docs/master
diff ch03.roff @ 21:bb8a8be49024
Wrote about Face support and vfork().
author | markus schnalke <meillo@marmaro.de> |
---|---|
date | Mon, 07 May 2012 15:50:09 +0200 |
parents | 7a100c80fa91 |
children | 99409e4546d2 |
line diff
1.1 --- a/ch03.roff Sun May 06 17:33:45 2012 +0200 1.2 +++ b/ch03.roff Mon May 07 15:50:09 2012 +0200 1.3 @@ -109,6 +109,27 @@ 1.4 marked legacy in RFC 2822. It was superseded by FIXME. 1.5 Mmh does no more support this header. 1.6 .P 1.7 +Native support for `Face' headers 1.8 +had been removed, as well. 1.9 +The feature is similar to the `X-Face' header in its intent, 1.10 +but takes a different approach to store the image. 1.11 +Instead of encoding the image data directly into the header, 1.12 +the the header contains the hostname and UDP port where the image 1.13 +date could be retrieved. 1.14 +Neither `X-Face' nor the here described `Face' system 1.15 +\** 1.16 +.FS 1.17 +There is also a newer but different system, invented 2005, 1.18 +using `Face' headers. 1.19 +It is the successor of `X-Face' providing colored PNG images. 1.20 +.FE 1.21 +became well used in the large scale. 1.22 +It's still possible to use a Face systems, 1.23 +although mmh does not provide support for any of the different systems 1.24 +anymore. It's fairly easy to write a small shell script to 1.25 +extract the embedded or fetch the external Face data and display the image. 1.26 +Own Face headers can be added into the draft template files. 1.27 +.P 1.28 `Content-MD5' headers were introduced by RFC\^1864. They provide only 1.29 a verification of data corruption during the transfer. By no means can 1.30 they ensure verbatim end-to-end delivery of the contents. This is clearly 1.31 @@ -143,11 +164,55 @@ 1.32 and 1.33 .Sn \-kill \fUchr\fP 1.34 to name the characters for command line editing. 1.35 -The times when this had been neccessary are long time gone. 1.36 +The times when this had been necessary are long time gone. 1.37 Today these things work out-of-the-box, and if not, are configured 1.38 with the standard tool 1.39 .Pn stty . 1.40 1.41 +.U2 "Vfork and Retry Loops 1.42 +.P 1.43 +MH creates many processes, which is a concequence of the toolchest approach. 1.44 +In earlier times 1.45 +.Fu fork() 1.46 +had been an expensive system call, as the process's whole image needed 1.47 +to be duplicated. One common case is replacing the image with 1.48 +.Fu exec() 1.49 +right after having forked the child process. 1.50 +To speed up this case, the 1.51 +.Fu vfork() 1.52 +system call was invented at Berkeley. It completely omits copying the 1.53 +image. If the image gets replaced right afterwards then unnecessary 1.54 +work is omited. On old systems this results in large speed ups. 1.55 +MH uses 1.56 +.Fu vfork() 1.57 +whenever possible. 1.58 +.P 1.59 +Memory management units that support copy-on-write semantics make 1.60 +.Fu fork() 1.61 +almost as fast as 1.62 +.Fu vfork() 1.63 +in the cases when they can be exchanged. 1.64 +With 1.65 +.Fu vfork() 1.66 +being more errorprone and hardly faster, it's preferable to simply 1.67 +use 1.68 +.Fu fork() 1.69 +instead. 1.70 +.P 1.71 +Related to the costs of 1.72 +.Fu fork() 1.73 +is the probability of its success. 1.74 +Today on modern systems, the system call will succeed almost always. 1.75 +In the 80s on heavy loaded systems, as they were common at 1.76 +universities, this had been different. Thus, many of the 1.77 +.Fu fork() 1.78 +calls were wrapped into loops to retry to fork several times in 1.79 +short intervals, in case of previous failure. 1.80 +In mmh, the program aborts at once if the fork failed. 1.81 +The user can reexecute the command then. This is expected to be a 1.82 +very rare case on modern systems, especially personal ones, which are 1.83 +common today. 1.84 + 1.85 1.86 .H1 "Draft and Trash Folders 1.87 .U2 "Draft Folder