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simplesshd/rsync/loadparm.c

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/*
* 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, visit the http://fsf.org website.
*/
/* This is based on loadparm.c from Samba, written by Andrew Tridgell
* and Karl Auer. Some of the changes are:
*
* Copyright (C) 2001, 2002 Martin Pool <mbp@samba.org>
* Copyright (C) 2003-2014 Wayne Davison <wayned@samba.org>
*/
/* Load parameters.
*
* This module provides suitable callback functions for the params
* module. It builds the internal table of section details which is
* then used by the rest of the server.
*
* To add a parameter:
*
* 1) add it to the global_vars or local_vars structure definition
* 2) add it to the parm_table
* 3) add it to the list of available functions (eg: using FN_GLOBAL_STRING())
* 4) initialise it in the Defaults static stucture
*
* Notes:
* The configuration file is processed sequentially for speed. 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 "rsync.h"
#include "itypes.h"
extern item_list dparam_list;
#define strequal(a, b) (strcasecmp(a, b)==0)
#define BOOLSTR(b) ((b) ? "Yes" : "No")
#ifndef LOG_DAEMON
#define LOG_DAEMON 0
#endif
#define DEFAULT_DONT_COMPRESS "*.gz *.zip *.z *.rpm *.deb *.iso *.bz2" \
" *.t[gb]z *.7z *.mp[34] *.mov *.avi *.ogg *.jpg *.jpeg *.png" \
" *.lzo *.rzip *.lzma *.rar *.ace *.gpg *.xz *.txz *.lz *.tlz"
/* the following are used by loadparm for option lists */
typedef enum {
P_BOOL, P_BOOLREV, P_CHAR, P_INTEGER,
P_OCTAL, P_PATH, P_STRING, P_ENUM
} parm_type;
typedef enum {
P_LOCAL, P_GLOBAL, P_NONE
} parm_class;
struct enum_list {
int value;
char *name;
};
struct parm_struct {
char *label;
parm_type type;
parm_class class;
void *ptr;
struct enum_list *enum_list;
unsigned flags;
};
#ifndef GLOBAL_NAME
#define GLOBAL_NAME "global"
#endif
/* some helpful bits */
#define iSECTION(i) ((local_vars*)section_list.items)[i]
#define LP_SNUM_OK(i) ((i) >= 0 && (i) < (int)section_list.count)
#define SECTION_PTR(s, p) (((char*)(s)) + (ptrdiff_t)(((char*)(p))-(char*)&Vars.l))
/* This structure describes global (ie., server-wide) parameters. */
typedef struct {
char *bind_address;
char *motd_file;
char *pid_file;
char *socket_options;
int listen_backlog;
int rsync_port;
} global_vars;
/* This structure describes a single section. Their order must match the
* initializers below, which you can accomplish by keeping each sub-section
* sorted. (e.g. in vim, just visually select each subsection and use !sort.)
* NOTE: the char* variables MUST all remain at the start of the stuct! */
typedef struct {
char *auth_users;
char *charset;
char *comment;
char *dont_compress;
char *exclude;
char *exclude_from;
char *filter;
char *gid;
char *hosts_allow;
char *hosts_deny;
char *include;
char *include_from;
char *incoming_chmod;
char *lock_file;
char *log_file;
char *log_format;
char *name;
char *outgoing_chmod;
char *path;
char *postxfer_exec;
char *prexfer_exec;
char *refuse_options;
char *secrets_file;
char *temp_dir;
char *uid;
/* NOTE: update this macro if the last char* variable changes! */
#define LOCAL_STRING_COUNT() (offsetof(local_vars, uid) / sizeof (char*) + 1)
int max_connections;
int max_verbosity;
int syslog_facility;
int timeout;
BOOL fake_super;
BOOL forward_lookup;
BOOL ignore_errors;
BOOL ignore_nonreadable;
BOOL list;
BOOL munge_symlinks;
BOOL numeric_ids;
BOOL read_only;
BOOL reverse_lookup;
BOOL strict_modes;
BOOL transfer_logging;
BOOL use_chroot;
BOOL write_only;
} local_vars;
/* This structure describes the global variables (g) as well as the globally
* specified values of the local variables (l), which are used when modules
* don't specify their own values. */
typedef struct {
global_vars g;
local_vars l;
} all_vars;
/* The application defaults for all the variables. "Defaults" is
* used to re-initialize "Vars" before each config-file read.
*
* In order to keep these sorted in the same way as the structure
* above, use the variable name in the leading comment, including a
* trailing ';' (to avoid a sorting problem with trailing digits). */
static const all_vars Defaults = {
/* ==== global_vars ==== */
{
/* bind_address; */ NULL,
/* motd_file; */ NULL,
/* pid_file; */ NULL,
/* socket_options; */ NULL,
/* listen_backlog; */ 5,
/* rsync_port; */ 0,
},
/* ==== local_vars ==== */
{
/* auth_users; */ NULL,
/* charset; */ NULL,
/* comment; */ NULL,
/* dont_compress; */ DEFAULT_DONT_COMPRESS,
/* exclude; */ NULL,
/* exclude_from; */ NULL,
/* filter; */ NULL,
/* gid; */ NULL,
/* hosts_allow; */ NULL,
/* hosts_deny; */ NULL,
/* include; */ NULL,
/* include_from; */ NULL,
/* incoming_chmod; */ NULL,
/* lock_file; */ DEFAULT_LOCK_FILE,
/* log_file; */ NULL,
/* log_format; */ "%o %h [%a] %m (%u) %f %l",
/* name; */ NULL,
/* outgoing_chmod; */ NULL,
/* path; */ NULL,
/* postxfer_exec; */ NULL,
/* prexfer_exec; */ NULL,
/* refuse_options; */ NULL,
/* secrets_file; */ NULL,
/* temp_dir; */ NULL,
/* uid; */ NULL,
/* max_connections; */ 0,
/* max_verbosity; */ 1,
/* syslog_facility; */ LOG_DAEMON,
/* timeout; */ 0,
/* fake_super; */ False,
/* forward_lookup; */ True,
/* ignore_errors; */ False,
/* ignore_nonreadable; */ False,
/* list; */ True,
/* munge_symlinks; */ (BOOL)-1,
/* numeric_ids; */ (BOOL)-1,
/* read_only; */ True,
/* reverse_lookup; */ True,
/* strict_modes; */ True,
/* transfer_logging; */ False,
/* use_chroot; */ True,
/* write_only; */ False,
}
};
/* The currently configured values for all the variables. */
static all_vars Vars;
/* Stack of "Vars" values used by the &include directive. */
static item_list Vars_stack = EMPTY_ITEM_LIST;
/* The array of section values that holds all the defined modules. */
static item_list section_list = EMPTY_ITEM_LIST;
static int iSectionIndex = -1;
static BOOL bInGlobalSection = True;
#define NUMPARAMETERS (sizeof (parm_table) / sizeof (struct parm_struct))
static struct enum_list enum_facilities[] = {
#ifdef LOG_AUTH
{ LOG_AUTH, "auth" },
#endif
#ifdef LOG_AUTHPRIV
{ LOG_AUTHPRIV, "authpriv" },
#endif
#ifdef LOG_CRON
{ LOG_CRON, "cron" },
#endif
#ifdef LOG_DAEMON
{ LOG_DAEMON, "daemon" },
#endif
#ifdef LOG_FTP
{ LOG_FTP, "ftp" },
#endif
#ifdef LOG_KERN
{ LOG_KERN, "kern" },
#endif
#ifdef LOG_LPR
{ LOG_LPR, "lpr" },
#endif
#ifdef LOG_MAIL
{ LOG_MAIL, "mail" },
#endif
#ifdef LOG_NEWS
{ LOG_NEWS, "news" },
#endif
#ifdef LOG_AUTH
{ LOG_AUTH, "security" },
#endif
#ifdef LOG_SYSLOG
{ LOG_SYSLOG, "syslog" },
#endif
#ifdef LOG_USER
{ LOG_USER, "user" },
#endif
#ifdef LOG_UUCP
{ LOG_UUCP, "uucp" },
#endif
#ifdef LOG_LOCAL0
{ LOG_LOCAL0, "local0" },
#endif
#ifdef LOG_LOCAL1
{ LOG_LOCAL1, "local1" },
#endif
#ifdef LOG_LOCAL2
{ LOG_LOCAL2, "local2" },
#endif
#ifdef LOG_LOCAL3
{ LOG_LOCAL3, "local3" },
#endif
#ifdef LOG_LOCAL4
{ LOG_LOCAL4, "local4" },
#endif
#ifdef LOG_LOCAL5
{ LOG_LOCAL5, "local5" },
#endif
#ifdef LOG_LOCAL6
{ LOG_LOCAL6, "local6" },
#endif
#ifdef LOG_LOCAL7
{ LOG_LOCAL7, "local7" },
#endif
{ -1, NULL }
};
static struct parm_struct parm_table[] =
{
{"address", P_STRING, P_GLOBAL,&Vars.g.bind_address, NULL,0},
{"listen backlog", P_INTEGER,P_GLOBAL,&Vars.g.listen_backlog, NULL,0},
{"motd file", P_STRING, P_GLOBAL,&Vars.g.motd_file, NULL,0},
{"pid file", P_STRING, P_GLOBAL,&Vars.g.pid_file, NULL,0},
{"port", P_INTEGER,P_GLOBAL,&Vars.g.rsync_port, NULL,0},
{"socket options", P_STRING, P_GLOBAL,&Vars.g.socket_options, NULL,0},
{"auth users", P_STRING, P_LOCAL, &Vars.l.auth_users, NULL,0},
{"charset", P_STRING, P_LOCAL, &Vars.l.charset, NULL,0},
{"comment", P_STRING, P_LOCAL, &Vars.l.comment, NULL,0},
{"dont compress", P_STRING, P_LOCAL, &Vars.l.dont_compress, NULL,0},
{"exclude from", P_STRING, P_LOCAL, &Vars.l.exclude_from, NULL,0},
{"exclude", P_STRING, P_LOCAL, &Vars.l.exclude, NULL,0},
{"fake super", P_BOOL, P_LOCAL, &Vars.l.fake_super, NULL,0},
{"filter", P_STRING, P_LOCAL, &Vars.l.filter, NULL,0},
{"forward lookup", P_BOOL, P_LOCAL, &Vars.l.forward_lookup, NULL,0},
{"gid", P_STRING, P_LOCAL, &Vars.l.gid, NULL,0},
{"hosts allow", P_STRING, P_LOCAL, &Vars.l.hosts_allow, NULL,0},
{"hosts deny", P_STRING, P_LOCAL, &Vars.l.hosts_deny, NULL,0},
{"ignore errors", P_BOOL, P_LOCAL, &Vars.l.ignore_errors, NULL,0},
{"ignore nonreadable",P_BOOL, P_LOCAL, &Vars.l.ignore_nonreadable, NULL,0},
{"include from", P_STRING, P_LOCAL, &Vars.l.include_from, NULL,0},
{"include", P_STRING, P_LOCAL, &Vars.l.include, NULL,0},
{"incoming chmod", P_STRING, P_LOCAL, &Vars.l.incoming_chmod, NULL,0},
{"list", P_BOOL, P_LOCAL, &Vars.l.list, NULL,0},
{"lock file", P_STRING, P_LOCAL, &Vars.l.lock_file, NULL,0},
{"log file", P_STRING, P_LOCAL, &Vars.l.log_file, NULL,0},
{"log format", P_STRING, P_LOCAL, &Vars.l.log_format, NULL,0},
{"max connections", P_INTEGER,P_LOCAL, &Vars.l.max_connections, NULL,0},
{"max verbosity", P_INTEGER,P_LOCAL, &Vars.l.max_verbosity, NULL,0},
{"munge symlinks", P_BOOL, P_LOCAL, &Vars.l.munge_symlinks, NULL,0},
{"name", P_STRING, P_LOCAL, &Vars.l.name, NULL,0},
{"numeric ids", P_BOOL, P_LOCAL, &Vars.l.numeric_ids, NULL,0},
{"outgoing chmod", P_STRING, P_LOCAL, &Vars.l.outgoing_chmod, NULL,0},
{"path", P_PATH, P_LOCAL, &Vars.l.path, NULL,0},
#ifdef HAVE_PUTENV
{"post-xfer exec", P_STRING, P_LOCAL, &Vars.l.postxfer_exec, NULL,0},
{"pre-xfer exec", P_STRING, P_LOCAL, &Vars.l.prexfer_exec, NULL,0},
#endif
{"read only", P_BOOL, P_LOCAL, &Vars.l.read_only, NULL,0},
{"refuse options", P_STRING, P_LOCAL, &Vars.l.refuse_options, NULL,0},
{"reverse lookup", P_BOOL, P_LOCAL, &Vars.l.reverse_lookup, NULL,0},
{"secrets file", P_STRING, P_LOCAL, &Vars.l.secrets_file, NULL,0},
{"strict modes", P_BOOL, P_LOCAL, &Vars.l.strict_modes, NULL,0},
{"syslog facility", P_ENUM, P_LOCAL, &Vars.l.syslog_facility, enum_facilities,0},
{"temp dir", P_PATH, P_LOCAL, &Vars.l.temp_dir, NULL,0},
{"timeout", P_INTEGER,P_LOCAL, &Vars.l.timeout, NULL,0},
{"transfer logging", P_BOOL, P_LOCAL, &Vars.l.transfer_logging, NULL,0},
{"uid", P_STRING, P_LOCAL, &Vars.l.uid, NULL,0},
{"use chroot", P_BOOL, P_LOCAL, &Vars.l.use_chroot, NULL,0},
{"write only", P_BOOL, P_LOCAL, &Vars.l.write_only, NULL,0},
{NULL, P_BOOL, P_NONE, NULL, NULL,0}
};
/* Initialise the Default all_vars structure. */
static void reset_all_vars(void)
{
memcpy(&Vars, &Defaults, sizeof Vars);
}
/* Expand %VAR% references. Any unknown vars or unrecognized
* syntax leaves the raw chars unchanged. */
static char *expand_vars(char *str)
{
char *buf, *t, *f;
int bufsize;
if (strchr(str, '%') == NULL)
return str;
bufsize = strlen(str) + 2048;
if ((buf = new_array(char, bufsize+1)) == NULL) /* +1 for trailing '\0' */
out_of_memory("expand_vars");
for (t = buf, f = str; bufsize && *f; ) {
if (*f == '%' && *++f != '%') {
char *percent = strchr(f, '%');
if (percent) {
char *val;
*percent = '\0';
val = getenv(f);
*percent = '%';
if (val) {
int len = strlcpy(t, val, bufsize+1);
if (len > bufsize)
break;
bufsize -= len;
t += len;
f = percent + 1;
continue;
}
}
f--;
}
*t++ = *f++;
bufsize--;
}
*t = '\0';
if (*f) {
rprintf(FLOG, "Overflowed buf in expand_vars() trying to expand: %s\n", str);
exit_cleanup(RERR_MALLOC);
}
if (bufsize && (buf = realloc(buf, t - buf + 1)) == NULL)
out_of_memory("expand_vars");
return buf;
}
/* In this section all the functions that are used to access the
* parameters from the rest of the program are defined. */
#define FN_GLOBAL_STRING(fn_name, ptr) \
char *fn_name(void) {return expand_vars(*(char **)(ptr) ? *(char **)(ptr) : "");}
#define FN_GLOBAL_BOOL(fn_name, ptr) \
BOOL fn_name(void) {return *(BOOL *)(ptr);}
#define FN_GLOBAL_CHAR(fn_name, ptr) \
char fn_name(void) {return *(char *)(ptr);}
#define FN_GLOBAL_INTEGER(fn_name, ptr) \
int fn_name(void) {return *(int *)(ptr);}
#define FN_LOCAL_STRING(fn_name, val) \
char *fn_name(int i) {return expand_vars(LP_SNUM_OK(i) && iSECTION(i).val ? iSECTION(i).val : Vars.l.val ? Vars.l.val : "");}
#define FN_LOCAL_BOOL(fn_name, val) \
BOOL fn_name(int i) {return LP_SNUM_OK(i)? iSECTION(i).val : Vars.l.val;}
#define FN_LOCAL_CHAR(fn_name, val) \
char fn_name(int i) {return LP_SNUM_OK(i)? iSECTION(i).val : Vars.l.val;}
#define FN_LOCAL_INTEGER(fn_name, val) \
int fn_name(int i) {return LP_SNUM_OK(i)? iSECTION(i).val : Vars.l.val;}
FN_GLOBAL_STRING(lp_bind_address, &Vars.g.bind_address)
FN_GLOBAL_STRING(lp_motd_file, &Vars.g.motd_file)
FN_GLOBAL_STRING(lp_pid_file, &Vars.g.pid_file)
FN_GLOBAL_STRING(lp_socket_options, &Vars.g.socket_options)
FN_GLOBAL_INTEGER(lp_listen_backlog, &Vars.g.listen_backlog)
FN_GLOBAL_INTEGER(lp_rsync_port, &Vars.g.rsync_port)
FN_LOCAL_STRING(lp_auth_users, auth_users)
FN_LOCAL_STRING(lp_charset, charset)
FN_LOCAL_STRING(lp_comment, comment)
FN_LOCAL_STRING(lp_dont_compress, dont_compress)
FN_LOCAL_STRING(lp_exclude, exclude)
FN_LOCAL_STRING(lp_exclude_from, exclude_from)
FN_LOCAL_STRING(lp_filter, filter)
FN_LOCAL_STRING(lp_gid, gid)
FN_LOCAL_STRING(lp_hosts_allow, hosts_allow)
FN_LOCAL_STRING(lp_hosts_deny, hosts_deny)
FN_LOCAL_STRING(lp_include, include)
FN_LOCAL_STRING(lp_include_from, include_from)
FN_LOCAL_STRING(lp_incoming_chmod, incoming_chmod)
FN_LOCAL_STRING(lp_lock_file, lock_file)
FN_LOCAL_STRING(lp_log_file, log_file)
FN_LOCAL_STRING(lp_log_format, log_format)
FN_LOCAL_STRING(lp_name, name)
FN_LOCAL_STRING(lp_outgoing_chmod, outgoing_chmod)
FN_LOCAL_STRING(lp_path, path)
FN_LOCAL_STRING(lp_postxfer_exec, postxfer_exec)
FN_LOCAL_STRING(lp_prexfer_exec, prexfer_exec)
FN_LOCAL_STRING(lp_refuse_options, refuse_options)
FN_LOCAL_STRING(lp_secrets_file, secrets_file)
FN_LOCAL_STRING(lp_temp_dir, temp_dir)
FN_LOCAL_STRING(lp_uid, uid)
FN_LOCAL_INTEGER(lp_max_connections, max_connections)
FN_LOCAL_INTEGER(lp_max_verbosity, max_verbosity)
FN_LOCAL_INTEGER(lp_syslog_facility, syslog_facility)
FN_LOCAL_INTEGER(lp_timeout, timeout)
FN_LOCAL_BOOL(lp_fake_super, fake_super)
FN_LOCAL_BOOL(lp_forward_lookup, forward_lookup)
FN_LOCAL_BOOL(lp_ignore_errors, ignore_errors)
FN_LOCAL_BOOL(lp_ignore_nonreadable, ignore_nonreadable)
FN_LOCAL_BOOL(lp_list, list)
FN_LOCAL_BOOL(lp_munge_symlinks, munge_symlinks)
FN_LOCAL_BOOL(lp_numeric_ids, numeric_ids)
FN_LOCAL_BOOL(lp_read_only, read_only)
FN_LOCAL_BOOL(lp_reverse_lookup, reverse_lookup)
FN_LOCAL_BOOL(lp_strict_modes, strict_modes)
FN_LOCAL_BOOL(lp_transfer_logging, transfer_logging)
FN_LOCAL_BOOL(lp_use_chroot, use_chroot)
FN_LOCAL_BOOL(lp_write_only, write_only)
/* Assign a copy of v to *s. Handles NULL strings. We don't worry
* about overwriting a malloc'd string because the long-running
* (port-listening) daemon only loads the config file once, and the
* per-job (forked or xinitd-ran) daemon only re-reads the file at
* the start, so any lost memory is inconsequential. */
static inline void string_set(char **s, const char *v)
{
if (!v)
*s = NULL;
else if (!(*s = strdup(v)))
out_of_memory("string_set");
}
/* Copy the local_vars, strdup'ing any strings. NOTE: this depends on
* the structure starting with a contiguous list of the char* variables,
* and having an accurate count in the LOCAL_STRING_COUNT() macro. */
static void copy_section(local_vars *psectionDest, local_vars *psectionSource)
{
int count = LOCAL_STRING_COUNT();
char **strings = (char**)psectionDest;
memcpy(psectionDest, psectionSource, sizeof psectionDest[0]);
while (count--) {
if (strings[count] && !(strings[count] = strdup(strings[count])))
out_of_memory("copy_section");
}
}
/* Initialise a section to the defaults. */
static void init_section(local_vars *psection)
{
memset(psection, 0, sizeof (local_vars));
copy_section(psection, &Vars.l);
}
/* Do a case-insensitive, whitespace-ignoring string compare. */
static int strwicmp(char *psz1, char *psz2)
{
/* if BOTH strings are NULL, return TRUE, if ONE is NULL return */
/* appropriate value. */
if (psz1 == psz2)
return 0;
if (psz1 == NULL)
return -1;
if (psz2 == NULL)
return 1;
/* sync the strings on first non-whitespace */
while (1) {
while (isSpace(psz1))
psz1++;
while (isSpace(psz2))
psz2++;
if (toUpper(psz1) != toUpper(psz2) || *psz1 == '\0' || *psz2 == '\0')
break;
psz1++;
psz2++;
}
return *psz1 - *psz2;
}
/* Find a section by name. Otherwise works like get_section. */
static int getsectionbyname(char *name)
{
int i;
for (i = section_list.count - 1; i >= 0; i--) {
if (strwicmp(iSECTION(i).name, name) == 0)
break;
}
return i;
}
/* Add a new section to the sections array w/the default values. */
static int add_a_section(char *name)
{
int i;
local_vars *s;
/* it might already exist */
if (name) {
i = getsectionbyname(name);
if (i >= 0)
return i;
}
i = section_list.count;
s = EXPAND_ITEM_LIST(&section_list, local_vars, 2);
init_section(s);
if (name)
string_set(&s->name, name);
return i;
}
/* Map a parameter's string representation to something we can use.
* Returns False if the parameter string is not recognised, else TRUE. */
static int map_parameter(char *parmname)
{
int iIndex;
if (*parmname == '-')
return -1;
for (iIndex = 0; parm_table[iIndex].label; iIndex++) {
if (strwicmp(parm_table[iIndex].label, parmname) == 0)
return iIndex;
}
rprintf(FLOG, "Unknown Parameter encountered: \"%s\"\n", parmname);
return -1;
}
/* Set a boolean variable from the text value stored in the passed string.
* Returns True in success, False if the passed string does not correctly
* represent a boolean. */
static BOOL set_boolean(BOOL *pb, char *parmvalue)
{
if (strwicmp(parmvalue, "yes") == 0
|| strwicmp(parmvalue, "true") == 0
|| strwicmp(parmvalue, "1") == 0)
*pb = True;
else if (strwicmp(parmvalue, "no") == 0
|| strwicmp(parmvalue, "False") == 0
|| strwicmp(parmvalue, "0") == 0)
*pb = False;
else {
rprintf(FLOG, "Badly formed boolean in configuration file: \"%s\".\n", parmvalue);
return False;
}
return True;
}
/* Process a parameter. */
static BOOL do_parameter(char *parmname, char *parmvalue)
{
int parmnum, i;
void *parm_ptr; /* where we are going to store the result */
void *def_ptr;
char *cp;
parmnum = map_parameter(parmname);
if (parmnum < 0) {
rprintf(FLOG, "IGNORING unknown parameter \"%s\"\n", parmname);
return True;
}
def_ptr = parm_table[parmnum].ptr;
if (bInGlobalSection)
parm_ptr = def_ptr;
else {
if (parm_table[parmnum].class == P_GLOBAL) {
rprintf(FLOG, "Global parameter %s found in module section!\n", parmname);
return True;
}
parm_ptr = SECTION_PTR(&iSECTION(iSectionIndex), def_ptr);
}
/* now switch on the type of variable it is */
switch (parm_table[parmnum].type) {
case P_PATH:
case P_STRING:
/* delay expansion of vars */
break;
default:
/* expand any %VARS% now */
parmvalue = expand_vars(parmvalue);
break;
}
switch (parm_table[parmnum].type) {
case P_BOOL:
set_boolean(parm_ptr, parmvalue);
break;
case P_BOOLREV:
set_boolean(parm_ptr, parmvalue);
*(BOOL *)parm_ptr = ! *(BOOL *)parm_ptr;
break;
case P_INTEGER:
*(int *)parm_ptr = atoi(parmvalue);
break;
case P_CHAR:
*(char *)parm_ptr = *parmvalue;
break;
case P_OCTAL:
sscanf(parmvalue, "%o", (int *)parm_ptr);
break;
case P_PATH:
string_set(parm_ptr, parmvalue);
if ((cp = *(char**)parm_ptr) != NULL) {
int len = strlen(cp);
while (len > 1 && cp[len-1] == '/') len--;
cp[len] = '\0';
}
break;
case P_STRING:
string_set(parm_ptr, parmvalue);
break;
case P_ENUM:
for (i=0; parm_table[parmnum].enum_list[i].name; i++) {
if (strequal(parmvalue, parm_table[parmnum].enum_list[i].name)) {
*(int *)parm_ptr = parm_table[parmnum].enum_list[i].value;
break;
}
}
if (!parm_table[parmnum].enum_list[i].name) {
if (atoi(parmvalue) > 0)
*(int *)parm_ptr = atoi(parmvalue);
}
break;
}
return True;
}
/* Process a new section (rsync module).
* Returns True on success, False on failure. */
static BOOL do_section(char *sectionname)
{
BOOL isglobal;
if (*sectionname == ']') { /* A special push/pop/reset directive from params.c */
bInGlobalSection = 1;
if (strcmp(sectionname+1, "push") == 0) {
all_vars *vp = EXPAND_ITEM_LIST(&Vars_stack, all_vars, 2);
memcpy(vp, &Vars, sizeof Vars);
} else if (strcmp(sectionname+1, "pop") == 0
|| strcmp(sectionname+1, "reset") == 0) {
all_vars *vp = ((all_vars*)Vars_stack.items) + Vars_stack.count - 1;
if (!Vars_stack.count)
return False;
memcpy(&Vars, vp, sizeof Vars);
if (sectionname[1] == 'p')
Vars_stack.count--;
} else
return False;
return True;
}
isglobal = strwicmp(sectionname, GLOBAL_NAME) == 0;
/* At the end of the global section, add any --dparam items. */
if (bInGlobalSection && !isglobal) {
if (!section_list.count)
set_dparams(0);
}
/* if we've just struck a global section, note the fact. */
bInGlobalSection = isglobal;
/* check for multiple global sections */
if (bInGlobalSection)
return True;
#if 0
/* If we have a current section, tidy it up before moving on. */
if (iSectionIndex >= 0) {
/* Add any tidy work as needed ... */
if (problem)
return False;
}
#endif
if (strchr(sectionname, '/') != NULL) {
rprintf(FLOG, "Warning: invalid section name in configuration file: %s\n", sectionname);
return False;
}
if ((iSectionIndex = add_a_section(sectionname)) < 0) {
rprintf(FLOG, "Failed to add a new module\n");
bInGlobalSection = True;
return False;
}
return True;
}
/* Load the modules from the config file. Return True on success,
* False on failure. */
int lp_load(char *pszFname, int globals_only)
{
bInGlobalSection = True;
reset_all_vars();
/* We get sections first, so have to start 'behind' to make up. */
iSectionIndex = -1;
return pm_process(pszFname, globals_only ? NULL : do_section, do_parameter);
}
BOOL set_dparams(int syntax_check_only)
{
char *equal, *val, **params = dparam_list.items;
unsigned j;
for (j = 0; j < dparam_list.count; j++) {
equal = strchr(params[j], '='); /* options.c verified this */
*equal = '\0';
if (syntax_check_only) {
if (map_parameter(params[j]) < 0) {
rprintf(FERROR, "Unknown parameter \"%s\"\n", params[j]);
*equal = '=';
return False;
}
} else {
for (val = equal+1; isSpace(val); val++) {}
do_parameter(params[j], val);
}
*equal = '=';
}
return True;
}
/* Return the max number of modules (sections). */
int lp_num_modules(void)
{
return section_list.count;
}
/* Return the number of the module with the given name, or -1 if it doesn't
* exist. Note that this is a DIFFERENT ANIMAL from the internal function
* getsectionbyname()! This works ONLY if all sections have been loaded,
* and does not copy the found section. */
int lp_number(char *name)
{
int i;
for (i = section_list.count - 1; i >= 0; i--) {
if (strcmp(lp_name(i), name) == 0)
break;
}
return i;
}