max_protocol = lpcfg__client_max_protocol(lp_ctx); if (client_max_protocol == PROTOCOL_DEFAULT) { return PROTOCOL_LATEST; } return client_max_protocol; } int lpcfg_client_ipc_min_protocol(struct loadparm_context *lp_ctx) { int client_ipc_min_protocol = lpcfg__client_ipc_min_protocol(lp_ctx); if (client_ipc_min_protocol == PROTOCOL_DEFAULT) { client_ipc_min_protocol = lpcfg_client_min_protocol(lp_ctx); } if (client_ipc_min_protocol < PROTOCOL_NT1) { return PROTOCOL_NT1; } return client_ipc_min_protocol; } int lpcfg_client_ipc_max_protocol(struct loadparm_context *lp_ctx) { int client_ipc_max_protocol = lpcfg__client_ipc_max_protocol(lp_ctx); if (client_ipc_max_protocol == PROTOCOL_DEFAULT) { return PROTOCOL_LATEST; } if (client_ipc_max_protocol < PROTOCOL_NT1) { return PROTOCOL_NT1; } return client_ipc_max_protocol; } int lpcfg_client_ipc_signing(struct loadparm_context *lp_ctx) { int client_ipc_signing = lpcfg__client_ipc_signing(lp_ctx); if (client_ipc_signing == SMB_SIGNING_DEFAULT) { return SMB_SIGNING_REQUIRED; } return client_ipc_signing; } enum credentials_use_kerberos lpcfg_client_use_kerberos(struct loadparm_context *lp_ctx) { if (lpcfg_weak_crypto(lp_ctx) == SAMBA_WEAK_CRYPTO_DISALLOWED) { return CRED_USE_KERBEROS_REQUIRED; } return lpcfg__client_use_kerberos(lp_ctx); } bool lpcfg_server_signing_allowed(struct loadparm_context *lp_ctx, bool *mandatory) { bool allowed = true; enum smb_signing_setting signing_setting = lpcfg_server_signing(lp_ctx); *mandatory = false; if (signing_setting == SMB_SIGNING_DEFAULT) { /* * If we are a domain controller, SMB signing is * really important, as it can prevent a number of * attacks on communications between us and the * clients * * However, it really sucks (no sendfile, CPU * overhead) performance-wise when used on a * file server, so disable it by default * on non-DCs */ if (lpcfg_server_role(lp_ctx) >= ROLE_ACTIVE_DIRECTORY_DC) { signing_setting = SMB_SIGNING_REQUIRED; } else { signing_setting = SMB_SIGNING_OFF; } } switch (signing_setting) { case SMB_SIGNING_REQUIRED: *mandatory = true; break; case SMB_SIGNING_DESIRED: case SMB_SIGNING_IF_REQUIRED: break; case SMB_SIGNING_OFF: allowed = false; break; case SMB_SIGNING_DEFAULT: case SMB_SIGNING_IPC_DEFAULT: smb_panic(__location__); break; } return allowed; } int lpcfg_tdb_hash_size(struct loadparm_context *lp_ctx, const char *name) { const char *base; if (name == NULL) { return 0; } base = strrchr_m(name, '/'); if (base != NULL) { base += 1; } else { base = name; } return lpcfg_parm_int(lp_ctx, NULL, "tdb_hashsize", base, 0); } int lpcfg_tdb_flags(struct loadparm_context *lp_ctx, int tdb_flags) { if (!lpcfg_use_mmap(lp_ctx)) { tdb_flags |= TDB_NOMMAP; } return tdb_flags; } /* * Do not allow LanMan auth if unless NTLMv1 is also allowed * * This also ensures it is disabled if NTLM is totally disabled */ bool lpcfg_lanman_auth(struct loadparm_context *lp_ctx) { enum ntlm_auth_level ntlm_auth_level = lpcfg_ntlm_auth(lp_ctx); if (ntlm_auth_level == NTLM_AUTH_ON) { return lpcfg__lanman_auth(lp_ctx); } else { return false; } } static char *lpcfg_noop_substitution_fn( TALLOC_CTX *mem_ctx, const struct loadparm_substitution *lp_sub, const char *raw_value, void *private_data) { return talloc_strdup(mem_ctx, raw_value); } static const struct loadparm_substitution global_noop_substitution = { .substituted_string_fn = lpcfg_noop_substitution_fn, }; const struct loadparm_substitution *lpcfg_noop_substitution(void) { return &global_noop_substitution; } char *lpcfg_substituted_string(TALLOC_CTX *mem_ctx, const struct loadparm_substitution *lp_sub, const char *raw_value) { return lp_sub->substituted_string_fn(mem_ctx, lp_sub, raw_value, lp_sub->private_data); } /** * @brief Parse a string value of a given parameter to its integer enum value. * * @param[in] param_name The parameter name (e.g. 'client smb encrypt') * * @param[in] param_value The parameter value (e.g. 'required'). * * @return The integer value of the enum the param_value matches or INT32_MIN * on error. */ int32_t lpcfg_parse_enum_vals(const char *param_name, const char *param_value) { struct parm_struct *parm = NULL; int32_t ret = INT32_MIN; bool ok; parm = lpcfg_parm_struct(NULL, param_name); if (parm == NULL) { return INT32_MIN; } ok = lp_set_enum_parm(parm, param_value, &ret); if (!ok) { return INT32_MIN; } return ret; }