Author: kittycool only

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Efficient Task Grouping with Ansible: Timezone Configuration Example

Ansible allows us to logically group a set of tasks together together, and…..

  1. Apply conditional logic to all the tasks within the block. In such a way, the logic only need to be declared once
  2. Apply Error handling especially when recovering from an error condition.

We will deal with Point 1 in this blog entry.

Point 1: Conditional Logic

- name: Check current Timezone
  command: timedatectl show --property=Timezone --value
  register: timezone_output
  changed_when: false

- name: Configure Timezone to Asia/Singapore
  command: timedatectl set-timezone Asia/Singapore
  when: timezone_output.stdout != "Asia/Singapore"

- name: Install and Configure Chrony Service Block
  block:
    - name: Install Chrony package
      dnf:
        name: chrony
        state: present

    - name: Configure Chrony servers
      lineinfile:
        path: /etc/chrony.conf
        line: "server sg.pool.ntp.org iburst"
        insertafter: '^#.*server 3.centos.pool.ntp.org iburst'
        state: present

    - name: Enable Chrony service
      service:
        name: chronyd
        state: started
        enabled: yes
  when:
    - ansible_os_family == "RedHat"
    - ansible_distribution_major_version == "8"

Reference:

Blocks

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How to Install Rustup for All Linux Users in a Cluster or Shared Environment

Rustup is an installer for System Programming Language Rust. If you are running the installer script for yourself, you can take a look at https://github.com/vi/rustup

# curl -sf https://static.rust-lang.org/rustup.sh | sudo sh

But what if you have to install for all users in a Cluster or Shared Environment, how do we do it? Fortunately, we have good information that is found at Installing rustup for all linux users . I took some snipplets from that site

In that article, the author recommends to define RUSTUP_HOME and CARGO_HOME

# export RUSTUP_HOME=/usr/local/rust
# export CARGO_HOME=/usr/local/rust
# curl https://sh.rustup.rs -sSf | sh -s -- -y --no-modify-path

The directory should be installed at /usr/local/rust/toolchains/stable-x86_64-unknown-linux-gnu

# ls -l /usr/local/rust/toolchains/stable-x86_64-unknown-linux-gnu
drwxr-xr-x. 2 root root 0 May  6 13:43 bin
drwxr-xr-x. 3 root root 0 May  6 13:42 etc
drwxr-xr-x. 3 root root 0 May  6 13:43 lib
drwxr-xr-x. 2 root root 0 May  6 13:43 libexec
drwxr-xr-x. 5 root root 0 May  6 13:42 share
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Configuring ABAQUS Linux Client for New License Server | Step-by-Step

If you have migrated to a new ABAQUS License Server and is planning to point your ABAQUS Linux Client to the new License Server. Here are the simple steps you will need to do

Step 1: Find the custom_v6.env files to edit.

Depending on how you install, for me I like to put everything in /usr/local so my abaqus will be placed there.

# cd /usr/local/abaqus-2023/SIMULIA/EstProducts/2023/linux_a64/SMA/site/
# vim custom_v6.env

Step 2: Edit the custom_v6.env file

Add the abaquslm_license_file = “27398@XXX.XXX.XXX.XXX”

# Installation of Established Products 2023
# Wed Oct 11 13:30:54 2023
plugin_central_dir="/usr/local/abaqus-2023/DassaultSystemes/SIMULIA/CAE/plugins/2023"
# retrieve licensing configuration from EstablishedProductsConfig.ini
importEnv('licensing.env')
abaquslm_license_file = "27398@XXX.XXX.XXX.XXX"

References:

  1. Manually Configuring Licensing for ABAQUS
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Linux Journaling vs. Copy-On-Write Filesystems: A Comparison

Hope you have read

This comparison table is taken from the book “Architecture and Design of the Linux Storage Stack” which I find useful to help understand the differences between the two.

JournalingCopy-On-Write
Write handlingChanges are recorded in a journal before applying them to the actual file systemA separate copy of data is created to make modifications
Original dataOriginal data gets overwrittenOriginal data remains intact
Data ConsistencyEnsures consistency by recording metadata changes and replaying them if neededEnsures consistency by never modifying the original data
PerformanceMinimal overhead depending on the type of journaling modeSome performance gains because of faster writes
Space utilisationJournal size is typically in MB, so no additional space is requiredMore space is required due to separate copies of data
Recovery timesFast recovery times as the journal can be replaced instantlySlower recovery times as data needs to be reconstructed using recent copies
FeaturesNo built-in support for features such as compression or deduplicationBuilt-in support for compression and deduplication
Taken from “Architecture and Design of the Linux Storage Stack”

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Options for ANSYS Batch Mode

OptionsDescription
-aasstart Fluent in server mode
-actload ACT Start page
affinity=<x>set processor affinity; <x>={core | sock | off}
-applaunches the Remote Visualization Client
-appscript=<scriptfile>run the specified script in App
-case <file_path> [-data]reads the case file immediately after Fluent launches;
can include the data file if it shares the same name as the case file
-cflushflush the file cache buffer
-cnf=<x>specify the hosts file
-command=”<TUI command>”run TUI command on startup,
-driver <name>sets the graphics driver;
 <name>={opengl | opengl2 | x11 | null}
-envshow environment variables
-grun without GUI or graphics
-gpgpu=<n>    specify number of GPGPUs per machine
-gpu[=<n>]run with GPU Solver, and specify devices to
use as needed (where <n> is a comma-separated
list of devices)
-grrun without graphics
-gurun without GUI
-gui_machine=<hostname>specify the machine to be used for running
graphics-related process
-h<heap_size>  specify heap size for Cortex
-helpthis listing
-host_ip=<host:ip>specify the ip interface to be used by the host process
-i <journal>   read the specified journal file
-license=<x>specify the license capability;
<x>={enterprise | premium}
-meshingrun Fluent in meshing mode
-mpi=<mpi>specify MPI implementation;
 <mpi>={openmpi | intel | …},
-mpitest       run the mpitest program instead of Fluent
to test the network
-nmdon’t display mesh after reading
-pcheckcheck the network connections before spawning
compute node processes
-platform=inteluse AVX2 optimized binary;
This option is for processors that can
support AVX2 instruction set
-postrun a post-processing-only executable
-prepost       run a pre/post-processing-only executable
-p<ic>specify interconnect;
<ic>={default | eth | ib},
-rlist all releases
-r<x>specify release <x>

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Copy-on-write Filesystem in Linux in a Nutshell

The Working of a Copy-on-Write System In Brief

Copy-On-Write Filesystem does not overwrite the data in place, here is how it is done. Supposedly there is file that will be modified.

  1. Copy the old data to an allocated location on the disk
  2. New data is written to the allocated location on the disk.
  3. Hence the name Copy-and-Write
  4. The references for the new data are updated
  5. However, the old data and its snapshots are still there

As described in the Architecture and Design of Linux Storage Stack by Muhammad Umer Page 59

As the old data is preserved in the process, filesystem recovery is very simplified. Since the previous state of the data is saved on another allocated location on disk. If there is an outrage, the system system can easily revert to its former state. This make the maintenance of any Journal obsolete. This also allows snapshots to be implemented at the filesystem level.

As the old data is still there, space utilisation may be more than what the user expects……

Some of the filesystem the use the CoW based approach includes Zttabyte Filesystem (ZFS) and B-Tree Filesystem (Btrfs)

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Journaling File System: Advantages, Working, and Impact on Performance

Definition

According to a nice explanation by minitools.com “What Is Journaling File System and Its Advantages/Disadvantages

The journaling file system (JFS) is a kind of file system developed by IBM IN 1990. It keeps track of changes, which are not yet committed to the file system’s main part, by recording the goal of such changes in a data structure known as “journal”. Usually, the “journal” is a circular log.

In the event of a system crash or power failure, a journaling file system can be brought back online more quickly with a lower chance of being corrupted. Depending on the actual implementation, the JFS may only keep track of stored metadata, which results in improved performance at the expense of increased possibility for data corruption.

What Is Journaling File System and Its Advantages/Disadvantages

The Working of a Journal File System In Brief

Here is a diagram taken from Architecture and Design of Linux Storage Stack by Muhammad Umer Page 57

According to the Chapter 3 of the book,

From the diagram, any changes made to the filesystem are written sequentially to a journal, also called a transaction. Once a transaction is written to a journal, it is written to an appropriate location on a disk. In the case of a system crash, the filesystem replays the journal to see whether any transaction is incomplete. When the transaction has been written to its on-disk location, it is removed from the Journal.

It is interesting to note that either the metadata or actual data is first written to the data. Either way, once written to the filesystem, the transaction is removed from the journal. The size of the journal can be a few megabytes.

Benefits of Journal File System and Impact on Performance

Besides making the Filesystem more reliable and preserving its structure in system crashes and hardware failures, the burning question is whether it will impact performance?

Generally, journaling improves performance when it is enabled by having fewer seeks to the physical disks as data is only when a journal is committed or when the journal fills up. For example, in intense meta-data operations like recursive operations on the directory and its content, journaling improves performance by reducing frequent trips to disks and performing multiple updates as a single unit of work.

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What is FileSystem in USErspace (FUSE)?

The Linux kernel supports many filesystems that are native to Linux, but there are other filesystem that Linux support via FileSystem in USErspace (FUSE). Probably you would guess one prominent example of a Filesystem outside Linux that Linux user face often – Windows NTFS

I have written an entire blog on how to get your portable drive on NTFS working. For more information, do take a look at Mounting NTFS on Rocky Linux 8

Another popular usage of FUSE driver is sshfs. It is using SSH to mount the remote file system and avoid the need to setup up NFS or SAMBA while enjoying the benefits of SSH encryption.

There is a good article found at RedHat.com on how to mount a remote file system over SSH

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SSH Error – Receive Packet Type 51 on Rocky Linux 8

If you are having SSH issues and if you turned on high verbosity and the following output is generated

# ssh -vvv XXX.XXX.XXX.XXX
.....
.....
debug1: Offering public key: debug3: send packet: type 50
debug2: we sent a publickey packet, wait for reply
debug3: receive packet: type 51
.....
.....
debug2: we did not send a packet, disable method
debug1: No more authentication methods to try.
user1@192.168.0.1: Permission denied (publickey,gssapi-with-mic,password)

According to SSH protocol (RFC 4252), these are the general authentication message codes

SSH_MSG_USERAUTH_REQUEST            50
SSH_MSG_USERAUTH_FAILURE            51
SSH_MSG_USERAUTH_SUCCESS            52
SSH_MSG_USERAUTH_BANNER             53

It means that the authentiation methods mentioned in the “Permission Denied” was not accepted. What are some of the common issues.

Type 1 (Most Common Mistake): Permission Errors on the .ssh Folder and files inside .ssh

Type 2: Incorrect Configuration Settings on the /etc/ssh/sshd_config
(Assuming you are using Password Authentication) Inside /etc/ssh/sshd_config, you should have something like

PermitRootLogin no
.....
PasswordAuthentication yes
.....
ChallengeResponseAuthentication no
.....
GSSAPIAuthentication yes
GSSAPICleanupCredentials no
.....
UsePAM yes

Type 2: Incorrect Configuration Settings on the /etc/ssh/ssh_config
In Rocky Linux 8, everything should be commented except the last line “Include /etc/ssh/ssh_config.d/*.conf”

References:

  1. How to Fix SSH Failed Permission Denied (publickey,gssapi-keyex,gssapi-with-mic)
  2. ssh receive packet: type 51