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[88.114.211.119]) by smtp.gmail.com with ESMTPSA id 202sm1487573lfg.24.2020.07.25.09.59.20 (version=TLS1_3 cipher=TLS_AES_256_GCM_SHA384 bits=256/256); Sat, 25 Jul 2020 09:59:21 -0700 (PDT) From: Topi Miettinen To: selinux@vger.kernel.org Cc: Topi Miettinen Subject: [PATCH] Improve network_support.md Date: Sat, 25 Jul 2020 19:57:21 +0300 Message-Id: <20200725165721.4964-1-toiwoton@gmail.com> X-Mailer: git-send-email 2.27.0 MIME-Version: 1.0 Content-Type: text/plain; charset=UTF-8 Content-Transfer-Encoding: 8bit Sender: selinux-owner@vger.kernel.org Precedence: bulk List-ID: X-Mailing-List: selinux@vger.kernel.org List all access control methods available for networking and provide examples for each. Signed-off-by: Topi Miettinen --- src/network_support.md | 170 ++++++++++++++++++++++++++++++++++++----- 1 file changed, 149 insertions(+), 21 deletions(-) diff --git a/src/network_support.md b/src/network_support.md index 309e863..a01ca3d 100644 --- a/src/network_support.md +++ b/src/network_support.md @@ -1,20 +1,17 @@ # SELinux Networking Support -SELinux supports the following types of network labeling: +SELinux supports several methods for access control of networks. These are -**Internal labeling** - This is where network objects are labeled and -managed internally within a single machine (i.e. their labels are not -transmitted as part of the session with remote systems). There are two -types supported: SECMARK and NetLabel. There was a service known as -'compat_net' controls, however that was removed in kernel 2.6.30. +* Packet labeling: class `packet` +* Peer labeling: class `peer` +* Interface control: class `netif` +* Network node control: class `node` +* TCP/UDP/SCTP/DCCP ports: class `port` -**Labeled Networking** - This is where labels are passed to/from remote -systems where they can be interpreted and a MAC policy enforced on each -system. There are three types supported: Labeled IPSec, CIPSO -(Commercial IP Security Option) and CALIPSO (Common Architecture Label -IPv6 Security Option) +Networking support is not enabled by default. It can be enabled either +the policy capabilites or by loading SECMARK rules. -There are two policy capability options that can be set within policy +There are three policy capability options that can be set within policy using the `policycap` statement that affect networking configuration: **`network_peer_controls`** - This is always enabled in the latest @@ -37,8 +34,22 @@ The policy capability settings are available in userspace via the SELinux filesystem as shown in the [**SELinux Filesystem**](lsm_selinux.md#selinux-filesystem) section. -To support peer labeling, CIPSO and CALIPSO the NetLabel tools need to -be installed: +SELinux supports the following types of network labeling: + +**Internal labeling** - This is where network objects are labeled and +managed internally within a single machine (i.e. their labels are not +transmitted as part of the session with remote systems). There are two +types supported: SECMARK and NetLabel. There was a service known as +'compat_net' controls, however that was removed in kernel 2.6.30. + +**Labeled Networking** - This is where labels are passed to/from remote +systems where they can be interpreted and a MAC policy enforced on each +system. There are three types supported: Labeled IPSec, CIPSO +(Commercial IP Security Option) and CALIPSO (Common Architecture Label +IPv6 Security Option). + +To support peer labeling with CIPSO and CALIPSO or fallback labeling, +the NetLabel tools need to be installed: `dnf install netlabel_tools` @@ -52,8 +63,12 @@ OpenSwan but is now distributed as LibreSwan: `dnf install libreswan` It is important to note that the kernel must be configured to support -these services. The Fedora kernels are configured to handle all the above -services. +these services (`CONFIG_NETLABEL`, `CONFIG_NETWORK_SECMARK`, +`CONFIG_NF_CONNTRACK_SECMARK`, +`CONFIG_NETFILTER_XT_TARGET_CONNSECMARK`, +`CONFIG_NETFILTER_XT_TARGET_SECMARK`, `CONFIG_IP_NF_SECURITY`, +`CONFIG_IP6_NF_SECURITY`). At least Fedora and Debian kernels are +configured to handle all the above services. The Linux networking package *iproute* has an SELinux aware socket statistics command ***ss**(8)* that will show the SELinux context of @@ -65,7 +80,7 @@ to achieve this).
-## SECMARK +## Internal labeling: SECMARK SECMARK makes use of the standard kernel NetFilter framework that underpins the GNU / Linux IP networking sub-system. NetFilter services @@ -73,7 +88,7 @@ automatically inspects all incoming and outgoing packets and can place controls on interfaces, IP addresses (nodes) and ports with the added advantage of connection tracking. The SECMARK security extensions allow security contexts to be added to packets (SECMARK) or sessions -(CONNSECMARK). +(CONNSECMARK), belonging to object class of `packet`. The NetFilter framework inspects and tag packets with labels as defined within ***iptables**(8)* (also 'nftables' ***nft**(8)* from version 9.3 with @@ -172,6 +187,16 @@ table ip6 security { } ``` +Before the SECMARK rules can be loaded, TE rules must be added to +define the types, and also allow domains to send and/or receive +objects of `packet` class: + +``` +type test_server_packet_t, packet_type; + +allow my_server_t test_server_packet_t:packet { send recv }; +``` + The following articles explain the SECMARK service: - [*Transitioning to Secmark*](http://paulmoore.livejournal.com/4281.html) - [New secmark-based network controls for SELinux](http://james-morris.livejournal.com/11010.html) @@ -179,7 +204,7 @@ The following articles explain the SECMARK service:
-## NetLabel - Fallback Peer Labeling +## Internal labeling: NetLabel - Fallback Peer Labeling Fallback labeling can optionally be implemented on a system if the Labeled IPSec or CIPSO/CALIPSO is not being used (hence 'fallback @@ -217,9 +242,20 @@ netlabelctl -p map list Note that the security contexts must be valid in the policy otherwise the commands will fail. +Before the NetLabel rules can be loaded, TE rules must be added to +define the types. The the rules can allow domains to receive data from +objects of `peer` class: + +``` +type netlabel_sctp_peer_t; + +allow my_server_t netlabel_sctp_peer_t:peer recv; +``` +Note that sending can't be controlled with `peer` class. +
-## NetLabel – CIPSO/CALIPSO +## Labeled Networking: NetLabel – CIPSO/CALIPSO To allow MLS [**security levels**](mls_mcs.md#security-levels) to be passed over a network between MLS @@ -288,7 +324,7 @@ section, plus the standard Fedora 'targeted' policy for the tests.
-## Labeled IPSec +## Labeled Networking: Labeled IPSec Labeled IPSec has been built into the standard GNU / Linux IPSec services as described in the @@ -451,6 +487,98 @@ The *selinux-testsuite tools/nfs.sh* tests labeled NFS using various labels.
+## Access Control for Network Interfaces + +SELinux domains can be restricted to use only specific network +interfaces. TE rules must define the interface types and then allow a +domain to `egress` in class `netif` for the defined interface types: + +``` +require { + attribute netif_type; +} + +type external_if_t, netif_type; +type loopback_if_t, netif_type; + +allow my_server_t external_if_t:netif egress; +allow my_server_t loopback_if_t:netif egress; +``` + +The interfaces must also be labeled with ***semanage**(8)* (or by +using `netifcon` statements in the policy): +``` +semanage interface -a -t loopback_if_t -r s0 lo +semanage interface -a -t external_if_t -r s0 eth0 +``` + +Note that reception can't be controlled with `netif` class. + +
+ +## Access Control for Network Nodes + +Domains can be restricted by SELinux to access and bind sockets to +only dedicated network nodes (in practice, IP addresses). + +The node types must be defined and then the node types can be used for +TE rules as target context. TE rules to allow a domain to `sendto` for +class `node` and to `node_bind` (for incoming connections) for class +`tcp_socket`: + +``` +require { + attribute node_type; +} + +type loopback_node_t, node_type; +type internet_node_t, node_type; +type link_local_node_t, node_type; +type multicast_node_t, node_type; + +allow my_server_t loopback_node_t:node sendto; +allow my_server_t loopback_node_t:tcp_socket node_bind; +allow my_server_t internet_node_t:node sendto; +``` + +After the types have been defined, corresponding node rules can be +added with `semanage` (or `nodecon` statements): +``` +semanage node -a -M /128 -p ipv6 -t loopback_node_t -r s0 ::1 +semanage node -a -M /3 -p ipv6 -t internet_node_t -r s0 2000:: +semanage node -a -M /8 -p ipv6 -t link_local_node_t -r s0 fe00:: +semanage node -a -M /8 -p ipv6 -t multicast_node_t -r s0 ff00:: +``` + +
+ +## Access Control for Network Ports + +SELinux policy can also control access to ports used by various +networking protocols such as TCP, UDP, SCTP and DCCP. TE rules must +define the port types and then allow a domain to `name_connect` +(outgoing) or `name_bind` (incoming) in class `tcp_socket` (or +`udp_socket` etc) for the defined port types: + +``` +require { + attribute port_type; +} + +type my_server_port_t, port_type; + +allow my_server_t my_server_port_t:tcp_socket name_connect; +allow my_server_t my_server_port_t:tcp_socket name_bind; +``` + +The ports must also be labeled with `semanage` (or `portcon` +statements): +``` +semanage port -a -t my_server_port_t -p tcp -r s0 12345 +``` + +
+
  1. For example, an ftp session where the server is listening on a specific port (the destination port) but the client will be assigned a random source port. The CONNSECMARK will ensure that all packets for the ftp session are marked with the same label.

  2. -- 2.27.0