A network namespace is a logical copy of the network stack from the host system. Network namespaces are useful for setting up containers or virtual environments. Each namespace has its own IP addresses, network interfaces, routing tables, and so forth. The default or global namespace is the one in which the host system physical interfaces exist.
Namespace-specific address spaces can lead to problems when MySQL
connections cross namespaces. For example, the network address
space for a MySQL instance running in a container or virtual
network may differ from the address space of the host machine.
This can produce phenomena such as a client connection from an
address in one namespace appearing to the MySQL server to be
coming from a different address, even for client and server
running on the same machine. Suppose that both processes run on a
host with IP address 203.0.113.10
but use
different namespaces. A connection may produce a result like this:
$> mysql --user=admin --host=203.0.113.10 --protocol=tcp
mysql> SELECT USER();
+--------------------+
| USER() |
+--------------------+
| admin@198.51.100.2 |
+--------------------+
In this case, the expected USER()
value is admin@203.0.113.10
. Such behavior can
make it difficult to assign account permissions properly if the
address from which an connection originates is not what it
appears.
To address this issue, MySQL enables specifying the network namespace to use for TCP/IP connections, so that both endpoints of connections use an agreed-upon common address space.
MySQL supports network namespaces on platforms that implement them. Support within MySQL applies to:
The MySQL server, mysqld.
X Plugin.
The mysql client and the mysqlxtest test suite client. (Other clients are not supported. They must be invoked from within the network namespace of the server to which they are to connect.)
Regular replication.
Group Replication, only when using the MySQL communication stack to establish group communication connections.
The following sections describe how to use network namespaces in MySQL:
Prior to using network namespace support in MySQL, these host system prerequisites must be satisfied:
The host operating system must support network namespaces. (For example, Linux.)
Any network namespace to be used by MySQL must first be created on the host system.
Host name resolution must be configured by the system administrator to support network namespaces.
NoteA known limitation is that, within MySQL, host name resolution does not work for names specified in network namespace-specific host files. For example, if the address for a host name in the
red
namespace is specified in the/etc/netns/red/hosts
file, binding to the name fails on both the server and client sides. The workaround is to use the IP address rather than the host name.The system administrator must enable the
CAP_SYS_ADMIN
operating system privilege for the MySQL binaries that support network namespaces (mysqld, mysql, mysqlxtest).ImportantEnabling
CAP_SYS_ADMIN
is a security sensitive operation because it enables a process to perform other privileged actions in addition to setting namespaces. For a description of its effects, see https://man7.org/linux/man-pages/man7/capabilities.7.html.Because
CAP_SYS_ADMIN
must be enabled explicitly by the system administrator, MySQL binaries by default do not have network namespace support enabled. The system administrator should evaluate the security implications of running MySQL processes withCAP_SYS_ADMIN
before enabling it.
The instructions in the following example set up network
namespaces named red
and
blue
. The names you choose may differ, as may
the network addresses and interfaces on your host system.
Invoke the commands shown here either as the
root
operating system user or by prefixing
each command with sudo. For example, to
invoke the ip or setcap
command if you are not root
, use
sudo ip or sudo setcap.
To configure network namespaces, use the ip command. For some operations, the ip command must execute within a particular namespace (which must already exist). In such cases, begin the command like this:
ip netns exec namespace_name
For example, this command executes within the
red
namespace to bring up the loopback
interface:
ip netns exec red ip link set lo up
To add namespaces named red
and
blue
, each with its own virtual Ethernet
device used as a link between namespaces and its own loopback
interface:
ip netns add red
ip link add veth-red type veth peer name vpeer-red
ip link set vpeer-red netns red
ip addr add 192.0.2.1/24 dev veth-red
ip link set veth-red up
ip netns exec red ip addr add 192.0.2.2/24 dev vpeer-red
ip netns exec red ip link set vpeer-red up
ip netns exec red ip link set lo up
ip netns add blue
ip link add veth-blue type veth peer name vpeer-blue
ip link set vpeer-blue netns blue
ip addr add 198.51.100.1/24 dev veth-blue
ip link set veth-blue up
ip netns exec blue ip addr add 198.51.100.2/24 dev vpeer-blue
ip netns exec blue ip link set vpeer-blue up
ip netns exec blue ip link set lo up
# if you want to enable inter-subnet routing...
sysctl net.ipv4.ip_forward=1
ip netns exec red ip route add default via 192.0.2.1
ip netns exec blue ip route add default via 198.51.100.1
A diagram of the links between namespaces looks like this:
red global blue
192.0.2.2 <=> 192.0.2.1
(vpeer-red) (veth-red)
198.51.100.1 <=> 198.51.100.2
(veth-blue) (vpeer-blue)
To check which namespaces and links exist:
ip netns list
ip link list
To see the routing tables for the global and named namespaces:
ip route show
ip netns exec red ip route show
ip netns exec blue ip route show
To remove the red
and blue
links and namespaces:
ip link del veth-red
ip link del veth-blue
ip netns del red
ip netns del blue
sysctl net.ipv4.ip_forward=0
So that the MySQL binaries that include network namespace
support can actually use namespaces, you must grant them the
CAP_SYS_ADMIN
capability. The following
setcap commands assume that you have changed
location to the directory containing your MySQL binaries (adjust
the pathname for your system as necessary):
cd /usr/local/mysql/bin
To grant CAP_SYS_ADMIN
capability to the
appropriate binaries:
setcap cap_sys_admin+ep ./mysqld
setcap cap_sys_admin+ep ./mysql
setcap cap_sys_admin+ep ./mysqlxtest
To check CAP_SYS_ADMIN
capability:
$> getcap ./mysqld ./mysql ./mysqlxtest
./mysqld = cap_sys_admin+ep
./mysql = cap_sys_admin+ep
./mysqlxtest = cap_sys_admin+ep
To remove CAP_SYS_ADMIN
capability:
setcap -r ./mysqld
setcap -r ./mysql
setcap -r ./mysqlxtest
If you reinstall binaries to which you have previously applied
setcap, you must use
setcap again. For example, if you perform
an in-place MySQL upgrade, failure to grant the
CAP_SYS_ADMIN
capability again results in
namespace-related failures. The server fails with this error
for attempts to bind to an address with a named namespace:
[ERROR] [MY-013408] [Server] setns() failed with error 'Operation not permitted'
A client invoked with the
--network-namespace
option fails
like this:
ERROR: Network namespace error: Operation not permitted
Assuming that the preceding host system prerequisites have been satisfied, MySQL enables configuring the server-side namespace for the listening (inbound) side of connections and the client-side namespace for the outbound side of connections.
On the server side, the
bind_address
,
admin_address
, and
mysqlx_bind_address
system
variables have extended syntax for specifying the network
namespace to use for a given IP address or host name on which to
listen for incoming connections. To specify a namespace for an
address, add a slash and the namespace name. For example, a
server my.cnf
file might contain these
lines:
[mysqld]
bind_address = 127.0.1.1,192.0.2.2/red,198.51.100.2/blue
admin_address = 102.0.2.2/red
mysqlx_bind_address = 102.0.2.2/red
These rules apply:
A network namespace can be specified for an IP address or a host name.
A network namespace cannot be specified for a wildcard IP address.
For a given address, the network namespace is optional. If given, it must be specified as a
/
suffix immediately following the address.ns
An address with no
/
suffix uses the host system global namespace. The global namespace is therefore the default.ns
An address with a
/
suffix uses the namespace namedns
ns
.The host system must support network namespaces and each named namespace must previously have been set up. Naming a nonexistent namespace produces an error.
bind_address
andmysqlx_bind_address
accept a list of multiple comma-separated addresses, the variable value can specify addresses in the global namespace, in named namespaces, or a mix.
If an error occurs during server startup for attempts to use a namespace, the server does not start. If errors occur for X Plugin during plugin initialization such that it is unable to bind to any address, the plugin fails its initialization sequence and the server does not load it.
On the client side, a network namespace can be specified in these contexts:
For the mysql client and the mysqlxtest test suite client, use the
--network-namespace
option. For example:mysql --host=192.0.2.2 --network-namespace=red
If the
--network-namespace
option is omitted, the connection uses the default (global) namespace.For replication connections from replica servers to source servers, use the
CHANGE REPLICATION SOURCE TO
statement and specify theNETWORK_NAMESPACE
option. For example:CHANGE REPLICATION SOURCE TO SOURCE_HOST = '192.0.2.2', NETWORK_NAMESPACE = 'red';
If the
NETWORK_NAMESPACE
option is omitted, replication connections use the default (global) namespace.
The following example sets up a MySQL server that listens for
connections in the global, red
, and
blue
namespaces, and shows how to configure
accounts that connect from the red
and
blue
namespaces. It is assumed that the
red
and blue
namespaces
have already been created as shown in
Host System Prerequisites.
Configure the server to listen on addresses in multiple namespaces. Put these lines in the server
my.cnf
file and start the server:[mysqld] bind_address = 127.0.1.1,192.0.2.2/red,198.51.100.2/blue
The value tells the server to listen on the loopback address
127.0.0.1
in the global namespace, the address192.0.2.2
in thered
namespace, and the address198.51.100.2
in theblue
namespace.Connect to the server in the global namespace and create accounts that have permission to connect from an address in the address space of each named namespace:
$> mysql -u root -h 127.0.0.1 -p Enter password: root_password mysql> CREATE USER 'red_user'@'192.0.2.2' IDENTIFIED BY 'red_user_password'; mysql> CREATE USER 'blue_user'@'198.51.100.2' IDENTIFIED BY 'blue_user_password';
Verify that you can connect to the server in each named namespace:
$> mysql -u red_user -h 192.0.2.2 --network-namespace=red -p Enter password: red_user_password mysql> SELECT USER(); +--------------------+ | USER() | +--------------------+ | red_user@192.0.2.2 | +--------------------+
$> mysql -u blue_user -h 198.51.100.2 --network-namespace=blue -p Enter password: blue_user_password mysql> SELECT USER(); +------------------------+ | USER() | +------------------------+ | blue_user@198.51.100.2 | +------------------------+
NoteYou might see different results from
USER()
, which can return a value that includes a host name rather than an IP address if your DNS is configured to be able to resolve the address to the corresponding host name and the server is not run with theskip_name_resolve
system variable enabled.You might also try invoking mysql without the
--network-namespace
option to see whether the connection attempt succeeds, and, if so, how theUSER()
value is affected.
For replication monitoring purposes, these information sources have a column that displays the applicable network namespace for connections:
The Performance Schema
replication_connection_configuration
table. See Section 29.12.11.9, “The replication_connection_configuration Table”.The replica server connection metadata repository. See Section 19.2.4.2, “Replication Metadata Repositories”.
The
SHOW REPLICA STATUS
statement.