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samba-mirror/source3/libsmb/libsmb_context.c

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Initial revamp of the libsmbclient interface. The libsmbclient interface has suffered from difficulty of improvement and feature enrichment without causing ABI breakage. Although there were a number of issues, the primary ones were: (a) the user of the library would manually manipulate the context structure members, meaning that nothing in the context structure could change other than adding stuff at the end; (b) there were three methods of setting options: setting bits in a flags field within the context structure, setting explicit options variables within an options structure in the context structure, and by calling the smbc_option_set() function; (c) the authentication callback did not traditionally provide enough information to the callee which required adding an option for a callback with a different signature, and now there are requests for even more information at the callback, requiring yet a third signature and option to set it (if we implement that feature). This commit provides a reorganization of the code which fixes (a) and (b). The context structure is now entirely opaque, and there are setter and getter functions for manipulating it. This makes maintaining ABI consistency much, much easier. Additionally, the options setting/getting has been unified into a single mechanism using smbc_option_set() and smbc_option_get(). Yet to be completed is a refactoring of the authentication callback (c). The test programs in examples/libsmbclient have been modified (if necessary; some applications require no changes at all) for the new API and a few have been minimally tested. Derrell (This used to be commit d4b4bae8ded824d06ad5ab0e219f71187ee5c771)
2008-02-28 19:23:20 +03:00
/*
Unix SMB/Netbios implementation.
SMB client library implementation
Copyright (C) Andrew Tridgell 1998
Copyright (C) Richard Sharpe 2000, 2002
Copyright (C) John Terpstra 2000
Copyright (C) Tom Jansen (Ninja ISD) 2002
Copyright (C) Derrell Lipman 2003-2008
Copyright (C) Jeremy Allison 2007, 2008
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 <http://www.gnu.org/licenses/>.
*/
#include "includes.h"
#include "libsmbclient.h"
#include "libsmb_internal.h"
/*
* Is the logging working / configfile read ?
*/
static int SMBC_initialized = 0;
/*
* Get a new empty handle to fill in with your own info
*/
SMBCCTX *
smbc_new_context(void)
{
SMBCCTX *context;
context = SMB_MALLOC_P(SMBCCTX);
if (!context) {
errno = ENOMEM;
return NULL;
}
/* Initialize the context and establish reasonable defaults */
ZERO_STRUCTP(context);
context->debug = 0;
context->timeout = 20000; /* 20 seconds */
context->full_time_names = False;
context->share_mode = SMBC_SHAREMODE_DENY_NONE;
context->smb_encryption_level = 0;
context->browse_max_lmb_count = 3; /* # LMBs to query */
context->urlencode_readdir_entries = False;
context->one_share_per_server = False;
context->use_kerberos = False;
context->fallback_after_kerberos = False;
context->no_auto_anonymous_login = False;
context->server.get_auth_data_fn = SMBC_get_auth_data;
context->server.check_server_fn = SMBC_check_server;
context->server.remove_unused_server_fn = SMBC_remove_unused_server;
context->cache.server_cache_data = NULL;
context->cache.add_cached_server_fn = SMBC_add_cached_server;
context->cache.get_cached_server_fn = SMBC_get_cached_server;
context->cache.remove_cached_server_fn = SMBC_remove_cached_server;
context->cache.purge_cached_server_fn = SMBC_purge_cached_servers;
context->posix_emu.open_fn = SMBC_open_ctx;
context->posix_emu.creat_fn = SMBC_creat_ctx;
context->posix_emu.read_fn = SMBC_read_ctx;
context->posix_emu.write_fn = SMBC_write_ctx;
context->posix_emu.close_fn = SMBC_close_ctx;
context->posix_emu.unlink_fn = SMBC_unlink_ctx;
context->posix_emu.rename_fn = SMBC_rename_ctx;
context->posix_emu.lseek_fn = SMBC_lseek_ctx;
context->posix_emu.ftruncate_fn = SMBC_ftruncate_ctx;
context->posix_emu.stat_fn = SMBC_stat_ctx;
context->posix_emu.fstat_fn = SMBC_fstat_ctx;
context->posix_emu.opendir_fn = SMBC_opendir_ctx;
context->posix_emu.closedir_fn = SMBC_closedir_ctx;
context->posix_emu.readdir_fn = SMBC_readdir_ctx;
context->posix_emu.getdents_fn = SMBC_getdents_ctx;
context->posix_emu.mkdir_fn = SMBC_mkdir_ctx;
context->posix_emu.rmdir_fn = SMBC_rmdir_ctx;
context->posix_emu.telldir_fn = SMBC_telldir_ctx;
context->posix_emu.lseekdir_fn = SMBC_lseekdir_ctx;
context->posix_emu.fstatdir_fn = SMBC_fstatdir_ctx;
context->posix_emu.chmod_fn = SMBC_chmod_ctx;
context->posix_emu.utimes_fn = SMBC_utimes_ctx;
context->posix_emu.setxattr_fn = SMBC_setxattr_ctx;
context->posix_emu.getxattr_fn = SMBC_getxattr_ctx;
context->posix_emu.removexattr_fn = SMBC_removexattr_ctx;
context->posix_emu.listxattr_fn = SMBC_listxattr_ctx;
context->printing.open_print_job_fn = SMBC_open_print_job_ctx;
context->printing.print_file_fn = SMBC_print_file_ctx;
context->printing.list_print_jobs_fn = SMBC_list_print_jobs_ctx;
context->printing.unlink_print_job_fn = SMBC_unlink_print_job_ctx;
return context;
}
/*
* Free a context
*
* Returns 0 on success. Otherwise returns 1, the SMBCCTX is _not_ freed
* and thus you'll be leaking memory if not handled properly.
*
*/
int
smbc_free_context(SMBCCTX *context,
int shutdown_ctx)
{
if (!context) {
errno = EBADF;
return 1;
}
if (shutdown_ctx) {
SMBCFILE * f;
DEBUG(1,("Performing aggressive shutdown.\n"));
f = context->files;
while (f) {
(context->posix_emu.close_fn)(context, f);
f = f->next;
}
context->files = NULL;
/* First try to remove the servers the nice way. */
if (context->cache.purge_cached_server_fn(context)) {
SMBCSRV * s;
SMBCSRV * next;
DEBUG(1, ("Could not purge all servers, "
"Nice way shutdown failed.\n"));
s = context->servers;
while (s) {
DEBUG(1, ("Forced shutdown: %p (fd=%d)\n",
s, s->cli->fd));
cli_shutdown(s->cli);
(context->cache.remove_cached_server_fn)(context,
s);
next = s->next;
DLIST_REMOVE(context->servers, s);
SAFE_FREE(s);
s = next;
}
context->servers = NULL;
}
}
else {
/* This is the polite way */
if ((context->cache.purge_cached_server_fn)(context)) {
DEBUG(1, ("Could not purge all servers, "
"free_context failed.\n"));
errno = EBUSY;
return 1;
}
if (context->servers) {
DEBUG(1, ("Active servers in context, "
"free_context failed.\n"));
errno = EBUSY;
return 1;
}
if (context->files) {
DEBUG(1, ("Active files in context, "
"free_context failed.\n"));
errno = EBUSY;
return 1;
}
}
/* Things we have to clean up */
SAFE_FREE(context->workgroup);
SAFE_FREE(context->netbios_name);
SAFE_FREE(context->user);
DEBUG(3, ("Context %p successfully freed\n", context));
SAFE_FREE(context);
return 0;
}
/*
* Each time the context structure is changed, we have binary backward
* compatibility issues. Instead of modifying the public portions of the
* context structure to add new options, instead, we put them in the internal
* portion of the context structure and provide a set function for these new
* options.
*/
void
smbc_option_set(SMBCCTX *context,
char *option_name,
... /* option_value */)
{
va_list ap;
union {
int i;
bool b;
smbc_get_auth_data_with_context_fn auth_fn;
void *v;
const char *s;
} option_value;
va_start(ap, option_name);
if (strcmp(option_name, "debug_to_stderr") == 0) {
/*
* Log to standard error instead of standard output.
*/
option_value.b = (bool) va_arg(ap, int);
context->debug_stderr = option_value.b;
} else if (strcmp(option_name, "full_time_names") == 0) {
/*
* Use new-style time attribute names, e.g. WRITE_TIME rather
* than the old-style names such as M_TIME. This allows also
* setting/getting CREATE_TIME which was previously
* unimplemented. (Note that the old C_TIME was supposed to
* be CHANGE_TIME but was confused and sometimes referred to
* CREATE_TIME.)
*/
option_value.b = (bool) va_arg(ap, int);
context->full_time_names = option_value.b;
} else if (strcmp(option_name, "open_share_mode") == 0) {
/*
* The share mode to use for files opened with
* SMBC_open_ctx(). The default is SMBC_SHAREMODE_DENY_NONE.
*/
option_value.i = va_arg(ap, int);
context->share_mode = (smbc_share_mode) option_value.i;
} else if (strcmp(option_name, "user_data") == 0) {
/*
* Save a user data handle which may be retrieved by the user
* with smbc_option_get()
*/
option_value.v = va_arg(ap, void *);
context->user_data = option_value.v;
} else if (strcmp(option_name, "smb_encrypt_level") == 0) {
/*
* Save an encoded value for encryption level.
* 0 = off, 1 = attempt, 2 = required.
*/
option_value.s = va_arg(ap, const char *);
if (strcmp(option_value.s, "none") == 0) {
context->smb_encryption_level = 0;
} else if (strcmp(option_value.s, "request") == 0) {
context->smb_encryption_level = 1;
} else if (strcmp(option_value.s, "require") == 0) {
context->smb_encryption_level = 2;
}
} else if (strcmp(option_name, "browse_max_lmb_count") == 0) {
/*
* From how many local master browsers should the list of
* workgroups be retrieved? It can take up to 12 minutes or
* longer after a server becomes a local master browser, for
* it to have the entire browse list (the list of
* workgroups/domains) from an entire network. Since a client
* never knows which local master browser will be found first,
* the one which is found first and used to retrieve a browse
* list may have an incomplete or empty browse list. By
* requesting the browse list from multiple local master
* browsers, a more complete list can be generated. For small
* networks (few workgroups), it is recommended that this
* value be set to 0, causing the browse lists from all found
* local master browsers to be retrieved and merged. For
* networks with many workgroups, a suitable value for this
* variable is probably somewhere around 3. (Default: 3).
*/
option_value.i = va_arg(ap, int);
context->browse_max_lmb_count = option_value.i;
} else if (strcmp(option_name, "urlencode_readdir_entries") == 0) {
/*
* There is a difference in the desired return strings from
* smbc_readdir() depending upon whether the filenames are to
* be displayed to the user, or whether they are to be
* appended to the path name passed to smbc_opendir() to call
* a further smbc_ function (e.g. open the file with
* smbc_open()). In the former case, the filename should be
* in "human readable" form. In the latter case, the smbc_
* functions expect a URL which must be url-encoded. Those
* functions decode the URL. If, for example, smbc_readdir()
* returned a file name of "abc%20def.txt", passing a path
* with this file name attached to smbc_open() would cause
* smbc_open to attempt to open the file "abc def.txt" since
* the %20 is decoded into a space.
*
* Set this option to True if the names returned by
* smbc_readdir() should be url-encoded such that they can be
* passed back to another smbc_ call. Set it to False if the
* names returned by smbc_readdir() are to be presented to the
* user.
*
* For backwards compatibility, this option defaults to False.
*/
option_value.b = (bool) va_arg(ap, int);
context->urlencode_readdir_entries = option_value.b;
} else if (strcmp(option_name, "one_share_per_server") == 0) {
/*
* Some Windows versions appear to have a limit to the number
* of concurrent SESSIONs and/or TREE CONNECTions. In
* one-shot programs (i.e. the program runs and then quickly
* ends, thereby shutting down all connections), it is
* probably reasonable to establish a new connection for each
* share. In long-running applications, the limitation can be
* avoided by using only a single connection to each server,
* and issuing a new TREE CONNECT when the share is accessed.
*/
option_value.b = (bool) va_arg(ap, int);
context->one_share_per_server = option_value.b;
} else if (strcmp(option_name, "use_kerberos") == 0) {
option_value.b = (bool) va_arg(ap, int);
context->use_kerberos = option_value.b;
} else if (strcmp(option_name, "fallback_after_kerberos") == 0) {
option_value.b = (bool) va_arg(ap, int);
context->fallback_after_kerberos = option_value.b;
} else if (strcmp(option_name, "no_auto_anonymous_login") == 0) {
option_value.b = (bool) va_arg(ap, int);
context->no_auto_anonymous_login = option_value.b;
}
va_end(ap);
}
/*
* Retrieve the current value of an option
*/
void *
smbc_option_get(SMBCCTX *context,
char *option_name)
{
if (strcmp(option_name, "debug_stderr") == 0) {
/*
* Log to standard error instead of standard output.
*/
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->debug_stderr;
#else
return (void *) context->debug_stderr;
#endif
} else if (strcmp(option_name, "full_time_names") == 0) {
/*
* Use new-style time attribute names, e.g. WRITE_TIME rather
* than the old-style names such as M_TIME. This allows also
* setting/getting CREATE_TIME which was previously
* unimplemented. (Note that the old C_TIME was supposed to
* be CHANGE_TIME but was confused and sometimes referred to
* CREATE_TIME.)
*/
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->full_time_names;
#else
return (void *) context->full_time_names;
#endif
} else if (strcmp(option_name, "user_data") == 0) {
/*
* Return the user data handle which was saved by the user
* with smbc_option_set()
*/
return context->user_data;
} else if (strcmp(option_name, "smb_encrypt_level") == 0) {
/*
* Return the current smb encrypt negotiate option as a string.
*/
switch (context->smb_encryption_level) {
case 0:
return (void *) "none";
case 1:
return (void *) "request";
case 2:
return (void *) "require";
}
} else if (strcmp(option_name, "smb_encrypt_on") == 0) {
/*
* Return the current smb encrypt status option as a bool.
* false = off, true = on. We don't know what server is
* being requested, so we only return true if all servers
* are using an encrypted connection.
*/
SMBCSRV *s;
unsigned int num_servers = 0;
for (s = context->servers; s; s = s->next) {
num_servers++;
if (s->cli->trans_enc_state == NULL) {
return (void *)false;
}
}
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) (bool) (num_servers > 0);
#else
return (void *) (bool) (num_servers > 0);
#endif
} else if (strcmp(option_name, "browse_max_lmb_count") == 0) {
/*
* From how many local master browsers should the list of
* workgroups be retrieved? It can take up to 12 minutes or
* longer after a server becomes a local master browser, for
* it to have the entire browse list (the list of
* workgroups/domains) from an entire network. Since a client
* never knows which local master browser will be found first,
* the one which is found first and used to retrieve a browse
* list may have an incomplete or empty browse list. By
* requesting the browse list from multiple local master
* browsers, a more complete list can be generated. For small
* networks (few workgroups), it is recommended that this
* value be set to 0, causing the browse lists from all found
* local master browsers to be retrieved and merged. For
* networks with many workgroups, a suitable value for this
* variable is probably somewhere around 3. (Default: 3).
*/
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->browse_max_lmb_count;
#else
return (void *) context->browse_max_lmb_count;
#endif
} else if (strcmp(option_name, "urlencode_readdir_entries") == 0) {
/*
* There is a difference in the desired return strings from
* smbc_readdir() depending upon whether the filenames are to
* be displayed to the user, or whether they are to be
* appended to the path name passed to smbc_opendir() to call
* a further smbc_ function (e.g. open the file with
* smbc_open()). In the former case, the filename should be
* in "human readable" form. In the latter case, the smbc_
* functions expect a URL which must be url-encoded. Those
* functions decode the URL. If, for example, smbc_readdir()
* returned a file name of "abc%20def.txt", passing a path
* with this file name attached to smbc_open() would cause
* smbc_open to attempt to open the file "abc def.txt" since
* the %20 is decoded into a space.
*
* Set this option to True if the names returned by
* smbc_readdir() should be url-encoded such that they can be
* passed back to another smbc_ call. Set it to False if the
* names returned by smbc_readdir() are to be presented to the
* user.
*
* For backwards compatibility, this option defaults to False.
*/
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->urlencode_readdir_entries;
#else
return (void *) (bool) context->urlencode_readdir_entries;
#endif
} else if (strcmp(option_name, "one_share_per_server") == 0) {
/*
* Some Windows versions appear to have a limit to the number
* of concurrent SESSIONs and/or TREE CONNECTions. In
* one-shot programs (i.e. the program runs and then quickly
* ends, thereby shutting down all connections), it is
* probably reasonable to establish a new connection for each
* share. In long-running applications, the limitation can be
* avoided by using only a single connection to each server,
* and issuing a new TREE CONNECT when the share is accessed.
*/
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->one_share_per_server;
#else
return (void *) (bool) context->one_share_per_server;
#endif
} else if (strcmp(option_name, "use_kerberos") == 0) {
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->use_kerberos;
#else
return (void *) (bool) context->use_kerberos;
#endif
} else if (strcmp(option_name, "fallback_after_kerberos") == 0) {
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->fallback_after_kerberos;
#else
return (void *) (bool) context->fallback_after_kerberos;
#endif
} else if (strcmp(option_name, "no_auto_anonymous_login") == 0) {
#if defined(__intptr_t_defined) || defined(HAVE_INTPTR_T)
return (void *) (intptr_t) context->no_auto_anonymous_login;
#else
return (void *) (bool) context->no_auto_anonymous_login;
#endif
}
return NULL;
}
/*
* Initialize the library, etc.
*
* We accept a struct containing handle information.
* valid values for info->debug from 0 to 100,
* and insist that info->fn must be non-null.
*/
SMBCCTX *
smbc_init_context(SMBCCTX *context)
{
int pid;
char *user = NULL;
char *home = NULL;
extern bool in_client;
if (!context) {
errno = EBADF;
return NULL;
}
/* Do not initialise the same client twice */
if (context->initialized) {
return 0;
}
if (!context->server.get_auth_data_fn ||
context->debug < 0 ||
context->debug > 100) {
errno = EINVAL;
return NULL;
}
if (!SMBC_initialized) {
/*
* Do some library-wide intializations the first time we get
* called
*/
bool conf_loaded = False;
TALLOC_CTX *frame = talloc_stackframe();
/* Set this to what the user wants */
DEBUGLEVEL = context->debug;
load_case_tables();
setup_logging("libsmbclient", True);
if (context->debug_stderr) {
dbf = x_stderr;
x_setbuf(x_stderr, NULL);
}
/* Here we would open the smb.conf file if needed ... */
in_client = True; /* FIXME, make a param */
home = getenv("HOME");
if (home) {
char *conf = NULL;
if (asprintf(&conf, "%s/.smb/smb.conf", home) > 0) {
if (lp_load(conf, True, False, False, True)) {
conf_loaded = True;
} else {
DEBUG(5, ("Could not load config file: %s\n",
conf));
}
SAFE_FREE(conf);
}
}
if (!conf_loaded) {
/*
* Well, if that failed, try the get_dyn_CONFIGFILE
* Which points to the standard locn, and if that
* fails, silently ignore it and use the internal
* defaults ...
*/
if (!lp_load(get_dyn_CONFIGFILE(), True, False, False, False)) {
DEBUG(5, ("Could not load config file: %s\n",
get_dyn_CONFIGFILE()));
} else if (home) {
char *conf;
/*
* We loaded the global config file. Now lets
* load user-specific modifications to the
* global config.
*/
if (asprintf(&conf,
"%s/.smb/smb.conf.append",
home) > 0) {
if (!lp_load(conf, True, False, False, False)) {
DEBUG(10,
("Could not append config file: "
"%s\n",
conf));
}
SAFE_FREE(conf);
}
}
}
load_interfaces(); /* Load the list of interfaces ... */
reopen_logs(); /* Get logging working ... */
/*
* Block SIGPIPE (from lib/util_sock.c: write())
* It is not needed and should not stop execution
*/
BlockSignals(True, SIGPIPE);
/* Done with one-time initialisation */
SMBC_initialized = 1;
TALLOC_FREE(frame);
}
if (!context->user) {
/*
* FIXME: Is this the best way to get the user info?
*/
user = getenv("USER");
/* walk around as "guest" if no username can be found */
if (!user) context->user = SMB_STRDUP("guest");
else context->user = SMB_STRDUP(user);
}
if (!context->netbios_name) {
/*
* We try to get our netbios name from the config. If that
* fails we fall back on constructing our netbios name from
* our hostname etc
*/
if (global_myname()) {
context->netbios_name = SMB_STRDUP(global_myname());
}
else {
/*
* Hmmm, I want to get hostname as well, but I am too
* lazy for the moment
*/
pid = sys_getpid();
context->netbios_name = (char *)SMB_MALLOC(17);
if (!context->netbios_name) {
errno = ENOMEM;
return NULL;
}
slprintf(context->netbios_name, 16,
"smbc%s%d", context->user, pid);
}
}
DEBUG(1, ("Using netbios name %s.\n", context->netbios_name));
if (!context->workgroup) {
if (lp_workgroup()) {
context->workgroup = SMB_STRDUP(lp_workgroup());
}
else {
/* TODO: Think about a decent default workgroup */
context->workgroup = SMB_STRDUP("samba");
}
}
DEBUG(1, ("Using workgroup %s.\n", context->workgroup));
/* shortest timeout is 1 second */
if (context->timeout > 0 && context->timeout < 1000)
context->timeout = 1000;
/*
* FIXME: Should we check the function pointers here?
*/
context->initialized = True;
return context;
}
/* Return the verion of samba, and thus libsmbclient */
const char *
smbc_version(void)
{
return samba_version_string();
}
/** Get the netbios name used for making connections */
char *
smbc_getNetbiosName(SMBCCTX *c)
{
return c->netbios_name;
}
/** Set the netbios name used for making connections */
void
smbc_setNetbiosName(SMBCCTX *c, char * netbios_name)
{
c->netbios_name = netbios_name;
}
/** Get the workgroup used for making connections */
char *
smbc_getWorkgroup(SMBCCTX *c)
{
return c->workgroup;
}
/** Set the workgroup used for making connections */
void
smbc_setWorkgroup(SMBCCTX *c, char * workgroup)
{
c->workgroup = workgroup;
}
/** Get the username used for making connections */
char *
smbc_getUser(SMBCCTX *c)
{
return c->user;
}
/** Set the username used for making connections */
void
smbc_setUser(SMBCCTX *c, char * user)
{
c->user = user;
}
/** Get the debug level */
int
smbc_getDebug(SMBCCTX *c)
{
return c->debug;
}
/** Set the debug level */
void
smbc_setDebug(SMBCCTX *c, int debug)
{
c->debug = debug;
}
/**
* Get the timeout used for waiting on connections and response data
* (in milliseconds)
*/
int
smbc_getTimeout(SMBCCTX *c)
{
return c->timeout;
}
/**
* Set the timeout used for waiting on connections and response data
* (in milliseconds)
*/
void
smbc_setTimeout(SMBCCTX *c, int timeout)
{
c->timeout = timeout;
}
/** Get the function for obtaining authentication data */
smbc_get_auth_data_fn
smbc_getFunctionAuthData(SMBCCTX *c)
{
return c->server.get_auth_data_fn;
}
/** Set the function for obtaining authentication data */
void
smbc_setFunctionAuthData(SMBCCTX *c, smbc_get_auth_data_fn fn)
{
c->server.get_auth_data_fn = fn;
}
/** Get the function for checking if a server is still good */
smbc_check_server_fn
smbc_getFunctionCheckServer(SMBCCTX *c)
{
return c->server.check_server_fn;
}
/** Set the function for checking if a server is still good */
void
smbc_setFunctionCheckServer(SMBCCTX *c, smbc_check_server_fn fn)
{
c->server.check_server_fn = fn;
}
/** Get the function for removing a server if unused */
smbc_remove_unused_server_fn
smbc_getFunctionRemoveUnusedServer(SMBCCTX *c)
{
return c->server.remove_unused_server_fn;
}
/** Set the function for removing a server if unused */
void
smbc_setFunctionRemoveUnusedServer(SMBCCTX *c,
smbc_remove_unused_server_fn fn)
{
c->server.remove_unused_server_fn = fn;
}
/** Get the function to store private data of the server cache */
struct
smbc_server_cache * smbc_getServerCacheData(SMBCCTX *c)
{
return c->cache.server_cache_data;
}
/** Set the function to store private data of the server cache */
void
smbc_setServerCacheData(SMBCCTX *c, struct smbc_server_cache * cache)
{
c->cache.server_cache_data = cache;
}
/** Get the function for adding a cached server */
smbc_add_cached_srv_fn
smbc_getFunctionAddCachedServer(SMBCCTX *c)
{
return c->cache.add_cached_server_fn;
}
/** Set the function for adding a cached server */
void
smbc_setFunctionAddCachedServer(SMBCCTX *c, smbc_add_cached_srv_fn fn)
{
c->cache.add_cached_server_fn = fn;
}
/** Get the function for server cache lookup */
smbc_get_cached_srv_fn
smbc_getFunctionGetCachedServer(SMBCCTX *c)
{
return c->cache.get_cached_server_fn;
}
/** Set the function for server cache lookup */
void
smbc_setFunctionGetCachedServer(SMBCCTX *c, smbc_get_cached_srv_fn fn)
{
c->cache.get_cached_server_fn = fn;
}
/** Get the function for server cache removal */
smbc_remove_cached_srv_fn
smbc_getFunctionRemoveCachedServer(SMBCCTX *c)
{
return c->cache.remove_cached_server_fn;
}
/** Set the function for server cache removal */
void
smbc_setFunctionRemoveCachedServer(SMBCCTX *c,
smbc_remove_cached_srv_fn fn)
{
c->cache.remove_cached_server_fn = fn;
}
/**
* Get the function for server cache purging. This function tries to
* remove all cached servers (e.g. on disconnect)
*/
smbc_purge_cached_srv_fn
smbc_getFunctionPurgeCachedServers(SMBCCTX *c)
{
return c->cache.purge_cached_server_fn;
}
/**
* Set the function for server cache purging. This function tries to
* remove all cached servers (e.g. on disconnect)
*/
void
smbc_setFunctionPurgeCachedServers(SMBCCTX *c, smbc_purge_cached_srv_fn fn)
{
c->cache.purge_cached_server_fn = fn;
}
/**
* Callable functions for files.
*/
smbc_open_fn
smbc_getFunctionOpen(SMBCCTX *c)
{
return c->posix_emu.open_fn;
}
void
smbc_setFunctionOpen(SMBCCTX *c, smbc_open_fn fn)
{
c->posix_emu.open_fn = fn;
}
smbc_creat_fn
smbc_getFunctionCreat(SMBCCTX *c)
{
return c->posix_emu.creat_fn;
}
void
smbc_setFunctionCreat(SMBCCTX *c, smbc_creat_fn fn)
{
c->posix_emu.creat_fn = fn;
}
smbc_read_fn
smbc_getFunctionRead(SMBCCTX *c)
{
return c->posix_emu.read_fn;
}
void
smbc_setFunctionRead(SMBCCTX *c, smbc_read_fn fn)
{
c->posix_emu.read_fn = fn;
}
smbc_write_fn
smbc_getFunctionWrite(SMBCCTX *c)
{
return c->posix_emu.write_fn;
}
void
smbc_setFunctionWrite(SMBCCTX *c, smbc_write_fn fn)
{
c->posix_emu.write_fn = fn;
}
smbc_unlink_fn
smbc_getFunctionUnlink(SMBCCTX *c)
{
return c->posix_emu.unlink_fn;
}
void
smbc_setFunctionUnlink(SMBCCTX *c, smbc_unlink_fn fn)
{
c->posix_emu.unlink_fn = fn;
}
smbc_rename_fn
smbc_getFunctionRename(SMBCCTX *c)
{
return c->posix_emu.rename_fn;
}
void
smbc_setFunctionRename(SMBCCTX *c, smbc_rename_fn fn)
{
c->posix_emu.rename_fn = fn;
}
smbc_lseek_fn
smbc_getFunctionLseek(SMBCCTX *c)
{
return c->posix_emu.lseek_fn;
}
void
smbc_setFunctionLseek(SMBCCTX *c, smbc_lseek_fn fn)
{
c->posix_emu.lseek_fn = fn;
}
smbc_stat_fn
smbc_getFunctionStat(SMBCCTX *c)
{
return c->posix_emu.stat_fn;
}
void
smbc_setFunctionStat(SMBCCTX *c, smbc_stat_fn fn)
{
c->posix_emu.stat_fn = fn;
}
smbc_fstat_fn
smbc_getFunctionFstat(SMBCCTX *c)
{
return c->posix_emu.fstat_fn;
}
void
smbc_setFunctionFstat(SMBCCTX *c, smbc_fstat_fn fn)
{
c->posix_emu.fstat_fn = fn;
}
smbc_ftruncate_fn
smbc_getFunctionFtruncate(SMBCCTX *c)
{
return c->posix_emu.ftruncate_fn;
}
void
smbc_setFunctionFtruncate(SMBCCTX *c, smbc_ftruncate_fn fn)
{
c->posix_emu.ftruncate_fn = fn;
}
smbc_close_fn
smbc_getFunctionClose(SMBCCTX *c)
{
return c->posix_emu.close_fn;
}
void
smbc_setFunctionClose(SMBCCTX *c, smbc_close_fn fn)
{
c->posix_emu.close_fn = fn;
}
/**
* Callable functions for directories.
*/
smbc_opendir_fn
smbc_getFunctionOpendir(SMBCCTX *c)
{
return c->posix_emu.opendir_fn;
}
void
smbc_setFunctionOpendir(SMBCCTX *c, smbc_opendir_fn fn)
{
c->posix_emu.opendir_fn = fn;
}
smbc_closedir_fn
smbc_getFunctionClosedir(SMBCCTX *c)
{
return c->posix_emu.closedir_fn;
}
void
smbc_setFunctionClosedir(SMBCCTX *c, smbc_closedir_fn fn)
{
c->posix_emu.closedir_fn = fn;
}
smbc_readdir_fn
smbc_getFunctionReaddir(SMBCCTX *c)
{
return c->posix_emu.readdir_fn;
}
void
smbc_setFunctionReaddir(SMBCCTX *c, smbc_readdir_fn fn)
{
c->posix_emu.readdir_fn = fn;
}
smbc_getdents_fn
smbc_getFunctionGetdents(SMBCCTX *c)
{
return c->posix_emu.getdents_fn;
}
void
smbc_setFunctionGetdents(SMBCCTX *c, smbc_getdents_fn fn)
{
c->posix_emu.getdents_fn = fn;
}
smbc_mkdir_fn
smbc_getFunctionMkdir(SMBCCTX *c)
{
return c->posix_emu.mkdir_fn;
}
void
smbc_setFunctionMkdir(SMBCCTX *c, smbc_mkdir_fn fn)
{
c->posix_emu.mkdir_fn = fn;
}
smbc_rmdir_fn
smbc_getFunctionRmdir(SMBCCTX *c)
{
return c->posix_emu.rmdir_fn;
}
void
smbc_setFunctionRmdir(SMBCCTX *c, smbc_rmdir_fn fn)
{
c->posix_emu.rmdir_fn = fn;
}
smbc_telldir_fn
smbc_getFunctionTelldir(SMBCCTX *c)
{
return c->posix_emu.telldir_fn;
}
void
smbc_setFunctionTelldir(SMBCCTX *c, smbc_telldir_fn fn)
{
c->posix_emu.telldir_fn = fn;
}
smbc_lseekdir_fn
smbc_getFunctionLseekdir(SMBCCTX *c)
{
return c->posix_emu.lseekdir_fn;
}
void
smbc_setFunctionLseekdir(SMBCCTX *c, smbc_lseekdir_fn fn)
{
c->posix_emu.lseekdir_fn = fn;
}
smbc_fstatdir_fn
smbc_getFunctionFstatdir(SMBCCTX *c)
{
return c->posix_emu.fstatdir_fn;
}
void
smbc_setFunctionFstatdir(SMBCCTX *c, smbc_fstatdir_fn fn)
{
c->posix_emu.fstatdir_fn = fn;
}
/**
* Callable functions applicable to both files and directories.
*/
smbc_chmod_fn
smbc_getFunctionChmod(SMBCCTX *c)
{
return c->posix_emu.chmod_fn;
}
void
smbc_setFunctionChmod(SMBCCTX *c, smbc_chmod_fn fn)
{
c->posix_emu.chmod_fn = fn;
}
smbc_utimes_fn
smbc_getFunctionUtimes(SMBCCTX *c)
{
return c->posix_emu.utimes_fn;
}
void
smbc_setFunctionUtimes(SMBCCTX *c, smbc_utimes_fn fn)
{
c->posix_emu.utimes_fn = fn;
}
smbc_setxattr_fn
smbc_getFunctionSetxattr(SMBCCTX *c)
{
return c->posix_emu.setxattr_fn;
}
void
smbc_setFunctionSetxattr(SMBCCTX *c, smbc_setxattr_fn fn)
{
c->posix_emu.setxattr_fn = fn;
}
smbc_getxattr_fn
smbc_getFunctionGetxattr(SMBCCTX *c)
{
return c->posix_emu.getxattr_fn;
}
void
smbc_setFunctionGetxattr(SMBCCTX *c, smbc_getxattr_fn fn)
{
c->posix_emu.getxattr_fn = fn;
}
smbc_removexattr_fn
smbc_getFunctionRemovexattr(SMBCCTX *c)
{
return c->posix_emu.removexattr_fn;
}
void
smbc_setFunctionRemovexattr(SMBCCTX *c, smbc_removexattr_fn fn)
{
c->posix_emu.removexattr_fn = fn;
}
smbc_listxattr_fn
smbc_getFunctionListxattr(SMBCCTX *c)
{
return c->posix_emu.listxattr_fn;
}
void
smbc_setFunctionListxattr(SMBCCTX *c, smbc_listxattr_fn fn)
{
c->posix_emu.listxattr_fn = fn;
}
/**
* Callable functions related to printing
*/
smbc_print_file_fn
smbc_getFunctionPrintFile(SMBCCTX *c)
{
return c->printing.print_file_fn;
}
void
smbc_setFunctionPrintFile(SMBCCTX *c, smbc_print_file_fn fn)
{
c->printing.print_file_fn = fn;
}
smbc_open_print_job_fn
smbc_getFunctionOpenPrintJob(SMBCCTX *c)
{
return c->printing.open_print_job_fn;
}
void
smbc_setFunctionOpenPrintJob(SMBCCTX *c,
smbc_open_print_job_fn fn)
{
c->printing.open_print_job_fn = fn;
}
smbc_list_print_jobs_fn
smbc_getFunctionListPrintJobs(SMBCCTX *c)
{
return c->printing.list_print_jobs_fn;
}
void
smbc_setFunctionListPrintJobs(SMBCCTX *c,
smbc_list_print_jobs_fn fn)
{
c->printing.list_print_jobs_fn = fn;
}
smbc_unlink_print_job_fn
smbc_getFunctionUnlinkPrintJob(SMBCCTX *c)
{
return c->printing.unlink_print_job_fn;
}
void
smbc_setFunctionUnlinkPrintJob(SMBCCTX *c,
smbc_unlink_print_job_fn fn)
{
c->printing.unlink_print_job_fn = fn;
}
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