Previously, src/nm-ip4-config.h, libnm/nm-ip4-config.h, and
libnm-glib/nm-ip4-config.h all used "NM_IP4_CONFIG_H" as an include
guard, which meant that nm-test-utils.h could not tell which of them
was being included (and so, eg, if you tried to include
nm-ip4-config.h in a libnm test, it would fail to compile because
nm-test-utils.h was referring to symbols in src/nm-ip4-config.h).
Fix this by changing the include guards in the non-API-stable parts of
the tree:
- libnm-glib/nm-ip4-config.h remains NM_IP4_CONFIG_H
- libnm/nm-ip4-config.h now uses __NM_IP4_CONFIG_H__
- src/nm-ip4-config.h now uses __NETWORKMANAGER_IP4_CONFIG_H__
And likewise for all other headers.
The two non-"nm"-prefixed headers, libnm/NetworkManager.h and
src/NetworkManagerUtils.h are now __NETWORKMANAGER_H__ and
__NETWORKMANAGER_UTILS_H__ respectively, which, while not entirely
consistent with the general scheme, do still mostly make sense in
isolation.
Include <linux/if_ether.h> and <linux/if_infiniband.h> from
nm-utils.h, to get ETH_ALEN and INFINIBAND_ALEN, and remove those
includes (as well as <net/ethernet.h> and <netinet/ether.h>, and
various headers that had been included to get the ARPHRD_* constants)
from other files where they're not needed now.
Lots of old code used struct ether_addr to store hardware addresses,
and ether_aton() to parse them, but more recent code generally uses
guint8 arrays, and the nm_utils_hwaddr_* methods, to be able to share
code between ETH_ALEN and INFINIBAND_ALEN cases. So update the old
code to match the new. (In many places, this ends up getting rid of
casts between struct ether_addr and guint8* anyway.)
(Also, in some places, variables were switched from struct ether_addr
to guint8[] a while back, but some code still used "&" when referring
to them even though that's unnecessary now. Clean that up.)
Ethernet-like interfaces aren't the only type of interfaces that can
run IPv6 but the rdisc code only returns an address if the interface's
hardware address is 6 bytes.
Interface types like PPP (rfc5072) and IPoIB (rfc4391) have their own
specifications for constructing IPv6 addresses and we should honor
those.
So instead of expecting a MAC address, let each device subclass
generate an Interface Identifier and use that for rdisc instead.
Clean up some of the cross-includes between headers (which made it so
that, eg, if you included NetworkManagerUtils.h in a test program, you
would need to build the test with -I$(top_srcdir)/src/platform, and if
you included nm-device.h you'd need $(POLKIT_CFLAGS)) by moving all
GObject struct definitions for src/ and src/settings/ into nm-types.h
(which already existed to solve the NMDevice/NMActRequest circular
references).
Update various .c files to explicitly include the headers they used to
get implicitly, and remove some now-unnecessary -I options from
Makefiles.
This functionality is now provided by nm_connection_normalize().
Contrary to nm_utils_normalize_connection(), nm_connection_normalize()
is in libnm-util and available to clients as well.
Signed-off-by: Thomas Haller <thaller@redhat.com>
Returns the length of a string at compile time. Contrary to strlen(),
which is a run time expression -- even if the compler might be able to
optimize strlen() for string constants.
Signed-off-by: Thomas Haller <thaller@redhat.com>
If IPv4 configuration did not succeed or the device has no IPv4 addresses
when NM restarts, it will detect the existing device configuration as
'disabled'. This can happen when a bridge has no slaves and thus cannot
perform IPv4 addressing because it has no carrier (since bridge carrier
status depends on slave carriers). When NM starts or restarts, it
sees the bridge has no IPv4 address and assumes the IPv4 method is
'disabled'. This creates a new connection, which blocks any slave
connections from activating if they specify their master via UUID
(since the bridge's active connection is generated).
Fix this by allowing matches from 'disabled' to 'auto' if the device
has no carrier, and there are no other differences between the
original and the candidate connections.
When generating a connection, if the device has no non-link-local IPv6
address, then it's unclear whether (a) the connection was link-local
originally, or (b) the connection was 'auto' but IPv6 failed or timed
out.
In this case, if there is a persistent connection that is 'auto' but
the generated connection is 'link-local', the persistent connection
should be used.
Add a more-testable framework for doing the connection matching to
handle this.
If the interface who's IP configuration is being captured has the default
route, then read DNS servers from resolv.conf into the NMIP[4|6]Config.
This allows NetworkManager to repopulate resolv.conf if anything changes.
For example, if the system does not define a persistent hostname, then
when a device which has generated a connection activates, a hostname
lookup will be performed. The results of that lookup may change resolv.conf,
and thus NetworkManager must rewrite resolv.conf. Without capturing
DNS information at startup when generating connections, an empty
resolv.conf would be written.
Although it's convenient in some places to have IP configs on all
connections, it makes more sense in other places to not have IP
configs on slaves. (eg, it's confusing for nmcli, etc, to report a
full NMSettingIP4Config on a slave device). So revert parts of the
earlier patch. However, it's still safe to assume that s_ip4 != NULL
if method != DISABLED, so some of the earlier simplifications can
stay.
Also, add nm_utils_get_ip_config_method(), which returns the correct
IP config method for a connection, whether the connection has IP4 and
IP6 settings objects or not, and use that to keep some more of the
simplifications from the earlier patch.
Make sure that all connections returned from NMSettings or created via
AddAndActivateConnection have an NMSettingIP4Config and an
NMSettingIP6Config, with non-NULL methods, and get rid of
now-unnecessary checks for those.
Also move the slaves-can't-have-IP-config checks into the
platform-independent code as well. This also gets rid of spurious
"ignoring IP4/IP6 configuration" warnings in ifcfg-rh when reading a
slave ifcfg file.
Partly based on a patch from Pavel.
https://bugzilla.gnome.org/show_bug.cgi?id=708875
Note that this patch doesn't effectively change any code.
Functions moved from nm-system:
* nm_system_apply_ip?_config → nm_ip?_config_commit
* ip?_dest_in_same_subnet → nm_ip?_config_destination_is_direct
Functions moved from NetworkManagerUtils:
* nm_utils_merge_ip?_config → nm_ip?_config_merge_setting
Functions renamed (and moved down to form one group):
* nm_ip?_config_new_for_interface → nm_ip?_config_capture
(The rationale for the rename is that from the achitectural point of
view it doesn't matter whether the function creates a new object or
updates an existing one. After the rename, it's obvious that
nm_ip?_config_capture() and nm_ip?_config_commit() are counterparts of
each other.)
Add NMConfigDevice, which is mostly just a wrapper around
nm_device_get_hw_address() and nm_device_spec_match_list(), and
implement it in NMDevice. This will be used for config options that
match devices. (We can't use NMDevice directly for dependency
reasons.)
- changes nm_utils_get_proc_sys_net_value() to allow all values, not just 0,1
- adds nm_utils_get_proc_sys_net_value_with_bounds() for limiting valid values
nm_utils_hwaddr_ntoa() and nm_utils_hwaddr_aton() are like
ether_ntoa()/ether_aton(), but handle IPoIB too.
nm_utils_hwaddr_atoba() is like _aton() but returns a GByteArray,
since that's what's wanted in many places.
Also remove nm_ether_ntop() and replace uses of it with
nm_utils_hwaddr_ntoa().
For VPN connections, the interface name would be that of the VPN's
IP interface, but the script environment would be the that of the
VPN's parent device. Enhance the environment by adding any VPN
specific details as additional environment variables prefixed by
"VPN_". Leave the existing environment setup intact for backwards
compatiblity.
Additionally, the dispatcher never got updated for IPv6 support,
so push IPv6 configuration and DHCPv6 configuration into the
environment too.
Even better, push everything the dispatcher needs to it instead
of making the dispatcher make D-Bus requests back to NM, which
sometimes fails if NM has already torn down the device or the
connection which the device was using.
And add some testcases to ensure that we don't break backwards compat,
the testcases here were grabbed from a 0.8.4 machine with a hacked up
dispatcher to dump everything it was given from NM.
The only thing that doesn't work yet is the system-settings service's
"auto eth" connections for ethernet devices that don't have an existing
connection. Might also have issues with unmanaged devices that can't
provide a MAC address until they are brought up, but we'll see.
Instead of requiring applets to hash passphrases, just do it in NM instead.
This should fix confusion where people don't understand that they are seeing
their hashed passphrase.
