Hi,
I have created a bonding bond1 interface with 6 Eth , mode=4. Recently i have changed my old ipv6 to new one and tried to restart as well as reload network service. Post which i can see old as well as changed ipv6 in ifconfig command output. Below are few files and command output for your... (1 Reply)
Hi,
After installing vsftpd rpm - we have vsftpd service available.
But when i installed lftp rpm - i do not see any associated service for this ?
Is there is any ? (2 Replies)
Hi,
i'm trying to install PhpMyAdmin on my RHEL 6.1
but when i do :
yum install phpmyadmin
it gives me this :
Error: Package: php-common-5.5.8-1.el6.remi.i686 (remi-php55)
Requires: libssl.so.10(libssl.so.10)
Error: Package: php-5.5.8-1.el6.remi.i686 (remi-php55)
... (1 Reply)
Hi I have ISO file of RHEL6.
I want to install it on my WIndows 7 machine with dual boot. But my CD/DVD drive is not working.
Please tell me how do you I make it USB bootable from my own Windows machine so that I can install it happily through flash drive. (3 Replies)
I installed rhel 6.0 in my laptop but it is not upporting 3d graphics of rhel6 and i am getting an error message
"Accelerated 3d graphics not available
Desktop effects require hardware 3D support."
my laptop is dll studio 1558 and my graphic card is ATI Radeon 5470 with 1 gb dedicated ram. (6 Replies)
Hello,
I just installed RHEL6 OC on my T61p. It's great!
Just for fun I'd like to use some fancy cool Desktop effects. I tried to enable 3D Desktop effects from OC Welcome Center but it gave me error message:
Accelerated 3D graphics is not available. Desktop effects require hardware 3D support.... (7 Replies)
Hi All,
I am new to HP-UX and new to administration world. I have a problem with two HP Laser Jet M5035MFP printers which are connected to HP-UX host machines. Problem is that whenver we print a job, the job gets printed very fine but the queue is not cleared. This makes the further jobs on the... (2 Replies)
I am trying to capture the ipv6 packets through pcap utility.
For that i am redirecting the ipv6 packets to the loopback address , but the ipv6 packets are not getting redirected to tha loopback address.Instead they are taking there normal routes. (1 Reply)
inet6_rth_space(3N)inet6_rth_space(3N)NAME
inet6_rth_add(), inet6_rth_getaddr(), inet6_rth_init(), inet6_rth_reverse(), inet6_rth_segments(), inet6_rth_space() - IPv6 Routing header
options manipulation functions.
SYNOPSIS DESCRIPTION
These functions can be used by an application to build and examine an IPv6 Routing header. The Routing header can be used by an IPv6
source to list one or more intermediate nodes to be visited on the way to a packet's destination.
These three functions build a Routing header: returns the number of bytes required for a Routing header.
initializes the buffer data for a Routing header.
adds one IPv6 address to the Routing header.
Three functions deal with a returned Routing header: reverses a Routing header.
returns the number of segments in a Routing header.
fetches one address from a Routing header.
These functions are described below:
This function returns the number of bytes required to hold a routing
header of the specified type containing the specified number of segments (addresses). For an IPv6 Type 0 Routing header, the number
of segments must be between 0 and 127, inclusive. The return value is just the space for the Routing header. When the application
uses ancillary data, it must pass the returned length to to determine how much memory is needed for the ancillary data object (includ-
ing the structure).
If the return value is 0, then either the type of the Routing header is not supported by this implementation or the number of segments
is invalid for this type of Routing header.
This function returns the size but does not allocate the space required for the ancillary data.
Note: If type is 2 (Routing Header Type 2), segments must be 1 (RFC 4584).
This function initializes the buffer pointed to by
bp to contain a Routing header of the specified type. bp_len is only used to verify if the buffer is large enough.
The caller must allocate the buffer, and its size can be determined by calling
Upon success, the return value is the pointer to the buffer (bp), and the pointer is then used as the first argument to the function.
Upon an error, the return value is NULL.
Note: If type is 2 (Routing Header Type 2), segments must be 1 (RFC 4584).
This function adds the IPv6 address pointed to by
addr to the end of the Routing header being constructed.
If successful, the member of the Routing header is updated to account for the new address in the Routing header and the return value
of the function is 0. Upon an error the return value of the function is -1.
Note: If the Routing header is type 2, this function can only be called once.
This function takes a Routing header extension header pointed to by
the first argument in and writes a new Routing header. The new Routing header sends datagrams along the reverse of that route. The
function reverses the order of the addresses and sets the member in the new routing header to the number of segments. Both arguments
are allowed to point to the same buffer (that is, the reversal can occur in place).
The return value of the function is 0 on success, or -1 upon an error.
Note: If Routing header is type 2, this function returns -1 (RFC 4584).
This function returns the number of segments (addresses) contained in
the Routing header described by bp which can be 0 or greater.
The return value of the function is -1 upon an error.
This function returns a pointer to the IPv6 address specified by
index (which must be a value between 0 and one less than the value returned by in the Routing header described by bp.
An application should first call to obtain the number of segments in the Routing header.
Upon an error, the return value of the function is NULL.
Note: If Routing header is type 2, this function returns a pointer to the IPv6 home address specified by the ip6r2_homeaddr field in
which is pointed by bp. The index must be zero.
Notes
To use these functions, the application must be compiled with:
To receive a Routing header, the application must enable the socket option:
To send a Routing header, the application specifies it either as ancillary data in a call to or using (see send(2) and getsockopt(2),
respectively).
EXAMPLES
gives a comprehensive example in Appendix B.
SEE ALSO send(2), getsockopt(2), IPv6(7P), xopen_networking(7).
inet6_rth_space(3N)
IPv6 Routing got flushed out in RHEL6.4