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Functions
Types and Values
| enum | NMUtilsSecurityType |
| #define | NM_UTILS_HWADDR_LEN_MAX |
| #define | NM_UTILS_INET_ADDRSTRLEN |
| NMVariantAttributeSpec | |
| struct | in6_addr |
| struct | stat |
Description
A collection of utility functions for working with SSIDs, IP addresses, Wi-Fi access points and devices, among other things.
Functions
nm_utils_is_empty_ssid ()
gboolean nm_utils_is_empty_ssid (const guint8 *ssid,gsize len);
Different manufacturers use different mechanisms for not broadcasting the AP's SSID. This function attempts to detect blank/empty SSIDs using a number of known SSID-cloaking methods.
nm_utils_escape_ssid ()
const char * nm_utils_escape_ssid (const guint8 *ssid,gsize len);
This function does a quick printable character conversion of the SSID, simply replacing embedded NULLs and non-printable characters with the hexadecimal representation of that character. Intended for debugging only, should not be used for display of SSIDs.
nm_utils_same_ssid ()
gboolean nm_utils_same_ssid (const guint8 *ssid1,gsize len1,const guint8 *ssid2,gsize len2,gboolean ignore_trailing_null);
Earlier versions of the Linux kernel added a NULL byte to the end of the SSID to enable easy printing of the SSID on the console or in a terminal, but this behavior was problematic (SSIDs are simply byte arrays, not strings) and thus was changed. This function compensates for that behavior at the cost of some compatibility with odd SSIDs that may legitimately have trailing NULLs, even though that is functionally pointless.
Parameters
ssid1 |
the first SSID to compare. |
[array length=len1] |
len1 |
length of the SSID data in |
|
ssid2 |
the second SSID to compare. |
[array length=len2] |
len2 |
length of the SSID data in |
|
ignore_trailing_null |
|
nm_utils_ssid_to_utf8 ()
char * nm_utils_ssid_to_utf8 (const guint8 *ssid,gsize len);
Wi-Fi SSIDs are byte arrays, they are _not_ strings. Thus, an SSID may contain embedded NULLs and other unprintable characters. Often it is useful to print the SSID out for debugging purposes, but that should be the _only_ use of this function. Do not use this function for any persistent storage of the SSID, since the printable SSID returned from this function cannot be converted back into the real SSID of the access point.
This function does almost everything humanly possible to convert the input into a printable UTF-8 string, using roughly the following procedure:
1) if the input data is already UTF-8 safe, no conversion is performed 2) attempts to get the current system language from the LANG environment variable, and depending on the language, uses a table of alternative encodings to try. For example, if LANG=hu_HU, the table may first try the ISO-8859-2 encoding, and if that fails, try the Windows-1250 encoding. If all fallback encodings fail, replaces non-UTF-8 characters with '?'. 3) If the system language was unable to be determined, falls back to the ISO-8859-1 encoding, then to the Windows-1251 encoding. 4) If step 3 fails, replaces non-UTF-8 characters with '?'.
Again, this function should be used for debugging and display purposes _only_.
nm_utils_security_valid ()
gboolean nm_utils_security_valid (NMUtilsSecurityType type,NMDeviceWifiCapabilities wifi_caps,gboolean have_ap,gboolean adhoc,NM80211ApFlags ap_flags,NM80211ApSecurityFlags ap_wpa,NM80211ApSecurityFlags ap_rsn);
Given a set of device capabilities, and a desired security type to check against, determines whether the combination of device, desired security type, and AP capabilities intersect.
NOTE: this function cannot handle checking security for AP/Hotspot mode;
use nm_utils_ap_mode_security_valid() instead.
Parameters
type |
the security type to check AP flags and device capabilities against, e.g. NMU_SEC_STATIC_WEP |
|
wifi_caps |
bitfield of the capabilities of the specific Wi-Fi device, e.g. NM_WIFI_DEVICE_CAP_CIPHER_WEP40 |
|
have_ap |
whether the |
|
adhoc |
whether the capabilities being tested are from an Ad-Hoc AP (IBSS) |
|
ap_flags |
bitfield of AP capabilities, e.g. NM_802_11_AP_FLAGS_PRIVACY |
|
ap_wpa |
bitfield of AP capabilities derived from the AP's WPA beacon, e.g. (NM_802_11_AP_SEC_PAIR_TKIP | NM_802_11_AP_SEC_KEY_MGMT_PSK) |
|
ap_rsn |
bitfield of AP capabilities derived from the AP's RSN/WPA2 beacon, e.g. (NM_802_11_AP_SEC_PAIR_CCMP | NM_802_11_AP_SEC_PAIR_TKIP) |
nm_utils_ap_mode_security_valid ()
gboolean nm_utils_ap_mode_security_valid (NMUtilsSecurityType type,NMDeviceWifiCapabilities wifi_caps);
Given a set of device capabilities, and a desired security type to check against, determines whether the combination of device capabilities and desired security type are valid for AP/Hotspot connections.
Parameters
type |
the security type to check device capabilities against, e.g. NMU_SEC_STATIC_WEP |
|
wifi_caps |
bitfield of the capabilities of the specific Wi-Fi device, e.g. NM_WIFI_DEVICE_CAP_CIPHER_WEP40 |
nm_utils_wep_key_valid ()
gboolean nm_utils_wep_key_valid (const char *key,NMWepKeyType wep_type);
Checks if key
is a valid WEP key
nm_utils_wpa_psk_valid ()
gboolean
nm_utils_wpa_psk_valid (const char *psk);
Checks if psk
is a valid WPA PSK
nm_utils_is_json_object ()
gboolean nm_utils_is_json_object (const char *str,GError **error);
Returns
whether the passed string is valid JSON.
If libnm is not compiled with libjansson support, this check will
also return TRUE for possibly invalid inputs. If that is a problem
for you, you must validate the JSON yourself.
Since: 1.6
nm_utils_ip4_dns_to_variant ()
GVariant *
nm_utils_ip4_dns_to_variant (char **dns);
Utility function to convert an array of IP address strings int a GVariant of type 'au' representing an array of IPv4 addresses.
nm_utils_ip4_dns_from_variant ()
char **
nm_utils_ip4_dns_from_variant (GVariant *value);
Utility function to convert a GVariant of type 'au' representing a list of IPv4 addresses into an array of IP address strings.
nm_utils_ip4_addresses_to_variant ()
GVariant * nm_utils_ip4_addresses_to_variant (GPtrArray *addresses,const char *gateway);
Utility function to convert a GPtrArray of NMIPAddress objects representing
IPv4 addresses into a GVariant of type 'aau' representing an array of
NetworkManager IPv4 addresses (which are tuples of address, prefix, and
gateway). The "gateway" field of the first address will get the value of
gateway
(if non-NULL). In all of the other addresses, that field will be 0.
Parameters
addresses |
an array of NMIPAddress objects. |
[element-type NMIPAddress] |
gateway |
the gateway IP address. |
[allow-none] |
nm_utils_ip4_addresses_from_variant ()
GPtrArray * nm_utils_ip4_addresses_from_variant (GVariant *value,char **out_gateway);
Utility function to convert a GVariant of type 'aau' representing a list of
NetworkManager IPv4 addresses (which are tuples of address, prefix, and
gateway) into a GPtrArray of NMIPAddress objects. The "gateway" field of
the first address (if set) will be returned in out_gateway
; the "gateway" fields
of the other addresses are ignored.
Parameters
value |
a GVariant of type 'aau' |
|
out_gateway |
on return, will contain the IP gateway. |
[out][allow-none][transfer full] |
Returns
a newly allocated GPtrArray of NMIPAddress objects.
[transfer full][element-type NMIPAddress]
nm_utils_ip4_routes_to_variant ()
GVariant *
nm_utils_ip4_routes_to_variant (GPtrArray *routes);
Utility function to convert a GPtrArray of NMIPRoute objects representing IPv4 routes into a GVariant of type 'aau' representing an array of NetworkManager IPv4 routes (which are tuples of route, prefix, next hop, and metric).
nm_utils_ip4_routes_from_variant ()
GPtrArray *
nm_utils_ip4_routes_from_variant (GVariant *value);
Utility function to convert a GVariant of type 'aau' representing an array of NetworkManager IPv4 routes (which are tuples of route, prefix, next hop, and metric) into a GPtrArray of NMIPRoute objects.
nm_utils_ip4_get_default_prefix ()
guint32
nm_utils_ip4_get_default_prefix (guint32 ip);
When the Internet was originally set up, various ranges of IP addresses were segmented into three network classes: A, B, and C. This function will return a prefix that is associated with the IP address specified defining where it falls in the predefined classes.
nm_utils_ip6_dns_to_variant ()
GVariant *
nm_utils_ip6_dns_to_variant (char **dns);
Utility function to convert an array of IP address strings int a GVariant of type 'aay' representing an array of IPv6 addresses.
If a string cannot be parsed, it will be silently ignored.
nm_utils_ip6_dns_from_variant ()
char **
nm_utils_ip6_dns_from_variant (GVariant *value);
Utility function to convert a GVariant of type 'aay' representing a list of IPv6 addresses into an array of IP address strings. Each "ay" entry must be a IPv6 address in binary form (16 bytes long). Invalid entries are silently ignored.
nm_utils_ip6_addresses_to_variant ()
GVariant * nm_utils_ip6_addresses_to_variant (GPtrArray *addresses,const char *gateway);
Utility function to convert a GPtrArray of NMIPAddress objects representing
IPv6 addresses into a GVariant of type 'a(ayuay)' representing an array of
NetworkManager IPv6 addresses (which are tuples of address, prefix, and
gateway). The "gateway" field of the first address will get the value of
gateway
(if non-NULL). In all of the other addresses, that field will be
all 0s.
Parameters
addresses |
an array of NMIPAddress objects. |
[element-type NMIPAddress] |
gateway |
the gateway IP address. |
[allow-none] |
nm_utils_ip6_addresses_from_variant ()
GPtrArray * nm_utils_ip6_addresses_from_variant (GVariant *value,char **out_gateway);
Utility function to convert a GVariant of type 'a(ayuay)' representing a
list of NetworkManager IPv6 addresses (which are tuples of address, prefix,
and gateway) into a GPtrArray of NMIPAddress objects. The "gateway" field
of the first address (if set) will be returned in out_gateway
; the "gateway"
fields of the other addresses are ignored.
Parameters
value |
a GVariant of type 'a(ayuay)' |
|
out_gateway |
on return, will contain the IP gateway. |
[out][allow-none][transfer full] |
Returns
a newly allocated GPtrArray of NMIPAddress objects.
[transfer full][element-type NMIPAddress]
nm_utils_ip6_routes_to_variant ()
GVariant *
nm_utils_ip6_routes_to_variant (GPtrArray *routes);
Utility function to convert a GPtrArray of NMIPRoute objects representing IPv6 routes into a GVariant of type 'a(ayuayu)' representing an array of NetworkManager IPv6 routes (which are tuples of route, prefix, next hop, and metric).
nm_utils_ip6_routes_from_variant ()
GPtrArray *
nm_utils_ip6_routes_from_variant (GVariant *value);
Utility function to convert a GVariant of type 'a(ayuayu)' representing an array of NetworkManager IPv6 routes (which are tuples of route, prefix, next hop, and metric) into a GPtrArray of NMIPRoute objects.
nm_utils_ip_addresses_to_variant ()
GVariant *
nm_utils_ip_addresses_to_variant (GPtrArray *addresses);
Utility function to convert a GPtrArray of NMIPAddress objects representing IPv4 or IPv6 addresses into a GVariant of type 'aa{sv}' representing an array of new-style NetworkManager IP addresses. All addresses will include "address" (an IP address string), and "prefix" (a uint). Some addresses may include additional attributes.
nm_utils_ip_addresses_from_variant ()
GPtrArray * nm_utils_ip_addresses_from_variant (GVariant *value,int family);
Utility function to convert a GVariant representing a list of new-style
NetworkManager IPv4 or IPv6 addresses (as described in the documentation for
nm_utils_ip_addresses_to_variant()) into a GPtrArray of NMIPAddress
objects.
Returns
a newly allocated GPtrArray of NMIPAddress objects.
[transfer full][element-type NMIPAddress]
nm_utils_ip_routes_to_variant ()
GVariant *
nm_utils_ip_routes_to_variant (GPtrArray *routes);
Utility function to convert a GPtrArray of NMIPRoute objects representing IPv4 or IPv6 routes into a GVariant of type 'aa{sv}' representing an array of new-style NetworkManager IP routes (which are tuples of destination, prefix, next hop, metric, and additional attributes).
nm_utils_ip_routes_from_variant ()
GPtrArray * nm_utils_ip_routes_from_variant (GVariant *value,int family);
Utility function to convert a GVariant representing a list of new-style NetworkManager IPv4 or IPv6 addresses (which are tuples of destination, prefix, next hop, metric, and additional attributes) into a GPtrArray of NMIPRoute objects.
nm_utils_uuid_generate ()
char *
nm_utils_uuid_generate (void);
Returns
a newly allocated UUID suitable for use as the NMSettingConnection
object's “id”: property. Should be freed with g_free()
nm_utils_file_is_certificate ()
gboolean
nm_utils_file_is_certificate (const char *filename);
Tests if filename
has a valid extension for an X.509 certificate file
(".cer", ".crt", ".der", or ".pem"), and contains a certificate in a format
recognized by NetworkManager.
nm_utils_file_is_private_key ()
gboolean nm_utils_file_is_private_key (const char *filename,gboolean *out_encrypted);
Tests if filename
has a valid extension for an X.509 private key file
(".der", ".key", ".pem", or ".p12"), and contains a private key in a format
recognized by NetworkManager.
nm_utils_file_is_pkcs12 ()
gboolean
nm_utils_file_is_pkcs12 (const char *filename);
Tests if filename
is a PKCS#12 file.
NMUtilsFileSearchInPathsPredicate ()
gboolean (*NMUtilsFileSearchInPathsPredicate) (const char *filename,gpointer user_data);
NMUtilsCheckFilePredicate ()
gboolean (*NMUtilsCheckFilePredicate) (const char *filename,const struct stat *stat,gpointer user_data,GError **error);
nm_utils_file_search_in_paths ()
const char * nm_utils_file_search_in_paths (const char *progname,const char *try_first,const char *const *paths,GFileTest file_test_flags,NMUtilsFileSearchInPathsPredicate predicate,gpointer user_data,GError **error);
Searches for a progname
file in a list of search paths
.
Parameters
progname |
the helper program name, like "iptables" Must be a non-empty string, without path separator (/). |
|
try_first |
a custom path to try first before searching. It is silently ignored if it is empty or not an absolute path. |
[allow-none] |
paths |
a |
[allow-none] |
file_test_flags |
the flags passed to |
|
predicate |
if given, pass the file name to this function
for additional checks. This check is performed after the check for
|
[scope call] |
user_data |
user data for |
[closure][allow-none] |
error |
on failure, set a "not found" error |
[allow-none] |
Returns
the full path to the helper, if found, or NULL if not found.
The returned string is not owned by the caller, but later
invocations of the function might overwrite it.
[transfer none]
nm_utils_wifi_freq_to_channel ()
guint32
nm_utils_wifi_freq_to_channel (guint32 freq);
Utility function to translate a Wi-Fi frequency to its corresponding channel.
nm_utils_wifi_channel_to_freq ()
guint32 nm_utils_wifi_channel_to_freq (guint32 channel,const char *band);
Utility function to translate a Wi-Fi channel to its corresponding frequency.
nm_utils_wifi_find_next_channel ()
guint32 nm_utils_wifi_find_next_channel (guint32 channel,int direction,char *band);
Utility function to find out next/previous Wi-Fi channel for a channel.
nm_utils_wifi_is_channel_valid ()
gboolean nm_utils_wifi_is_channel_valid (guint32 channel,const char *band);
Utility function to verify Wi-Fi channel validity.
nm_utils_wifi_2ghz_freqs ()
const guint *
nm_utils_wifi_2ghz_freqs (void);
Utility function to return 2.4 GHz Wi-Fi frequencies (802.11bg band).
Since: 1.2
nm_utils_wifi_5ghz_freqs ()
const guint *
nm_utils_wifi_5ghz_freqs (void);
Utility function to return 5 GHz Wi-Fi frequencies (802.11a band).
Since: 1.2
nm_utils_wifi_strength_bars ()
const char *
nm_utils_wifi_strength_bars (guint8 strength);
Converts strength
into a 4-character-wide graphical representation of
strength suitable for printing to stdout.
Previous versions used to take a guess at the terminal type and possibly return a wide UTF-8 encoded string. Now it always returns a 7-bit clean strings of one to 0 to 4 asterisks. Users that actually need the functionality are encouraged to make their implementations instead.
nm_utils_hwaddr_len ()
gsize
nm_utils_hwaddr_len (int type);
Returns the length in octets of a hardware address of type type
.
Before 1.28, it was an error to call this function with any value other than
ARPHRD_ETHER or ARPHRD_INFINIBAND.
nm_utils_hwaddr_ntoa ()
char * nm_utils_hwaddr_ntoa (gconstpointer addr,gsize length);
Converts addr
to textual form.
nm_utils_hwaddr_atoba ()
GByteArray * nm_utils_hwaddr_atoba (const char *asc,gsize length);
Parses asc
and converts it to binary form in a GByteArray. See
nm_utils_hwaddr_aton() if you don't want a GByteArray.
nm_utils_hwaddr_aton ()
guint8 * nm_utils_hwaddr_aton (const char *asc,gpointer buffer,gsize length);
Parses asc
and converts it to binary form in buffer
.
Bytes in asc
can be separated by colons (:), or hyphens (-), but not mixed.
nm_utils_hwaddr_valid ()
gboolean nm_utils_hwaddr_valid (const char *asc,gssize length);
Parses asc
to see if it is a valid hardware address of the given
length.
Parameters
asc |
the ASCII representation of a hardware address |
|
length |
the length of address that |
nm_utils_hwaddr_canonical ()
char * nm_utils_hwaddr_canonical (const char *asc,gssize length);
Parses asc
to see if it is a valid hardware address of the given
length, and if so, returns it in canonical form (uppercase, with
leading 0s as needed, and with colons rather than hyphens).
Parameters
asc |
the ASCII representation of a hardware address |
|
length |
the length of address that |
Returns
the canonicalized address if asc
appears to
be a valid hardware address of the indicated length, NULL if not.
[transfer full]
nm_utils_hwaddr_matches ()
gboolean nm_utils_hwaddr_matches (gconstpointer hwaddr1,gssize hwaddr1_len,gconstpointer hwaddr2,gssize hwaddr2_len);
Generalized hardware address comparison function. Tests if hwaddr1
and
hwaddr2
"equal" (or more precisely, "equivalent"), with several advantages
over a simple memcmp():
If
hwaddr1_lenorhwaddr2_lenis -1, then the corresponding address is assumed to be ASCII rather than binary, and will be converted to binary before being compared.If
hwaddr1orhwaddr2isNULL, it is treated instead as though it was a zero-filled bufferhwaddr1_lenorhwaddr2_lenbytes long.If
hwaddr1andhwaddr2are InfiniBand hardware addresses (that is, if they areINFINIBAND_ALENbytes long in binary form) then only the last 8 bytes are compared, since those are the only bytes that actually identify the hardware. (The other 12 bytes will change depending on the configuration of the InfiniBand fabric that the device is connected to.)
If a passed-in ASCII hardware address cannot be parsed, or would parse to an
address larger than NM_UTILS_HWADDR_LEN_MAX, then it will silently fail to
match. (This means that externally-provided address strings do not need to be
sanity-checked before comparing them against known good addresses; they are
guaranteed to not match if they are invalid.)
nm_utils_bin2hexstr ()
char * nm_utils_bin2hexstr (gconstpointer src,gsize len,int final_len);
Converts the byte array src
into a hexadecimal string. If final_len
is
greater than -1, the returned string is terminated at that index
(returned_string[final_len] == '\0'),
nm_utils_hexstr2bin ()
GBytes *
nm_utils_hexstr2bin (const char *hex);
Converts a hexadecimal string hex
into an array of bytes. The optional
separator ':' may be used between single or pairs of hexadecimal characters,
eg "00:11" or "0:1". Any "0x" at the beginning of hex
is ignored. hex
may not start or end with ':'.
nm_utils_iface_valid_name ()
gboolean
nm_utils_iface_valid_name (const char *name);
nm_utils_iface_valid_name has been deprecated since version 1.6 and should not be used in newly-written code.
Use nm_utils_is_valid_iface_name() instead, with better error reporting.
Validate the network interface name.
nm_utils_is_valid_iface_name ()
gboolean nm_utils_is_valid_iface_name (const char *name,GError **error);
Validate the network interface name.
This function is a 1:1 copy of the kernel's interface validation function in net/core/dev.c.
Parameters
name |
Name of interface. |
[allow-none] |
error |
location to store the error occurring, or |
nm_utils_is_uuid ()
gboolean
nm_utils_is_uuid (const char *str);
Checks if str
is a UUID
Returns
TRUE if str
is a UUID, FALSE if not
In older versions, nm_utils_is_uuid() did not accept NULL as str
argument. Don't pass NULL if you run against older versions of libnm.
nm_utils_inet4_ntop ()
const char * nm_utils_inet4_ntop (guint32 inaddr,char *dst);
Wrapper for inet_ntop.
[skip]
Parameters
inaddr |
the address that should be converted to string. |
|
dst |
the destination buffer, it must contain at least
|
nm_utils_inet6_ntop ()
const char * nm_utils_inet6_ntop (const struct in6_addr *in6addr,char *dst);
Wrapper for inet_ntop.
[skip]
Parameters
in6addr |
the address that should be converted to string. |
|
dst |
the destination buffer, it must contain at least
|
Returns
the input buffer dst
, or a pointer to an
internal, static buffer. NULL is not allowed as in6addr
,
otherwise, this function cannot fail.
nm_utils_ipaddr_valid ()
gboolean nm_utils_ipaddr_valid (int family,const char *ip);
Checks if ip
contains a valid IP address of the given family.
nm_utils_check_virtual_device_compatibility ()
gboolean nm_utils_check_virtual_device_compatibility (GType virtual_type,GType other_type);
Determines if a connection of type virtual_type
can (in the
general case) work with connections of type other_type
.
If virtual_type
is NM_TYPE_SETTING_VLAN, then this checks if
other_type
is a valid type for the parent of a VLAN.
If virtual_type
is a "master" type (eg, NM_TYPE_SETTING_BRIDGE),
then this checks if other_type
is a valid type for a slave of that
master.
Note that even if this returns TRUE it is not guaranteed that
every connection of type other_type
is
compatible with virtual_type
; it may depend on the exact
configuration of the two connections, or on the capabilities of an
underlying device driver.
nm_utils_bond_mode_string_to_int ()
int
nm_utils_bond_mode_string_to_int (const char *mode);
Convert bonding mode from string representation to numeric value.
See https://www.kernel.org/doc/Documentation/networking/bonding.txt for
available modes.
The mode
string can be either a descriptive name or a number (as string).
Since: 1.2
nm_utils_bond_mode_int_to_string ()
const char *
nm_utils_bond_mode_int_to_string (int mode);
Convert bonding mode from integer value to descriptive name. See https://www.kernel.org/doc/Documentation/networking/bonding.txt for available modes.
Since: 1.2
nm_utils_enum_to_str ()
char * nm_utils_enum_to_str (GType type,int value);
Converts an enum value to its string representation. If the enum is a
G_TYPE_FLAGS the function returns a comma-separated list of matching values.
If the value has no corresponding string representation, it is converted
to a number. For enums it is converted to a decimal number, for flags
to an (unsigned) hex number.
Since: 1.2
nm_utils_enum_from_str ()
gboolean nm_utils_enum_from_str (GType type,const char *str,int *out_value,char **err_token);
Converts a string to the matching enum value.
If the enum is a G_TYPE_FLAGS the function returns the logical OR of values
matching the comma-separated tokens in the string; if an unknown token is found
the function returns FALSE and stores a pointer to a newly allocated string
containing the unrecognized token in err_token
.
Parameters
type |
the |
|
str |
the input string |
|
out_value |
the output value. |
[out][allow-none] |
err_token |
location to store the first unrecognized token. |
[out][allow-none][transfer full] |
Since: 1.2
nm_utils_enum_get_values ()
const char ** nm_utils_enum_get_values (GType type,int from,int to);
Returns the list of possible values for a given enum.
Parameters
type |
the |
|
from |
the first element to be returned |
|
to |
the last element to be returned |
Returns
a NULL-terminated dynamically-allocated array of static strings
or NULL on error.
[transfer container]
Since: 1.2
nm_utils_parse_variant_attributes ()
GHashTable * nm_utils_parse_variant_attributes (const char *string,char attr_separator,char key_value_separator,gboolean ignore_unknown,const NMVariantAttributeSpec *const *spec,GError **error);
Parse attributes from a string.
Parameters
string |
the input string |
|
attr_separator |
the attribute separator character |
|
key_value_separator |
character separating key and values |
|
ignore_unknown |
whether unknown attributes should be ignored |
|
spec |
the attribute format specifiers |
|
error |
location to store the error on failure. |
[out][allow-none] |
Returns
a GHashTable mapping attribute names to GVariant values. Warning: the variant are still floating references, owned by the hash table. If you take a reference, ensure to sink the one of the hash table first.
[transfer full][element-type utf8 GVariant]
Since: 1.8
nm_utils_format_variant_attributes ()
char * nm_utils_format_variant_attributes (GHashTable *attributes,char attr_separator,char key_value_separator);
nm_utils_tc_qdisc_from_str ()
NMTCQdisc * nm_utils_tc_qdisc_from_str (const char *str,GError **error);
Parses the tc style string qdisc representation of the queueing
discipline to a NMTCQdisc instance. Supports a subset of the tc language.
Since: 1.12
nm_utils_tc_qdisc_to_str ()
char * nm_utils_tc_qdisc_to_str (NMTCQdisc *qdisc,GError **error);
Turns the NMTCQdisc into a tc style string representation of the queueing
discipline.
Since: 1.12
nm_utils_tc_action_from_str ()
NMTCAction * nm_utils_tc_action_from_str (const char *str,GError **error);
Parses the tc style string action representation of the queueing
discipline to a NMTCAction instance. Supports a subset of the tc language.
Since: 1.12
nm_utils_tc_action_to_str ()
char * nm_utils_tc_action_to_str (NMTCAction *action,GError **error);
Turns the NMTCAction into a tc style string representation of the queueing
discipline.
Since: 1.12
nm_utils_tc_tfilter_from_str ()
NMTCTfilter * nm_utils_tc_tfilter_from_str (const char *str,GError **error);
Parses the tc style string tfilter representation of the queueing
discipline to a NMTCTfilter instance. Supports a subset of the tc language.
Since: 1.12
nm_utils_tc_tfilter_to_str ()
char * nm_utils_tc_tfilter_to_str (NMTCTfilter *tfilter,GError **error);
Turns the NMTCTfilter into a tc style string representation of the queueing
discipline.
Since: 1.12
nm_utils_sriov_vf_to_str ()
char * nm_utils_sriov_vf_to_str (const NMSriovVF *vf,gboolean omit_index,GError **error);
Converts a SR-IOV virtual function object to its string representation.
Since: 1.14
nm_utils_sriov_vf_from_str ()
NMSriovVF * nm_utils_sriov_vf_from_str (const char *str,GError **error);
Converts a string to a SR-IOV virtual function object.
Since: 1.14
nm_utils_base64secret_decode ()
gboolean nm_utils_base64secret_decode (const char *base64_key,gsize required_key_len,guint8 *out_key);
Parameters
base64_key |
the (possibly invalid) base64 encode key. |
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required_key_len |
the expected (binary) length of the key after decoding. If the length does not match, the validation fails. |
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out_key |
(out): an optional output buffer for the binary
key. If given, it will be filled with exactly |
[allow-none] |
Since: 1.16
Types and Values
enum NMUtilsSecurityType
Describes generic security mechanisms that 802.11 access points may offer.
Used with nm_utils_security_valid() for checking whether a given access
point is compatible with a network device.
Members
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unknown or invalid security, placeholder and not used |
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unencrypted and open |
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static WEP keys are used for encryption |
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Cisco LEAP is used for authentication and for generating the dynamic WEP keys automatically |
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standard 802.1x is used for authentication and generating the dynamic WEP keys automatically |
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WPA1 is used with Pre-Shared Keys (PSK) |
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WPA1 is used with 802.1x authentication |
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WPA2/RSN is used with Pre-Shared Keys (PSK) |
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WPA2 is used with 802.1x authentication |
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is used with WPA3 Enterprise |
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is used with Enhanced Open |
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is used with WPA3 Enterprise Suite-B 192 bit mode. Since: 1.30. |
NM_UTILS_HWADDR_LEN_MAX
#define NM_UTILS_HWADDR_LEN_MAX 20 /* INFINIBAND_ALEN */
The maximum length of hardware addresses handled by NetworkManager itself,
nm_utils_hwaddr_len(), and nm_utils_hwaddr_aton().
NM_UTILS_INET_ADDRSTRLEN
#define NM_UTILS_INET_ADDRSTRLEN INET6_ADDRSTRLEN
Defines the minimal length for a char buffer that is suitable as dst
argument
for both nm_utils_inet4_ntop() and nm_utils_inet6_ntop().