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哈尔滨新闻网版权所有，您的需求就是我们努力的追求。赣ICP备号C.2. ip address
C.2. ip address
Part of the iproute2 suite, ip
address can
affiliated with
interfaces,
C.2.1. Displaying interface information with
ip address show
The first thing you'll want to do is list the IPs on your machine.
The ip address tool will display IP (and
terse encapsulation information) when invoked with the
show verb.
To specify that you wish to see the IP
information for only one interface, you can add dev
&device-name&
Example C.6. Displaying IP information with ip address
[root@tristan]# ip address show
1: lo: &LOOPBACK,UP& mtu 16436 qdisc noqueue
link/loopback 00:00:00:00:00:00 brd 00:00:00:00:00:00
inet 127.0.0.1/8 brd 127.255.255.255 scope host lo
2: eth0: &BROADCAST,MULTICAST,UP& mtu 1500 qdisc pfifo_fast qlen 100
link/ether 00:80:c8:f8:4a:51 brd ff:ff:ff:ff:ff:ff
inet 192.168.99.35/24 brd 192.168.99.255 scope global eth0
[root@tristan]# ip address show dev eth0
2: eth0: &BROADCAST,MULTICAST,UP& mtu 1500 qdisc pfifo_fast qlen 100
link/ether 00:80:c8:f8:4a:51 brd ff:ff:ff:ff:ff:ff
inet 192.168.99.35/24 brd 192.168.99.255 scope global eth0
[root@wan-gw]# ip address show wan0
8: wan0: &POINTOPOINT,NOARP,UP& mtu 1500 qdisc pfifo_fast qlen 100
link/ppp 01:f4 peer 00:00
inet 205.254.209.73 peer 205.254.209.74/32 scope global wan0
[root@real-example]# ip address show ppp0
5: ppp0: &POINTOPOINT,MULTICAST,NOARP,UP& mtu 1492 qdisc htb qlen 3
inet 67.38.163.197 peer 67.38.163.254/32 scope global ppp0
You should notice some similarity between the output of
ip address and
Each device is given an sequential number as an identifying number.
This is merely a convenience, and should not be used to refer to
The second field in an entry is the interface name (which
usually corresponds to the device name).
Next, we see the familiar
maximum transmission unit size.
The final fields in the first line of output for each device entry
refer to the traffic control queueing discipline (qdisc) and the
Ethernet buffer transmit queue length (qlen).
For more on
understanding and using traffic control under linux, see
The second line of output describes the link layer characteristics
of the device.
For Ethernet devices, this will always say
"link/ether" followed by the hardware address of the device and the
media broadcast address.
For more detail on the link layer
characteristics of a device see .
Subsequent lines of output describe the IP addresses available on each
interface.
In a typical installation only one address is used on
each interface, although an arbitrary number of addresses can also be
used on each interface.
Each line contains the IP address and netmask in CIDR notation, an
optional broadcast address, scope information and a label.
examine the scope and label first and then discuss IP addressing and
broadcast calculation.
The possible values for scope are outlined in
the following table.
Table C.2. IP Scope under ip addressScopeDescriptionglobalvalid everywheresitevalid only within this site (IPv6)linkvalid only on this devicehostvalid only inside this host (machine)
Scope is normally determined by the ip utility
without explicit use on the command line.
For example, an IP address
in the 127.0.0.0/8 range falls in the range of localhost IPs, so
should not be routed out any device.
This explains the presence of
the host scope for addresses bound to interface
Usually, addresses on other interfaces are
public interfaces, which means that their scope will be global.
will revisit scope again when we discuss routing with ip
route, and there we will also encounter the link scope.
Now, let's examine IP addressing with the ip
address utility by adding and removing IP addresses from
active interfaces.
C.2.2. Using ip address add to configure
IP address information
If you need to host an additional IP address on
tristan, here's how you
would accomplish this task.
Example C.7. Adding IP addresses to an interface with ip address
[root@tristan]# ip address add 192.168.99.37/24 brd + dev eth0
[root@tristan]# ip address show dev eth0
2: eth0: &BROADCAST,MULTICAST,UP& mtu 1500 qdisc pfifo_fast qlen 100
link/ether 00:80:c8:f8:4a:51 brd ff:ff:ff:ff:ff:ff
inet 192.168.99.35/24 brd 192.168.99.255 scope global eth0
inet 192.168.99.37/24 brd 192.168.99.255 scope global secondary eth0
There are a few items of note.
You can use ip address
add even if the link layer on the device is down.
means that you can readdress an interface without bringing it up.
When you add an address within the same CIDR network as another
address on the same interface, the second address becomes a secondary
address, meaning that if the first address is removed, the second
address will also be purged from the interface.
In order to support compatibility with
ip address command allows the user to specify a
label on every hosted address on a given device.
After adding an
address to an interface as we did in
ifconfig will not report that the new IP
192.168.99.37 is hosted on the same device as the primary IP
192.168.99.35.
In order to prevent this sort of confusion or apparently
contradictory output, you should get in the habit of using the
label option to identify each IP hosted on a
Let's take a look at how to remove the 192.168.99.37 IP from
eth0 and add it back so that ifconfig will report
the presence of another IP on the eth0 device.
C.2.3. Using ip address del to remove IP addresses
from an interface
There is a difference between IPs considered as primary addresses on
an interface and secondary addresses.
If in the output, an address
is listed as a secondary address, removing the primary address will
also remove the secondary address.
A workaround is to set the netmask on the second address added to
the interface to /32.
Unfortunately, this subterfuge will prevent
the kernel from entering the correct corresponding network and
broadcast routes.
Example C.8. Removing IP addresses from interfaces with ip address
[root@tristan]# ip address del 192.168.99.37/24 brd + dev eth0
[root@tristan]# ip address add 192.168.99.37/24 brd + dev eth0 label eth0:0
[root@tristan]# ip address show dev eth0
2: eth0: &BROADCAST,MULTICAST,UP& mtu 1500 qdisc pfifo_fast qlen 100
link/ether 00:80:c8:f8:4a:51 brd ff:ff:ff:ff:ff:ff
inet 192.168.99.35/24 brd 192.168.99.255 scope global eth0
inet 192.168.99.37/24 brd 192.168.99.255 scope global secondary eth0:0
[root@tristan]# ifconfig
Link encap:Ethernet
HWaddr 00:80:C8:F8:4A:51
inet addr:192.168.99.35
Bcast:192.168.99.255
Mask:255.255.255.0
UP BROADCAST RUNNING MULTICAST
RX packets:190312 errors:0 dropped:0 overruns:0 frame:0
TX packets:86955 errors:0 dropped:0 overruns:0 carrier:0
collisions:0 txqueuelen:100
RX bytes:.2 Mb)
TX bytes:.5 Mb)
Interrupt:9 Base address:0x5000
Link encap:Ethernet
HWaddr 00:80:C8:F8:4A:51
inet addr:10.10.20.10
Bcast:10.10.20.255
Mask:255.255.255.0
UP BROADCAST RUNNING MULTICAST
Interrupt:9 Base address:0x1000
Link encap:Local Loopback
inet addr:127.0.0.1
Mask:255.0.0.0
UP LOOPBACK RUNNING
RX packets:306 errors:0 dropped:0 overruns:0 frame:0
TX packets:306 errors:0 dropped:0 overruns:0 carrier:0
collisions:0 txqueuelen:0
RX bytes:2 Kb)
TX bytes:2 Kb)
Taking the minor precaution of using labels on IP
addresses added to an interface will prevent confusion if there are
multiple administrators of a machine, some of whom use
C.2.4. Removing all IP address information from an interface
with ip address flush
Finally, let's look at the use of ip address flush.
If an interface has already had IP addresses assigned to it, and all
of the addresses need to be removed (along with their routes), there
is one handy command to accomplish all of these tasks.
address flush takes an interface name as an argument.
Let's look at the output of ip address show just
before and just after removing all IPs.
Example C.9. Removing all IPs on an interface with ip address flush
[root@tristan]# ip address show dev eth0
2: eth0: &BROADCAST,MULTICAST,UP& mtu 1500 qdisc pfifo_fast qlen 100
link/ether 00:80:c8:f8:4a:51 brd ff:ff:ff:ff:ff:ff
inet 192.168.99.35/24 brd 192.168.99.255 scope global eth0
inet 192.168.99.37/24 brd 192.168.99.255 scope global secondary eth0:0
[root@tristan]# ip address flush
Flush requires arguments.
[root@tristan]# ip address flush dev eth0
[root@tristan]# ip address show dev eth0
2: eth0: &BROADCAST,MULTICAST,UP& mtu 1500 qdisc pfifo_fast qlen 100
link/ether 00:80:c8:f8:4a:51 brd ff:ff:ff:ff:ff:ff
C.2.5. Conclusion
As you can see, the ip address utility provides a
wealth of information and a great deal of control over the IPs
associated with each device.
For more detailed information about
the iproute2 package and included tools, see手机号/邮箱:?
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版权所有，未经允许，请勿用于任何用途。某医药研究所开发一种新药，如果成人按规定的剂量服用，据监测：服药后每毫升血液中含药量y与时间t之间近似满足如图所示曲线：
（1）分别求出t≤和t≥时，y与t之间的函数关系式；
（2）据测定：每毫升血液中含药量不少于4微克时治疗疾病有效，假如某病人一天中第一次服药为7：00，那么服药后几点到几点有效？
（1）当t≤时，y与t成正比例函数，t≥时，y与t是一次函数关系，利用待定系数法求解即可．
（2）利用函数的性质得4≤y1≤6，4≤y2≤6，分别解出x的取值范围，再换算成时间即可．
解：（1）当t≤时，设y1=kx，图象经过点（，6），
代入解得：k=12，所以y1=12x．
当t≥时，设y2=kx+b，图象经过点（，6）和点（8，0）．
代入列出方程组，
解得：k=-，b=，所以y2=-x+．
（2）依题意知：4≤12x≤6，
解得：≤x≤．
所以服药后的小时到小时内治疗疾病有效；
4≤-x+≤6，
解得：≤x≤3．
所以服药后的小时到3小时内治疗疾病有效，即7：20到10：00有效．
综合以上两方面，每毫升血液中含药量不少于4微克时是在服药后小时到3小时内有效，即7：20到10：00有效．}