13%
02.06.2020
), (2) dissolved oxygen (ppm), (3) electrical conductivity (µS/cm), (4) oxidation-reduction (redox) potential (mV), (5) photosynthetic photon flux density (PPFD, µmol/sq m/sec), (6) water pH, (7) humidity
13%
05.12.2016
script. This can be very useful if you are deploying an interactive Bash script for production (i.e., users).
To begin, install libnotify
or libnotify-bin
(for my CentOS 6 and 7 systems I installed
13%
06.10.2019
> 0 ) && (argv != NULL) )
13 {
14 strncpy(buffer, argv[1], (size_t) (BUFSIZE-1));
15 printf("%s\n",buffer);
16 }
17 return 0;
18 } // end main()
The clues
13%
25.03.2020
ZJOUoUsZGlkk
client2:q0eL78zFrbnESW6c/F0qit5MNCpS8IBgyh1BdXiyyuI
client3:zkq8eT31Nib3IHWfp0yyu15BCW52VMbY8+LhVUt3ylA
The client uses the appropriate password in the /etc/stunnel/psk-client1.txt file:
client1:Wf
13%
28.11.2022
sensors available on an older MacBook Pro. Not all values discovered are temperatures.
On Linux, my default choice for in-terminal monitoring TUI is glances [6], which I have examined previously
13%
25.03.2020
_DATA=$1
06
07 # This is the Event Data
08 echo $EVENT_DATA
09
10 # Example of command usage
11 EVENT_JSON=$(echo $EVENT_DATA | jq .)
12
13 # Example of AWS command that's output will show up
13%
31.10.2025
to be US$ 6,098.00/month or US$ .101/core per hour. A large example of 256 cores with 4GB of RAM per core and 1TB of parallel storage would cost US$ 18,245.00/month with the same US$ .101/core per hour
13%
22.12.2017
$keyfile /etc/ssh
08 chmod 644 /etc/ssh/$filename
09 done
10 if [ -f .ssh/config ]; then
11 cat .ssh/config >> /etc/ssh/ssh_config
12 sed -i 's|~/.ssh|/etc/ssh|g' /etc/ssh/ssh_config
13
13%
30.11.2025
.33
164.69
0.75
rand_mat_stat
3.37
39.34
11.64
54.54
22.07
8.12
rand_mat_mul
1.00
1.18
0.70
1.65
8
13%
13.02.2017
= response.headers().map();
10 for (String key : headers.keySet()) {
11 LOG.info(key + " : " + headers.get(key));
12 }
13
14 String body = response.body(asString());
15 LOG.info("body : " + body
