Chapter 10. Data management

Table of Contents

10.1. Sharing, copying, and archiving
10.1.1. Archive and compression tools
10.1.2. Copy and synchronization tools
10.1.3. Idioms for the archive
10.1.4. Idioms for the copy
10.1.5. Idioms for the selection of files
10.1.6. Backup and recovery
10.1.7. Backup utility suites
10.1.8. An example script for the system backup
10.1.9. A copy script for the data backup
10.1.10. Removable storage device
10.1.11. Filesystem choice for sharing data
10.1.12. Sharing data via network
10.1.13. Archive media
10.2. The disk image
10.2.1. Making the disk image file
10.2.2. Writing directly to the disk
10.2.3. Mounting the disk image file
10.2.4. Cleaning a disk image file
10.2.5. Making the empty disk image file
10.2.6. Making the ISO9660 image file
10.2.7. Writing directly to the CD/DVD-R/RW
10.2.8. Mounting the ISO9660 image file
10.3. The binary data
10.3.1. Viewing and editing binary data
10.3.2. Manipulating files without mounting disk
10.3.3. Data redundancy
10.3.4. Data file recovery and forensic analysis
10.3.5. Splitting a large file into small files
10.3.6. Clearing file contents
10.3.7. Dummy files
10.3.8. Erasing an entire hard disk
10.3.9. Erasing unused area of an hard disk
10.3.10. Undeleting deleted but still open files
10.3.11. Searching all hardlinks
10.3.12. Invisible disk space consumption
10.4. Data security infrastructure
10.4.1. Key management for GnuPG
10.4.2. Using GnuPG on files
10.4.3. Using GnuPG with Mutt
10.4.4. Using GnuPG with Vim
10.4.5. The MD5 sum
10.5. Source code merge tools
10.5.1. Extracting differences for source files
10.5.2. Merging updates for source files
10.5.3. Updating via 3-way-merge
10.6. Version control systems
10.6.1. Comparison of VCS commands
10.7. CVS
10.7.1. Configuration of CVS repository
10.7.2. Local access to CVS
10.7.3. Remote access to CVS with pserver
10.7.4. Remote access to CVS with ssh
10.7.5. Importing a new source to CVS
10.7.6. File permissions in CVS repository
10.7.7. Work flow of CVS
10.7.8. Latest files from CVS
10.7.9. Administration of CVS
10.7.10. Execution bit for CVS checkout
10.8. Subversion
10.8.1. Configuration of Subversion repository
10.8.2. Access to Subversion via Apache2 server
10.8.3. Local access to Subversion by group
10.8.4. Remote access to Subversion via SSH
10.8.5. Subversion directory structure
10.8.6. Importing a new source to Subversion
10.8.7. Work flow of Subversion
10.9. Git
10.9.1. Configuration of Git client
10.9.2. Git references
10.9.3. Git commands
10.9.4. Git for the Subversion repository
10.9.5. Git for recording configuration history

Tools and tips for managing binary and text data on the Debian system are described.

[Warning] Warning

The uncoordinated write access to actively accessed devices and files from multiple processes must not be done to avoid the race condition. File locking mechanisms using flock(1) may be used to avoid it.

10.1. Sharing, copying, and archiving

The security of the data and its controlled sharing have several aspects.

  • The creation of data archive

  • The remote storage access

  • The duplication

  • The tracking of the modification history

  • The facilitation of data sharing

  • The prevention of unauthorized file access

  • The detection of unauthorized file modification

These can be realized by using some combination of tools.

  • Archive and compression tools

  • Copy and synchronization tools

  • Network filesystems

  • Removable storage media

  • The secure shell

  • The authentication system

  • Version control system tools

  • Hash and cryptographic encryption tools

10.1.1. Archive and compression tools

Here is a summary of archive and compression tools available on the Debian system.

Table 10.1. List of archive and compression tools

package popcon size command extension comment
tar http://qa.debian.org/popcon.php?package=tar 2464 tar(1) .tar the standard archiver (de facto standard)
cpio http://qa.debian.org/popcon.php?package=cpio 920 cpio(1) .cpio Unix System V style archiver, use with find(1)
binutils http://qa.debian.org/popcon.php?package=binutils 14823 ar(1) .ar archiver for the creation of static libraries
fastjar http://qa.debian.org/popcon.php?package=fastjar 216 fastjar(1) .jar archiver for Java (zip like)
pax http://qa.debian.org/popcon.php?package=pax 178 pax(1) .pax new POSIX standard archiver, compromise between tar and cpio
gzip http://qa.debian.org/popcon.php?package=gzip 179 gzip(1), zcat(1), … .gz GNU LZ77 compression utility (de facto standard)
bzip2 http://qa.debian.org/popcon.php?package=bzip2 86 bzip2(1), bzcat(1), … .bz2 Burrows-Wheeler block-sorting compression utility with higher compression ratio than gzip(1) (slower than gzip with similar syntax)
lzma http://qa.debian.org/popcon.php?package=lzma 144 lzma(1) .lzma LZMA compression utility with higher compression ratio than gzip(1) (deprecated)
xz-utils http://qa.debian.org/popcon.php?package=xz-utils 383 xz(1), xzdec(1), … .xz XZ compression utility with higher compression ratio than bzip2(1) (slower than gzip but faster than bzip2; replacement for LZMA compression utility)
p7zip http://qa.debian.org/popcon.php?package=p7zip 986 7zr(1), p7zip(1) .7z 7-Zip file archiver with high compression ratio (LZMA compression)
p7zip-full http://qa.debian.org/popcon.php?package=p7zip-full 3895 7z(1), 7za(1) .7z 7-Zip file archiver with high compression ratio (LZMA compression and others)
lzop http://qa.debian.org/popcon.php?package=lzop 112 lzop(1) .lzo LZO compression utility with higher compression and decompression speed than gzip(1) (lower compression ratio than gzip with similar syntax)
zip http://qa.debian.org/popcon.php?package=zip 636 zip(1) .zip InfoZIP: DOS archive and compression tool
unzip http://qa.debian.org/popcon.php?package=unzip 377 unzip(1) .zip InfoZIP: DOS unarchive and decompression tool

[Warning] Warning

Do not set the "$TAPE" variable unless you know what to expect. It changes tar(1) behavior.

[Note] Note

The gzipped tar(1) archive uses the file extension ".tgz" or ".tar.gz".

[Note] Note

The xz-compressed tar(1) archive uses the file extension ".txz" or ".tar.xz".

[Note] Note

Popular compression method in FOSS tools such as tar(1) has been moving as follows: gzipbzip2xz

[Note] Note

cp(1), scp(1) and tar(1) may have some limitation for special files. cpio(1) is most versatile.

[Note] Note

cpio(1) is designed to be used with find(1) and other commands and suitable for creating backup scripts since the file selection part of the script can be tested independently.

[Note] Note

Internal structure of OpenOffice data files are ".jar" file.

10.1.2. Copy and synchronization tools

Here is a summary of simple copy and backup tools available on the Debian system.

Table 10.2. List of copy and synchronization tools

package popcon size tool function
coreutils http://qa.debian.org/popcon.php?package=coreutils 14088 GNU cp locally copy files and directories ("-a" for recursive)
openssh-client http://qa.debian.org/popcon.php?package=openssh-client 2246 scp remotely copy files and directories (client, "-r" for recursive)
openssh-server http://qa.debian.org/popcon.php?package=openssh-server 701 sshd remotely copy files and directories (remote server)
rsync http://qa.debian.org/popcon.php?package=rsync 724 - 1-way remote synchronization and backup
unison http://qa.debian.org/popcon.php?package=unison 1987 - 2-way remote synchronization and backup

Copying files with rsync(8) offers richer features than others.

  • delta-transfer algorithm that sends only the differences between the source files and the existing files in the destination

  • quick check algorithm (by default) that looks for files that have changed in size or in last-modified time

  • "--exclude" and "--exclude-from" options similar to tar(1)

  • "a trailing slash on the source directory" syntax that avoids creating an additional directory level at the destination.

[Tip] Tip

Execution of the bkup script mentioned in Section 10.1.9, “A copy script for the data backup” with the "-gl" option under cron(8) should provide very similar functionality as Plan9's dumpfs for the static data archive.

[Tip] Tip

Version control system (VCS) tools in Table 10.15, “List of version control system tools” can function as the multi-way copy and synchronization tools.

10.1.3. Idioms for the archive

Here are several ways to archive and unarchive the entire content of the directory "./source" using different tools.

GNU tar(1):

$ tar cvzf archive.tar.gz ./source
$ tar xvzf archive.tar.gz

cpio(1):

$ find ./source -xdev -print0 | cpio -ov --null > archive.cpio; gzip archive.cpio
$ zcat archive.cpio.gz | cpio -i

10.1.4. Idioms for the copy

Here are several ways to copy the entire content of the directory "./source" using different tools.

  • Local copy: "./source" directory → "/dest" directory

  • Remote copy: "./source" directory at local host → "/dest" directory at "user@host.dom" host

rsync(8):

# cd ./source; rsync -av . /dest
# cd ./source; rsync -av . user@host.dom:/dest

You can alternatively use "a trailing slash on the source directory" syntax.

# rsync -av ./source/ /dest
# rsync -av ./source/ user@host.dom:/dest

GNU cp(1) and openSSH scp(1):

# cd ./source; cp -a . /dest
# cd ./source; scp -pr . user@host.dom:/dest

GNU tar(1):

# (cd ./source && tar cf - . ) | (cd /dest && tar xvfp - )
# (cd ./source && tar cf - . ) | ssh user@host.dom '(cd /dest && tar xvfp - )'

cpio(1):

# cd ./source; find . -print0 | cpio -pvdm --null --sparse /dest

You can substitute "." with "foo" for all examples containing "." to copy files from "./source/foo" directory to "/dest/foo" directory.

You can substitute "." with the absolute path "/path/to/source/foo" for all examples containing "." to drop "cd ./source;". These copy files to different locations depending on tools used as follows.

  • "/dest/foo": rsync(8), GNU cp(1), and scp(1)

  • "/path/to/source/foo": GNU tar(1), and cpio(1)

[Tip] Tip

rsync(8) and GNU cp(1) have option "-u" to skip files that are newer on the receiver.

10.1.5. Idioms for the selection of files

find(1) is used to select files for archive and copy commands (see Section 10.1.3, “Idioms for the archive” and Section 10.1.4, “Idioms for the copy”) or for xargs(1) (see Section 9.5.9, “Repeating a command looping over files”). This can be enhanced by using its command arguments.

Basic syntax of find(1) can be summarized as the following.

  • Its conditional arguments are evaluated from left to right.

  • This evaluation stops once its outcome is determined.

  • "Logical OR" (specified by "-o" between conditionals) has lower precedence than "logical AND" (specified by "-a" or nothing between conditionals).

  • "Logical NOT" (specified by "!" before a conditional) has higher precedence than "logical AND".

  • "-prune" always returns logical TRUE and, if it is a directory, searching of file is stopped beyond this point.

  • "-name" matches the base of the filename with shell glob (see Section 1.5.6, “Shell glob”) but it also matches its initial "." with metacharacters such as "*" and "?". (New POSIX feature)

  • "-regex" matches the full path with emacs style BRE (see Section 1.6.2, “Regular expressions”) as default.

  • "-size" matches the file based on the file size (value precedented with "+" for larger, precedented with "-" for smaller)

  • "-newer" matches the file newer than the one specified in its argument.

  • "-print0" always returns logical TRUE and print the full filename (null terminated) on the standard output.

find(1) is often used with an idiomatic style as the following.

# find /path/to \
    -xdev -regextype posix-extended \
    -type f -regex ".*\.cpio|.*~" -prune -o \
    -type d -regex ".*/\.git" -prune -o \
    -type f -size +99M -prune -o \
    -type f -newer /path/to/timestamp -print0

This means to do following actions.

  1. Search all files starting from "/path/to"

  2. Globally limit its search within its starting filesystem and uses ERE (see Section 1.6.2, “Regular expressions”) instead

  3. Exclude files matching regex of ".*\.cpio" or ".*~" from search by stop processing

  4. Exclude directories matching regex of ".*/\.git" from search by stop processing

  5. Exclude files larger than 99 Megabytes (units of 1048576 bytes) from search by stop processing

  6. Print filenames which satisfy above search conditions and newer than "/path/to/timestamp"

Please note the idiomatic use of "-prune -o" to exclude files in the above example.

[Note] Note

For non-Debian Unix-like system, some options may not be supported by find(1). In such a case, please consider to adjust matching methods and replace "-print0" with "-print". You may need to adjust related commands too.

10.1.6. Backup and recovery

We all know that computers fail sometime or human errors cause system and data damages. Backup and recovery operations are the essential part of successful system administration. All possible failure modes hit you some day.

[Tip] Tip

Keep your backup system simple and backup your system often. Having backup data is more important than how technically good your backup method is.

There are 3 key factors which determine actual backup and recovery policy.

  1. Knowing what to backup and recover.

    • Data files directly created by you: data in "~/"

    • Data files created by applications used by you: data in "/var/" (except "/var/cache/", "/var/run/", and "/var/tmp/")

    • System configuration files: data in "/etc/"

    • Local softwares: data in "/usr/local/" or "/opt/"

    • System installation information: a memo in plain text on key steps (partition, …)

    • Proven set of data: confirmed by experimental recovery operations in advance

  2. Knowing how to backup and recover.

    • Secure storage of data: protection from overwrite and system failure

    • Frequent backup: scheduled backup

    • Redundant backup: data mirroring

    • Fool proof process: easy single command backup

  3. Assessing risks and costs involved.

    • Value of data when lost

    • Required resources for backup: human, hardware, software, …

    • Failure mode and their possibility

As for secure storage of data, data should be at least on different disk partitions preferably on different disks and machines to withstand the filesystem corruption. Important data are best stored on a write-once media such as CD/DVD-R to prevent overwrite accidents. (See Section 10.3, “The binary data” for how to write to the storage media from the shell commandline. GNOME desktop GUI environment gives you easy access via menu: "Places→CD/DVD Creator".)

[Note] Note

You may wish to stop some application daemons such as MTA (see Section 6.3, “Mail transport agent (MTA)”) while backing up data.

[Note] Note

You should pay extra care to the backup and restoration of identity related data files such as "/etc/ssh/ssh_host_dsa_key", "/etc/ssh/ssh_host_rsa_key", "~/.gnupg/*", "~/.ssh/*", "/etc/passwd", "/etc/shadow", "/etc/fetchmailrc", "popularity-contest.conf", "/etc/ppp/pap-secrets", and "/etc/exim4/passwd.client". Some of these data can not be regenerated by entering the same input string to the system.

[Note] Note

If you run a cron job as a user process, you must restore files in "/var/spool/cron/crontabs" directory and restart cron(8). See Section 9.5.14, “Scheduling tasks regularly” for cron(8) and crontab(1).

10.1.7. Backup utility suites

Here is a select list of notable backup utility suites available on the Debian system.

Table 10.3. List of backup suite utilities

package popcon size description
rdiff-backup http://qa.debian.org/popcon.php?package=rdiff-backup 704 (remote) incremental backup
dump http://qa.debian.org/popcon.php?package=dump 716 4.4 BSD dump(8) and restore(8) for ext2/ext3 filesystems
xfsdump http://qa.debian.org/popcon.php?package=xfsdump 595 dump and restore with xfsdump(8) and xfsrestore(8) for XFS filesystem on GNU/Linux and IRIX
backupninja http://qa.debian.org/popcon.php?package=backupninja 276 lightweight, extensible meta-backup system
sbackup http://qa.debian.org/popcon.php?package=sbackup 488 simple backup suite for GNOME desktop
bacula-common http://qa.debian.org/popcon.php?package=bacula-common 1083 Bacula: network backup, recovery and verification - common support files
bacula-client http://qa.debian.org/popcon.php?package=bacula-client 53 Bacula: network backup, recovery and verification - client meta-package
bacula-console http://qa.debian.org/popcon.php?package=bacula-console 154 Bacula: network backup, recovery and verification - text console
bacula-server http://qa.debian.org/popcon.php?package=bacula-server 53 Bacula: network backup, recovery and verification - server meta-package
amanda-common http://qa.debian.org/popcon.php?package=amanda-common 7013 Amanda: Advanced Maryland Automatic Network Disk Archiver (Libs)
amanda-client http://qa.debian.org/popcon.php?package=amanda-client 789 Amanda: Advanced Maryland Automatic Network Disk Archiver (Client)
amanda-server http://qa.debian.org/popcon.php?package=amanda-server 920 Amanda: Advanced Maryland Automatic Network Disk Archiver (Server)
backuppc http://qa.debian.org/popcon.php?package=backuppc 1955 BackupPC is a high-performance, enterprise-grade system for backing up PCs (disk based)
backup-manager http://qa.debian.org/popcon.php?package=backup-manager 615 command-line backup tool
backup2l http://qa.debian.org/popcon.php?package=backup2l 86 low-maintenance backup/restore tool for mountable media (disk based)

Backup tools have their specialized focuses.

  • Mondo Rescue is a backup system to facilitate restoration of complete system quickly from backup CD/DVD etc. without going through normal system installation processes.

  • sbackup and keep packages provide easy GUI frontend for desktop users to make regular backups of user data. An equivalent function can be realized by a simple script (Section 10.1.8, “An example script for the system backup”) and cron(8).

  • Bacula, Amanda, and BackupPC are full featured backup suite utilities which are focused on regular backups over network.

Basic tools described in Section 10.1.1, “Archive and compression tools” and Section 10.1.2, “Copy and synchronization tools” can be used to facilitate system backup via custom scripts. Such script can be enhanced by the following.

  • The rdiff-backup package enables incremental (remote) backups.

  • The dump package helps to archive and restore the whole filesystem incrementally and efficiently.

[Tip] Tip

See files in "/usr/share/doc/dump/" and "Is dump really deprecated?" to lean about the dump package.

10.1.8. An example script for the system backup

For a personal Debian desktop system running unstable suite, I only need to protect personal and critical data. I reinstall system once a year anyway. Thus I see no reason to backup the whole system or to install a full featured backup utility.

I use a simple script to make a backup archive and burn it into CD/DVD using GUI. Here is an example script for this.

#!/bin/sh -e
# Copyright (C) 2007-2008 Osamu Aoki <osamu@debian.org>, Public Domain
BUUID=1000; USER=osamu # UID and name of a user who accesses backup files
BUDIR="/var/backups"
XDIR0=".+/Mail|.+/Desktop"
XDIR1=".+/\.thumbnails|.+/\.?Trash|.+/\.?[cC]ache|.+/\.gvfs|.+/sessions"
XDIR2=".+/CVS|.+/\.git|.+/\.svn|.+/Downloads|.+/Archive|.+/Checkout|.+/tmp"
XSFX=".+\.iso|.+\.tgz|.+\.tar\.gz|.+\.tar\.bz2|.+\.cpio|.+\.tmp|.+\.swp|.+~"
SIZE="+99M"
DATE=$(date --utc +"%Y%m%d-%H%M")
[ -d "$BUDIR" ] || mkdir -p "BUDIR"
umask 077
dpkg --get-selections \* > /var/lib/dpkg/dpkg-selections.list
debconf-get-selections > /var/cache/debconf/debconf-selections

{
find /etc /usr/local /opt /var/lib/dpkg/dpkg-selections.list \
     /var/cache/debconf/debconf-selections -xdev -print0
find /home/$USER /root -xdev -regextype posix-extended \
  -type d -regex "$XDIR0|$XDIR1" -prune -o -type f -regex "$XSFX" -prune -o \
  -type f -size  "$SIZE" -prune -o -print0
find /home/$USER/Mail/Inbox /home/$USER/Mail/Outbox -print0
find /home/$USER/Desktop  -xdev -regextype posix-extended \
  -type d -regex "$XDIR2" -prune -o -type f -regex "$XSFX" -prune -o \
  -type f -size  "$SIZE" -prune -o -print0
} | cpio -ov --null -O $BUDIR/BU$DATE.cpio
chown $BUUID $BUDIR/BU$DATE.cpio
touch $BUDIR/backup.stamp

This is meant to be a script example executed from root.

I expect you to change and execute this as follows.

Keep it simple!

[Tip] Tip

You can recover debconf configuration data with "debconf-set-selections debconf-selections" and dpkg selection data with "dpkg --set-selection <dpkg-selections.list".

10.1.9. A copy script for the data backup

For the set of data under a directory tree, the copy with "cp -a" provides the normal backup.

For the set of large non-overwritten static data under a directory tree such as the one under the "/var/cache/apt/packages/" directory, hardlinks with "cp -al" provide an alternative to the normal backup with efficient use of the disk space.

Here is a copy script, which I named as bkup, for the data backup. This script copies all (non-VCS) files under the current directory to the dated directory on the parent directory or on a remote host.

#!/bin/sh -e
# Copyright (C) 2007-2008 Osamu Aoki <osamu@debian.org>, Public Domain
fdot(){ find . -type d \( -iname ".?*" -o -iname "CVS" \) -prune -o -print0;}
fall(){ find . -print0;}
mkdircd(){ mkdir -p "$1";chmod 700 "$1";cd "$1">/dev/null;}
FIND="fdot";OPT="-a";MODE="CPIOP";HOST="localhost";EXTP="$(hostname -f)"
BKUP="$(basename $(pwd)).bkup";TIME="$(date  +%Y%m%d-%H%M%S)";BU="$BKUP/$TIME"
while getopts gcCsStrlLaAxe:h:T f; do case $f in
g)  MODE="GNUCP";; # cp (GNU)
c)  MODE="CPIOP";; # cpio -p
C)  MODE="CPIOI";; # cpio -i
s)  MODE="CPIOSSH";; # cpio/ssh
t)  MODE="TARSSH";; # tar/ssh
r)  MODE="RSYNCSSH";; # rsync/ssh
l)  OPT="-alv";; # hardlink (GNU cp)
L)  OPT="-av";;  # copy (GNU cp)
a)  FIND="fall";; # find all
A)  FIND="fdot";; # find non CVS/ .???/
x)  set -x;; # trace
e)  EXTP="${OPTARG}";; # hostname -f
h)  HOST="${OPTARG}";; # user@remotehost.example.com
T)  MODE="TEST";; # test find mode
\?) echo "use -x for trace."
esac; done
shift $(expr $OPTIND - 1)
if [ $# -gt 0 ]; then
  for x in $@; do cp $OPT $x $x.$TIME; done
elif [ $MODE = GNUCP ]; then
  mkdir -p "../$BU";chmod 700 "../$BU";cp $OPT . "../$BU/"
elif [ $MODE = CPIOP ]; then
  mkdir -p "../$BU";chmod 700 "../$BU"
  $FIND|cpio --null --sparse -pvd ../$BU
elif [ $MODE = CPIOI ]; then
  $FIND|cpio -ov --null | ( mkdircd "../$BU"&&cpio -i )
elif [ $MODE = CPIOSSH ]; then
  $FIND|cpio -ov --null|ssh -C $HOST "( mkdircd \"$EXTP/$BU\"&&cpio -i )"
elif [ $MODE = TARSSH ]; then
  (tar cvf - . )|ssh -C $HOST "( mkdircd \"$EXTP/$BU\"&& tar xvfp - )"
elif [ $MODE = RSYNCSSH ]; then
  rsync -rlpt ./ "${HOST}:${EXTP}-${BKUP}-${TIME}"
else
  echo "Any other idea to backup?"
  $FIND |xargs -0 -n 1 echo
fi

This is meant to be command examples. Please read script and edit it by yourself before using it.

[Tip] Tip

I keep this bkup in my "/usr/local/bin/" directory. I issue this bkup command without any option in the working directory whenever I need a temporary snapshot backup.

[Tip] Tip

For making snapshot history of a source file tree or a configuration file tree, it is easier and space efficient to use git(7) (see Section 10.9.5, “Git for recording configuration history”).

10.1.10. Removable storage device

Removable storage devices may be any one of the following.

They may be connected via any one of the following.

Modern desktop environments such as GNOME and KDE can mount these removable devices automatically without a matching "/etc/fstab" entry.

  • udisks package provides a daemon and associated utilities to mount and unmount these devices.

  • D-bus creates events to initiate automatic processes.

  • PolicyKit provides required privileges.

[Tip] Tip

Automounted devices may have the "uhelper=" mount option which is used by umount(8).

[Tip] Tip

Automounting under modern desktop environment happens only when those removable media devices are not listed in "/etc/fstab".

Mount point under modern desktop environment is chosen as "/media/<disk_label>" which can be customized by the following.

  • mlabel(1) for FAT filesystem

  • genisoimage(1) with "-V" option for ISO9660 filesystem

  • tune2fs(1) with "-L" option for ext2/ext3/ext4 filesystem

[Tip] Tip

The choice of encoding may need to be provided as mount option (see Section 8.3.6, “Filename encoding”).

10.1.11. Filesystem choice for sharing data

When sharing data with other system via removable storage device, you should format it with common filesystem supported by both systems. Here is a list of filesystem choices.

Table 10.4. List of filesystem choices for removable storage devices with typical usage scenarios

filesystem description of typical usage scenario
FAT12 cross platform sharing of data on the floppy disk (<32MiB)
FAT16 cross platform sharing of data on the small hard disk like device (<2GiB)
FAT32 cross platform sharing of data on the large hard disk like device (<8TiB, supported by newer than MS Windows95 OSR2)
NTFS cross platform sharing of data on the large hard disk like device (supported natively on MS Windows NT and later version, and supported by NTFS-3G via FUSE on Linux)
ISO9660 cross platform sharing of static data on CD-R and DVD+/-R
UDF incremental data writing on CD-R and DVD+/-R (new)
MINIX filesystem space efficient unix file data storage on the floppy disk
ext2 filesystem sharing of data on the hard disk like device with older Linux systems
ext3 filesystem sharing of data on the hard disk like device with older Linux systems
ext4 filesystem sharing of data on the hard disk like device with current Linux systems

[Tip] Tip

See Section 9.4.1, “Removable disk encryption with dm-crypt/LUKS” for cross platform sharing of data using device level encryption.

The FAT filesystem is supported by almost all modern operating systems and is quite useful for the data exchange purpose via removable hard disk like media.

When formatting removable hard disk like devices for cross platform sharing of data with the FAT filesystem, the following should be safe choices.

  • Partitioning them with fdisk(8), cfdisk(8) or parted(8) (see Section 9.3.2, “Disk partition configuration”) into a single primary partition and to mark it as the following.

    • Type "6" for FAT16 for media smaller than 2GB.

    • Type "c" for FAT32 (LBA) for larger media.

  • Formatting the primary partition with mkfs.vfat(8) with the following.

    • Just its device name, e.g. "/dev/sda1" for FAT16

    • The explicit option and its device name, e.g. "-F 32 /dev/sda1" for FAT32

When using the FAT or ISO9660 filesystems for sharing data, the following should be the safe considerations.

  • Archiving files into an archive file first using tar(1), or cpio(1) to retain the long filename, the symbolic link, the original Unix file permission and the owner information.

  • Splitting the archive file into less than 2 GiB chunks with the split(1) command to protect it from the file size limitation.

  • Encrypting the archive file to secure its contents from the unauthorized access.

[Note] Note

For FAT filesystems by its design, the maximum file size is (2^32 - 1) bytes = (4GiB - 1 byte). For some applications on the older 32 bit OS, the maximum file size was even smaller (2^31 - 1) bytes = (2GiB - 1 byte). Debian does not suffer the latter problem.

[Note] Note

Microsoft itself does not recommend to use FAT for drives or partitions of over 200 MB. Microsoft highlights its short comings such as inefficient disk space usage in their "Overview of FAT, HPFS, and NTFS File Systems". Of course, we should normally use the ext4 filesystem for Linux.

[Tip] Tip

For more on filesystems and accessing filesystems, please read "Filesystems HOWTO".

10.1.12. Sharing data via network

When sharing data with other system via network, you should use common service. Here are some hints.

Table 10.5. List of the network service to chose with the typical usage scenario

network service description of typical usage scenario
SMB/CIFS network mounted filesystem with Samba sharing files via "Microsoft Windows Network", see smb.conf(5) and The Official Samba 3.2.x HOWTO and Reference Guide or the samba-doc package
NFS network mounted filesystem with the Linux kernel sharing files via "Unix/Linux Network", see exports(5) and Linux NFS-HOWTO
HTTP service sharing file between the web server/client
HTTPS service sharing file between the web server/client with encrypted Secure Sockets Layer (SSL) or Transport Layer Security (TLS)
FTP service sharing file between the FTP server/client

Although these filesystems mounted over network and file transfer methods over network are quite convenient for sharing data, these may be insecure. Their network connection must be secured by the following.

  • Encrypt it with SSL/TLS

  • Tunnel it via SSH

  • Tunnel it via VPN

  • Limit it behind the secure firewall

See also Section 6.10, “Other network application servers” and Section 6.11, “Other network application clients”.

10.1.13. Archive media

When choosing computer data storage media for important data archive, you should be careful about their limitations. For small personal data backup, I use CD-R and DVD-R by the brand name company and store in a cool, shaded, dry, clean environment. (Tape archive media seem to be popular for professional use.)

[Note] Note

A fire-resistant safe are meant for paper documents. Most of the computer data storage media have less temperature tolerance than paper. I usually rely on multiple secure encrypted copies stored in multiple secure locations.

Optimistic storage life of archive media seen on the net (mostly from vendor info).

  • 100+ years : Acid free paper with ink

  • 100 years : Optical storage (CD/DVD, CD/DVD-R)

  • 30 years : Magnetic storage (tape, floppy)

  • 20 years : Phase change optical storage (CD-RW)

These do not count on the mechanical failures due to handling etc.

Optimistic write cycle of archive media seen on the net (mostly from vendor info).

  • 250,000+ cycles : Harddisk drive

  • 10,000+ cycles : Flash memory

  • 1,000 cycles : CD/DVD-RW

  • 1 cycles : CD/DVD-R, paper

[Caution] Caution

Figures of storage life and write cycle here should not be used for decisions on any critical data storage. Please consult the specific product information provided by the manufacture.

[Tip] Tip

Since CD/DVD-R and paper have only 1 write cycle, they inherently prevent accidental data loss by overwriting. This is advantage!

[Tip] Tip

If you need fast and frequent backup of large amount of data, a hard disk on a remote host linked by a fast network connection, may be the only realistic option.

10.2. The disk image

Here, we discuss manipulations of the disk image. See Section 9.3, “Data storage tips”, too.

10.2.1. Making the disk image file

The disk image file, "disk.img", of an unmounted device, e.g., the second SCSI drive "/dev/sdb", can be made using cp(1) or dd(1) by the following.

# cp /dev/sdb disk.img
# dd if=/dev/sdb of=disk.img

The disk image of the traditional PC's master boot record (MBR) (see Section 9.3.2, “Disk partition configuration”) which reside on the first sector on the primary IDE disk can be made by using dd(1) by the following.

# dd if=/dev/hda of=mbr.img bs=512 count=1
# dd if=/dev/hda of=mbr-nopart.img bs=446 count=1
# dd if=/dev/hda of=mbr-part.img skip=446 bs=1 count=66
  • "mbr.img": The MBR with the partition table

  • "mbr-nopart.img": The MBR without the partition table

  • "part.img": The partition table of the MBR only

If you have a SCSI device (including the new serial ATA drive) as the boot disk, substitute "/dev/hda" with "/dev/sda".

If you are making an image of a disk partition of the original disk, substitute "/dev/hda" with "/dev/hda1" etc.

10.2.2. Writing directly to the disk

The disk image file, "disk.img" can be written to an unmounted device, e.g., the second SCSI drive "/dev/sdb" with matching size, by the following.

# dd if=disk.img of=/dev/sdb

Similarly, the disk partition image file, "partition.img" can be written to an unmounted partition, e.g., the first partition of the second SCSI drive "/dev/sdb1" with matching size, by the following.

# dd if=partition.img of=/dev/sdb1

10.2.3. Mounting the disk image file

The disk image "partition.img" containing a single partition image can be mounted and unmounted by using the loop device as follows.

# losetup -v -f partition.img
Loop device is /dev/loop0
# mkdir -p /mnt/loop0
# mount -t auto /dev/loop0 /mnt/loop0
...hack...hack...hack
# umount /dev/loop0
# losetup -d /dev/loop0

This can be simplified as follows.

# mkdir -p /mnt/loop0
# mount -t auto -o loop partition.img /mnt/loop0
...hack...hack...hack
# umount partition.img

Each partition of the disk image "disk.img" containing multiple partitions can be mounted by using the loop device. Since the loop device does not manage partitions by default, we need to reset it as follows.

# modinfo -p loop # verify kernel capability
max_part:Maximum number of partitions per loop device
max_loop:Maximum number of loop devices
# losetup -a # verify nothing using the loop device
# rmmod loop
# modprobe loop max_part=16

Now, the loop device can manage up to 16 partitions.

# losetup -v -f disk.img
Loop device is /dev/loop0
# fdisk -l /dev/loop0

Disk /dev/loop0: 5368 MB, 5368709120 bytes
255 heads, 63 sectors/track, 652 cylinders
Units = cylinders of 16065 * 512 = 8225280 bytes
Disk identifier: 0x452b6464

      Device Boot      Start         End      Blocks   Id  System
/dev/loop0p1               1         600     4819468+  83  Linux
/dev/loop0p2             601         652      417690   83  Linux
# mkdir -p /mnt/loop0p1
# mount -t ext3 /dev/loop0p1 /mnt/loop0p1
# mkdir -p /mnt/loop0p2
# mount -t ext3 /dev/loop0p2 /mnt/loop0p2
...hack...hack...hack
# umount /dev/loop0p1
# umount /dev/loop0p2
# losetup -d /dev/loop0

Alternatively, similar effects can be done by using the device mapper devices created by kpartx(8) from the kpartx package as follows.

# kpartx -a -v disk.img
...
# mkdir -p /mnt/loop0p2
# mount -t ext3 /dev/mapper/loop0p2 /mnt/loop0p2
...
...hack...hack...hack
# umount /dev/mapper/loop0p2
...
# kpartx -d /mnt/loop0
[Note] Note

You can mount a single partition of such disk image with loop device using offset to skip MBR etc., too. But this is more error prone.

10.2.4. Cleaning a disk image file

A disk image file, "disk.img" can be cleaned of all removed files into clean sparse image "new.img" by the following.

# mkdir old; mkdir new
# mount -t auto -o loop disk.img old
# dd bs=1 count=0 if=/dev/zero of=new.img seek=5G
# mount -t auto -o loop new.img new
# cd old
# cp -a --sparse=always ./ ../new/
# cd ..
# umount new.img
# umount disk.img

If "disk.img" is in ext2 or ext3, you can also use zerofree(8) from the zerofree package as follows.

# losetup -f -v disk.img
Loop device is /dev/loop3
# zerofree /dev/loop3
# cp --sparse=always disk.img new.img

10.2.5. Making the empty disk image file

The empty disk image "disk.img" which can grow up to 5GiB can be made using dd(1) as follows.

$ dd bs=1 count=0 if=/dev/zero of=disk.img seek=5G

You can create an ext3 filesystem on this disk image "disk.img" using the loop device as follows.

# losetup -f -v disk.img
Loop device is /dev/loop1
# mkfs.ext3 /dev/loop1
...hack...hack...hack
# losetup -d /dev/loop1
$ du  --apparent-size -h disk.img
5.0G  disk.img
$ du -h disk.img
83M disk.img

For "disk.img", its file size is 5.0 GiB and its actual disk usage is mere 83MiB. This discrepancy is possible since ext2fs can hold sparse file.

[Tip] Tip

The actual disk usage of sparse file grows with data which are written to it.

Using similar operation on devices created by the loop device or the device mapper devices as Section 10.2.3, “Mounting the disk image file”, you can partition this disk image "disk.img" using parted(8) or fdisk(8), and can create filesystem on it using mkfs.ext3(8), mkswap(8), etc.

10.2.6. Making the ISO9660 image file

The ISO9660 image file, "cd.iso", from the source directory tree at "source_directory" can be made using genisoimage(1) provided by cdrkit by the following.

#  genisoimage -r -J -T -V volume_id -o cd.iso source_directory

Similarly, the bootable ISO9660 image file, "cdboot.iso", can be made from debian-installer like directory tree at "source_directory" by the following.

#  genisoimage -r -o cdboot.iso -V volume_id \
   -b isolinux/isolinux.bin -c isolinux/boot.cat \
   -no-emul-boot -boot-load-size 4 -boot-info-table source_directory

Here Isolinux boot loader (see Section 3.3, “Stage 2: the boot loader”) is used for booting.

You can calculate the md5sum value and make the ISO9660 image directly from the CD-ROM device as follows.

$ isoinfo -d -i /dev/cdrom
CD-ROM is in ISO 9660 format
...
Logical block size is: 2048
Volume size is: 23150592
...
# dd if=/dev/cdrom bs=2048 count=23150592 conv=notrunc,noerror | md5sum
# dd if=/dev/cdrom bs=2048 count=23150592 conv=notrunc,noerror > cd.iso
[Warning] Warning

You must carefully avoid ISO9660 filesystem read ahead bug of Linux as above to get the right result.

10.2.7. Writing directly to the CD/DVD-R/RW

[Tip] Tip

DVD is only a large CD to wodim(1) provided by cdrkit.

You can find a usable device by the following.

# wodim --devices

Then the blank CD-R is inserted to the CD drive, and the ISO9660 image file, "cd.iso" is written to this device, e.g., "/dev/hda", using wodim(1) by the following.

# wodim -v -eject dev=/dev/hda cd.iso

If CD-RW is used instead of CD-R, do this instead by the following.

# wodim -v -eject blank=fast dev=/dev/hda cd.iso
[Tip] Tip

If your desktop system mounts CD automatically, unmount it by "sudo unmount /dev/hda" before using wodim(1).

10.2.8. Mounting the ISO9660 image file

If "cd.iso" contains an ISO9660 image, then the following manually mounts it to "/cdrom".

# mount -t iso9660 -o ro,loop cd.iso /cdrom
[Tip] Tip

Modern desktop system mounts removable media automatically (see Section 10.1.10, “Removable storage device”).

10.3. The binary data

Here, we discuss direct manipulations of the binary data on storage media. See Section 9.3, “Data storage tips”, too.

10.3.1. Viewing and editing binary data

The most basic viewing method of binary data is to use "od -t x1" command.

Table 10.6. List of packages which view and edit binary data

package popcon size description
coreutils http://qa.debian.org/popcon.php?package=coreutils 14088 basic package which has od(1) to dump files (HEX, ASCII, OCTAL, …)
bsdmainutils http://qa.debian.org/popcon.php?package=bsdmainutils 558 utility package which has hd(1) to dump files (HEX, ASCII, OCTAL, …)
hexedit http://qa.debian.org/popcon.php?package=hexedit 108 binary editor and viewer (HEX, ASCII)
bless http://qa.debian.org/popcon.php?package=bless 991 full featured hexadecimal editor (GNOME)
okteta http://qa.debian.org/popcon.php?package=okteta 295 full featured hexadecimal editor (KDE4)
ncurses-hexedit http://qa.debian.org/popcon.php?package=ncurses-hexedit 192 binary editor and viewer (HEX, ASCII, EBCDIC)
beav http://qa.debian.org/popcon.php?package=beav 164 binary editor and viewer (HEX, ASCII, EBCDIC, OCTAL, …)

[Tip] Tip

HEX is used as an acronym for hexadecimal format with radix 16. OCTAL is for octal format with radix 8. ASCII is for American Standard Code for Information Interchange, i.e., normal English text code. EBCDIC is for Extended Binary Coded Decimal Interchange Code used on IBM mainframe operating systems.

10.3.2. Manipulating files without mounting disk

There are tools to read and write files without mounting disk.

Table 10.7. List of packages to manipulate files without mounting disk

package popcon size description
mtools http://qa.debian.org/popcon.php?package=mtools 408 utilities for MSDOS files without mounting them
hfsutils http://qa.debian.org/popcon.php?package=hfsutils 236 utilities for HFS and HFS+ files without mounting them

10.3.3. Data redundancy

Software RAID systems offered by the Linux kernel provide data redundancy in the kernel filesystem level to achieve high levels of storage reliability.

There are tools to add data redundancy to files in application program level to achieve high levels of storage reliability, too.

Table 10.8. List of tools to add data redundancy to files

package popcon size description
par2 http://qa.debian.org/popcon.php?package=par2 272 Parity Archive Volume Set, for checking and repair of files
dvdisaster http://qa.debian.org/popcon.php?package=dvdisaster 1481 data loss/scratch/aging protection for CD/DVD media
dvbackup http://qa.debian.org/popcon.php?package=dvbackup 392 backup tool using MiniDV camcorders (providing rsbep(1))
vdmfec http://qa.debian.org/popcon.php?package=vdmfec 88 recover lost blocks using Forward Error Correction

10.3.4. Data file recovery and forensic analysis

There are tools for data file recovery and forensic analysis.

Table 10.9. List of packages for data file recovery and forensic analysis

package popcon size description
testdisk http://qa.debian.org/popcon.php?package=testdisk 1153 utilities for partition scan and disk recovery
magicrescue http://qa.debian.org/popcon.php?package=magicrescue 344 utility to recover files by looking for magic bytes
scalpel http://qa.debian.org/popcon.php?package=scalpel 124 frugal, high performance file carver
myrescue http://qa.debian.org/popcon.php?package=myrescue 84 rescue data from damaged harddisks
recover http://qa.debian.org/popcon.php?package=recover 104 utility to undelete files on the ext2 filesystem
e2undel http://qa.debian.org/popcon.php?package=e2undel 244 utility to undelete files on the ext2 filesystem
ext3grep http://qa.debian.org/popcon.php?package=ext3grep 296 tool to help recover deleted files on the ext3 filesystem
scrounge-ntfs http://qa.debian.org/popcon.php?package=scrounge-ntfs 80 data recovery program for NTFS filesystems
gzrt http://qa.debian.org/popcon.php?package=gzrt 68 gzip recovery toolkit
sleuthkit http://qa.debian.org/popcon.php?package=sleuthkit 750 tools for forensics analysis. (Sleuthkit)
autopsy http://qa.debian.org/popcon.php?package=autopsy 1372 graphical interface to SleuthKit
foremost http://qa.debian.org/popcon.php?package=foremost 140 forensics application to recover data
guymager http://qa.debian.org/popcon.php?package=guymager 949 forensic imaging tool based on Qt
dcfldd http://qa.debian.org/popcon.php?package=dcfldd 109 enhanced version of dd for forensics and security
rdd http://qa.debian.org/popcon.php?package=rdd 200 forensic copy program

10.3.5. Splitting a large file into small files

When a data is too big to backup as a single file, you can backup its content after splitting it into, e.g. 2000MiB chunks and merge those chunks back into the original file later.

$ split -b 2000m large_file
$ cat x* >large_file
[Caution] Caution

Please make sure you do not have any files starting with "x" to avoid name crashes.

10.3.6. Clearing file contents

In order to clear the contents of a file such as a log file, do not use rm(1) to delete the file and then create a new empty file, because the file may still be accessed in the interval between commands. The following is the safe way to clear the contents of the file.

$ :>file_to_be_cleared

10.3.7. Dummy files

The following commands create dummy or empty files.

$ dd if=/dev/zero    of=5kb.file bs=1k count=5
$ dd if=/dev/urandom of=7mb.file bs=1M count=7
$ touch zero.file
$ : > alwayszero.file

You should find following files.

  • "5kb.file" is 5KB of zeros.

  • "7mb.file" is 7MB of random data.

  • "zero.file" may be a 0 byte file. If it existed, its mtime is updated while its content and its length are kept.

  • "alwayszero.file" is always a 0 byte file. If it existed, its mtime is updated and its content is reset.

10.3.8. Erasing an entire hard disk

There are several ways to completely erase data from an entire hard disk like device, e.g., USB memory stick at "/dev/sda".

[Caution] Caution

Check your USB memory stick location with mount(8) first before executing commands here. The device pointed by "/dev/sda" may be SCSI hard disk or serial-ATA hard disk where your entire system resides.

Erase all the disk content by resetting data to 0 with the following.

# dd if=/dev/zero of=/dev/sda

Erase all by overwriting random data with the following.

# dd if=/dev/urandom of=/dev/sda

Erase all by overwriting random data very efficiently with the following.

# shred -v -n 1 /dev/sda

Since dd(1) is available from the shell of many bootable Linux CDs such as Debian installer CD, you can erase your installed system completely by running an erase command from such media on the system hard disk, e.g., "/dev/hda", "/dev/sda", etc.

10.3.9. Erasing unused area of an hard disk

Unused area on an hard disk (or USB memory stick), e.g. "/dev/sdb1" may still contain erased data themselves since they are only unlinked from the filesystem. These can be cleaned by overwriting them.

# mount -t auto /dev/sdb1 /mnt/foo
# cd /mnt/foo
# dd if=/dev/zero of=junk
dd: writing to `junk': No space left on device
...
# sync
# umount /dev/sdb1
[Warning] Warning

This is usually a good enough for your USB memory stick. But this is not perfect. Most parts of erased filenames and their attributes may be hidden and remain in the filesystem.

10.3.10. Undeleting deleted but still open files

Even if you have accidentally deleted a file, as long as that file is still being used by some application (read or write mode), it is possible to recover such a file.

For example, try the following

$ echo foo > bar
$ less bar
$ ps aux | grep ' less[ ]'
bozo    4775  0.0  0.0  92200   884 pts/8    S+   00:18   0:00 less bar
$ rm bar
$ ls -l /proc/4775/fd | grep bar
lr-x------ 1 bozo bozo 64 2008-05-09 00:19 4 -> /home/bozo/bar (deleted)
$ cat /proc/4775/fd/4 >bar
$ ls -l
-rw-r--r-- 1 bozo bozo 4 2008-05-09 00:25 bar
$ cat bar
foo

Execute on another terminal (when you have the lsof package installed) as follows.

$ ls -li bar
2228329 -rw-r--r-- 1 bozo bozo 4 2008-05-11 11:02 bar
$ lsof |grep bar|grep less
less 4775 bozo 4r REG 8,3 4 2228329 /home/bozo/bar
$ rm bar
$ lsof |grep bar|grep less
less 4775 bozo 4r REG 8,3 4 2228329 /home/bozo/bar (deleted)
$ cat /proc/4775/fd/4 >bar
$ ls -li bar
2228302 -rw-r--r-- 1 bozo bozo 4 2008-05-11 11:05 bar
$ cat bar
foo

10.3.11. Searching all hardlinks

Files with hardlinks can be identified by "ls -li".

$ ls -li
total 0
2738405 -rw-r--r-- 1 root root 0 2008-09-15 20:21 bar
2738404 -rw-r--r-- 2 root root 0 2008-09-15 20:21 baz
2738404 -rw-r--r-- 2 root root 0 2008-09-15 20:21 foo

Both "baz" and "foo" have link counts of "2" (>1) showing them to have hardlinks. Their inode numbers are common "2738404". This means they are the same hardlinked file. If you do not happen to find all hardlinked files by chance, you can search it by the inode, e.g., "2738404" as the following.

# find /path/to/mount/point -xdev -inum 2738404

10.3.12. Invisible disk space consumption

All deleted but open files consumes disk space although they are not visible from normal du(1). They can be listed with their size by the following.

# lsof -s -X / |grep deleted

10.4. Data security infrastructure

The data security infrastructure is provided by the combination of data encryption tool, message digest tool, and signature tool.

Table 10.10. List of data security infrastructure tools

command package popcon size description
gpg(1) gnupg http://qa.debian.org/popcon.php?package=gnupg 4621 GNU Privacy Guard - OpenPGP encryption and signing tool
N/A gnupg-doc http://qa.debian.org/popcon.php?package=gnupg-doc 4124 GNU Privacy Guard documentation
gpgv(1) gpgv http://qa.debian.org/popcon.php?package=gpgv 397 GNU Privacy Guard - signature verification tool
paperkey(1) paperkey http://qa.debian.org/popcon.php?package=paperkey 88 extract just the secret information out of OpenPGP secret keys
cryptsetup(8), … cryptsetup http://qa.debian.org/popcon.php?package=cryptsetup 648 utilities for dm-crypto block device encryption supporting LUKS
ecryptfs(7), … ecryptfs-utils http://qa.debian.org/popcon.php?package=ecryptfs-utils 368 utilities for ecryptfs stacked filesystem encryption
md5sum(1) coreutils http://qa.debian.org/popcon.php?package=coreutils 14088 compute and check MD5 message digest
sha1sum(1) coreutils http://qa.debian.org/popcon.php?package=coreutils 14088 compute and checks SHA1 message digest
openssl(1ssl) openssl http://qa.debian.org/popcon.php?package=openssl 1079 compute message digest with "openssl dgst" (OpenSSL)

See Section 9.4, “Data encryption tips” on dm-crypto and ecryptfs which implement automatic data encryption infrastructure via Linux kernel modules.

10.4.1. Key management for GnuPG

Here are GNU Privacy Guard commands for the basic key management.

Table 10.11. List of GNU Privacy Guard commands for the key management

command description
gpg --gen-key generate a new key
gpg --gen-revoke my_user_ID generate revoke key for my_user_ID
gpg --edit-key user_ID edit key interactively, "help" for help
gpg -o file --exports export all keys to file
gpg --imports file import all keys from file
gpg --send-keys user_ID send key of user_ID to keyserver
gpg --recv-keys user_ID recv. key of user_ID from keyserver
gpg --list-keys user_ID list keys of user_ID
gpg --list-sigs user_ID list sig. of user_ID
gpg --check-sigs user_ID check sig. of user_ID
gpg --fingerprint user_ID check fingerprint of user_ID
gpg --refresh-keys update local keyring

Here is the meaning of the trust code.

Table 10.12. List of the meaning of the trust code

code description of trust
- no owner trust assigned / not yet calculated
e trust calculation failed
q not enough information for calculation
n never trust this key
m marginally trusted
f fully trusted
u ultimately trusted

The following uploads my key "1DD8D791" to the popular keyserver "hkp://keys.gnupg.net".

$ gpg --keyserver hkp://keys.gnupg.net --send-keys 1DD8D791

A good default keyserver set up in "~/.gnupg/gpg.conf" (or old location "~/.gnupg/options") contains the following.

keyserver hkp://keys.gnupg.net

The following obtains unknown keys from the keyserver.

$ gpg --list-sigs --with-colons | grep '^sig.*\[User ID not found\]' |\
  cut -d ':' -f 5| sort | uniq | xargs gpg --recv-keys

There was a bug in OpenPGP Public Key Server (pre version 0.9.6) which corrupted key with more than 2 sub-keys. The newer gnupg (>1.2.1-2) package can handle these corrupted subkeys. See gpg(1) under "--repair-pks-subkey-bug" option.

10.4.2. Using GnuPG on files

Here are examples for using GNU Privacy Guard commands on files.

Table 10.13. List of GNU Privacy Guard commands on files

command description
gpg -a -s file sign file into ASCII armored file.asc
gpg --armor --sign file , ,
gpg --clearsign file clear-sign message
gpg --clearsign file|mail foo@example.org mail a clear-signed message to foo@example.org
gpg --clearsign --not-dash-escaped patchfile clear-sign patchfile
gpg --verify file verify clear-signed file
gpg -o file.sig -b file create detached signature
gpg -o file.sig --detach-sig file , ,
gpg --verify file.sig file verify file with file.sig
gpg -o crypt_file.gpg -r name -e file public-key encryption intended for name from file to binary crypt_file.gpg
gpg -o crypt_file.gpg --recipient name --encrypt file , ,
gpg -o crypt_file.asc -a -r name -e file public-key encryption intended for name from file to ASCII armored crypt_file.asc
gpg -o crypt_file.gpg -c file symmetric encryption from file to crypt_file.gpg
gpg -o crypt_file.gpg --symmetric file , ,
gpg -o crypt_file.asc -a -c file symmetric encryption intended for name from file to ASCII armored crypt_file.asc
gpg -o file -d crypt_file.gpg -r name decryption
gpg -o file --decrypt crypt_file.gpg , ,

10.4.3. Using GnuPG with Mutt

Add the following to "~/.muttrc" to keep a slow GnuPG from automatically starting, while allowing it to be used by typing "S" at the index menu.

macro index S ":toggle pgp_verify_sig\n"
set pgp_verify_sig=no

10.4.4. Using GnuPG with Vim

The gnupg plugin let you run GnuPG transparently for files with extension ".gpg", ".asc", and ".ppg".

# aptitude install vim-scripts vim-addon-manager
$ vim-addons install gnupg

10.4.5. The MD5 sum

md5sum(1) provides utility to make a digest file using the method in rfc1321 and verifying each file with it.

$ md5sum foo bar >baz.md5
$ cat baz.md5
d3b07384d113edec49eaa6238ad5ff00  foo
c157a79031e1c40f85931829bc5fc552  bar
$ md5sum -c baz.md5
foo: OK
bar: OK
[Note] Note

The computation for the MD5 sum is less CPU intensive than the one for the cryptographic signature by GNU Privacy Guard (GnuPG). Usually, only the top level digest file is cryptographically signed to ensure data integrity.

10.5. Source code merge tools

There are many merge tools for the source code. Following commands caught my eyes.

Table 10.14. List of source code merge tools

command package popcon size description
diff(1) diffutils http://qa.debian.org/popcon.php?package=diffutils 1118 compare files line by line
diff3(1) diffutils http://qa.debian.org/popcon.php?package=diffutils 1118 compare and merges three files line by line
vimdiff(1) vim http://qa.debian.org/popcon.php?package=vim 1873 compare 2 files side by side in vim
patch(1) patch http://qa.debian.org/popcon.php?package=patch 218 apply a diff file to an original
dpatch(1) dpatch http://qa.debian.org/popcon.php?package=dpatch 237 manage series of patches for Debian package
diffstat(1) diffstat http://qa.debian.org/popcon.php?package=diffstat 45 produce a histogram of changes by the diff
combinediff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 create a cumulative patch from two incremental patches
dehtmldiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 extract a diff from an HTML page
filterdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 extract or excludes diffs from a diff file
fixcvsdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 fix diff files created by CVS that patch(1) mis-interprets
flipdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 exchange the order of two patches
grepdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 show which files are modified by a patch matching a regex
interdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 show differences between two unified diff files
lsdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 show which files are modified by a patch
recountdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 recompute counts and offsets in unified context diffs
rediff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 fix offsets and counts of a hand-edited diff
splitdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 separate out incremental patches
unwrapdiff(1) patchutils http://qa.debian.org/popcon.php?package=patchutils 221 demangle patches that have been word-wrapped
wiggle(1) wiggle http://qa.debian.org/popcon.php?package=wiggle 203 apply rejected patches
quilt(1) quilt http://qa.debian.org/popcon.php?package=quilt 814 manage series of patches
meld(1) meld http://qa.debian.org/popcon.php?package=meld 2023 compare and merge files (GTK)
xxdiff(1) xxdiff http://qa.debian.org/popcon.php?package=xxdiff 1090 compare and merge files (plain X)
dirdiff(1) dirdiff http://qa.debian.org/popcon.php?package=dirdiff 224 display differences and merge changes between directory trees
docdiff(1) docdiff http://qa.debian.org/popcon.php?package=docdiff 692 compare two files word by word / char by char
imediff2(1) imediff2 http://qa.debian.org/popcon.php?package=imediff2 76 interactive full screen 2-way merge tool
makepatch(1) makepatch http://qa.debian.org/popcon.php?package=makepatch 148 generate extended patch files
applypatch(1) makepatch http://qa.debian.org/popcon.php?package=makepatch 148 apply extended patch files
wdiff(1) wdiff http://qa.debian.org/popcon.php?package=wdiff 900 display word differences between text files

10.5.1. Extracting differences for source files

One of following procedures extract differences between two source files and create unified diff files "file.patch0" or "file.patch1" depending on the file location.

$ diff -u file.old file.new > file.patch0
$ diff -u old/file new/file > file.patch1

10.5.2. Merging updates for source files

The diff file (alternatively called patch file) is used to send a program update. The receiving party applies this update to another file by the following.

$ patch -p0 file < file.patch0
$ patch -p1 file < file.patch1

10.5.3. Updating via 3-way-merge

If you have three versions of a source code, you can perform 3-way-merge effectively using diff3(1) by the following.

$ diff3 -m file.mine file.old file.yours > file

10.6. Version control systems

Here is a summary of the version control systems (VCS) on the Debian system.

[Note] Note

If you are new to VCS systems, you should start learning with Git, which is growing fast in popularity.

Table 10.15. List of version control system tools

package popcon size tool VCS type comment
cssc http://qa.debian.org/popcon.php?package=cssc 2240 CSSC local clone of the Unix SCCS (deprecated)
rcs http://qa.debian.org/popcon.php?package=rcs 1101 RCS local "Unix SCCS done right"
cvs http://qa.debian.org/popcon.php?package=cvs 4059 CVS remote previous standard remote VCS
subversion http://qa.debian.org/popcon.php?package=subversion 4107 Subversion remote "CVS done right", the new de facto standard remote VCS
git http://qa.debian.org/popcon.php?package=git 13073 Git distributed fast DVCS in C (used by the Linux kernel and others)
mercurial http://qa.debian.org/popcon.php?package=mercurial 369 Mercurial distributed DVCS in Python and some C
bzr http://qa.debian.org/popcon.php?package=bzr 65 Bazaar distributed DVCS influenced by tla written in Python (used by Ubuntu)
darcs http://qa.debian.org/popcon.php?package=darcs 13347 Darcs distributed DVCS with smart algebra of patches (slow)
tla http://qa.debian.org/popcon.php?package=tla 881 GNU arch distributed DVCS mainly by Tom Lord (Historic)
monotone http://qa.debian.org/popcon.php?package=monotone 5150 Monotone distributed DVCS in C++
tkcvs http://qa.debian.org/popcon.php?package=tkcvs 2476 CVS, … remote GUI display of VCS (CVS, Subversion, RCS) repository tree
gitk http://qa.debian.org/popcon.php?package=gitk 1045 Git distributed GUI display of VCS (Git) repository tree

VCS is sometimes known as revision control system (RCS), or software configuration management (SCM).

Distributed VCS such as Git is the tool of choice these days. CVS and Subversion may still be useful to join some existing open source program activities.

Debian provides free VCS services via Debian Alioth service. It supports practically all VCSs. Its documentation can be found at http://wiki.debian.org/Alioth .

There are few basics for creating a shared access VCS archive.

10.6.1. Comparison of VCS commands

Here is an oversimplified comparison of native VCS commands to provide the big picture. The typical command sequence may require options and arguments.

Table 10.16. Comparison of native VCS commands

CVS Subversion Git function
cvs init svn create git init create the (local) repository
cvs login - - login to the remote repository
cvs co svn co git clone check out the remote repository as the working tree
cvs up svn up git pull update the working tree by merging the remote repository
cvs add svn add git add . add file(s) in the working tree to the VCS
cvs rm svn rm git rm remove file(s) in working tree from the VCS
cvs ci svn ci - commit changes to the remote repository
- - git commit -a commit changes to the local repository
- - git push update the remote repository by the local repository
cvs status svn status git status display the working tree status from the VCS
cvs diff svn diff git diff diff <reference_repository> <working_tree>
- - git repack -a -d; git prune repack the local repository into single pack
tkcvs tkcvs gitk GUI display of VCS repository tree

[Caution] Caution

Invoking a git subcommand directly as "git-xyz" from the command line has been deprecated since early 2006.

[Tip] Tip

GUI tools such as tkcvs(1) and gitk(1) really help you with tracking revision history of files. The web interface provided by many public archives for browsing their repositories is also quite useful, too.

[Tip] Tip

Git can work directly with different VCS repositories such as ones provided by CVS and Subversion, and provides the local repository for local changes with git-cvs and git-svn packages. See git for CVS users, and Section 10.9.4, “Git for the Subversion repository”.

[Tip] Tip

Git has commands which have no equivalents in CVS and Subversion: "fetch", "rebase", "cherry-pick", …

10.7. CVS

See the following.

  • cvs(1)

  • "/usr/share/doc/cvs/html-cvsclient"

  • "/usr/share/doc/cvs/html-info"

  • "/usr/share/doc/cvsbook"

  • "info cvs"

10.7.1. Configuration of CVS repository

The following configuration allows commits to the CVS repository only by a member of the "src" group, and administration of CVS only by a member of the "staff" group, thus reducing the chance of shooting oneself.

# cd /var/lib; umask 002; mkdir cvs
# export CVSROOT=/srv/cvs/project
# cd $CVSROOT
# chown root:src .
# chmod 2775 .
# cvs -d $CVSROOT init
# cd CVSROOT
# chown -R root:staff .
# chmod 2775 .
# touch val-tags
# chmod 664 history val-tags
# chown root:src history val-tags
[Tip] Tip

You may restrict creation of new project by changing the owner of "$CVSROOT" directory to "root:staff" and its permission to "3775".

10.7.2. Local access to CVS

The default CVS repository is pointed by "$CVSROOT". The following sets up "$CVSROOT" for the local access.

$ export CVSROOT=/srv/cvs/project

10.7.3. Remote access to CVS with pserver

Many public CVS servers provide read-only remote access to them with account name "anonymous" via pserver service. For example, Debian web site contents are maintained by webwml project via CVS at Debian alioth service. The following sets up "$CVSROOT" for the remote access to this CVS repository.

$ export CVSROOT=:pserver:anonymous@cvs.alioth.debian.org:/cvsroot/webwml
$ cvs login
[Note] Note

Since pserver is prone to eavesdropping attack and insecure, write access is usually disable by server administrators.

10.7.4. Remote access to CVS with ssh

The following sets up "$CVS_RSH" and "$CVSROOT" for the remote access to the CVS repository by webwml project with SSH.

$ export CVS_RSH=ssh
$ export CVSROOT=:ext:account@cvs.alioth.debian.org:/cvs/webwml

You can also use public key authentication for SSH which eliminates the remote password prompt.

10.7.5. Importing a new source to CVS

Create a new local source tree location at "~/path/to/module1" by the following.

$ mkdir -p ~/path/to/module1; cd ~/path/to/module1

Populate a new local source tree under "~/path/to/module1" with files.

Import it to CVS with the following parameters.

  • Module name: "module1"

  • Vendor tag: "Main-branch" (tag for the entire branch)

  • Release tag: "Release-initial" (tag for a specific release)

$ cd ~/path/to/module1
$ cvs import -m "Start module1" module1 Main-branch Release-initial
$ rm -Rf . # optional

10.7.6. File permissions in CVS repository

CVS does not overwrite the current repository file but replaces it with another one. Thus, write permission to the repository directory is critical. For every new module for "module1" in repository at "/srv/cvs/project", run the following to ensure this condition if needed.

# cd /srv/cvs/project
# chown -R root:src module1
# chmod -R ug+rwX   module1
# chmod    2775     module1

10.7.7. Work flow of CVS

Here is an example of typical work flow using CVS.

Check all available modules from CVS project pointed by "$CVSROOT" by the following.

$ cvs rls
CVSROOT
module1
module2
...

Checkout "module1" to its default directory "./module1" by the following.

$ cd ~/path/to
$ cvs co module1
$ cd module1

Make changes to the content as needed.

Check changes by making "diff -u [repository] [local]" equivalent by the following.

$ cvs diff -u

You find that you broke some file "file_to_undo" severely but other files are fine.

Overwrite "file_to_undo" file with the clean copy from CVS by the following.

$ cvs up -C file_to_undo

Save the updated local source tree to CVS by the following.

$ cvs ci -m "Describe change"

Create and add "file_to_add" file to CVS by the following.

$ vi file_to_add
$ cvs add file_to_add
$ cvs ci -m "Added file_to_add"

Merge the latest version from CVS by the following.

$ cvs up -d

Watch out for lines starting with "C filename" which indicates conflicting changes.

Look for unmodified code in ".#filename.version".

Search for "<<<<<<<" and ">>>>>>>" in files for conflicting changes.

Edit files to fix conflicts as needed.

Add a release tag "Release-1" by the following.

$ cvs ci -m "last commit for Release-1"
$ cvs tag Release-1

Edit further.

Remove the release tag "Release-1" by the following.

$ cvs tag -d Release-1

Check in changes to CVS by the following.

$ cvs ci -m "real last commit for Release-1"

Re-add the release tag "Release-1" to updated CVS HEAD of main by the following.

$ cvs tag Release-1

Create a branch with a sticky branch tag "Release-initial-bugfixes" from the original version pointed by the tag "Release-initial" and check it out to "~/path/to/old" directory by the following.

$ cvs rtag -b -r Release-initial Release-initial-bugfixes module1
$ cd ~/path/to
$ cvs co -r Release-initial-bugfixes -d old module1
$ cd old
[Tip] Tip

Use "-D 2005-12-20" (ISO 8601 date format) instead of "-r Release-initial" to specify particular date as the branch point.

Work on this local source tree having the sticky tag "Release-initial-bugfixes" which is based on the original version.

Work on this branch by yourself … until someone else joins to this "Release-initial-bugfixes" branch.

Sync with files modified by others on this branch while creating new directories as needed by the following.

$ cvs up -d

Edit files to fix conflicts as needed.

Check in changes to CVS by the following.

$ cvs ci -m "checked into this branch"

Update the local tree by HEAD of main while removing sticky tag ("-A") and without keyword expansion ("-kk") by the following.

$ cvs up -d -kk -A

Update the local tree (content = HEAD of main) by merging from the "Release-initial-bugfixes" branch and without keyword expansion by the following.

$ cvs up -d -kk -j Release-initial-bugfixes

Fix conflicts with editor.

Check in changes to CVS by the following.

$ cvs ci -m "merged Release-initial-bugfixes"

Make archive by the following.

$ cd ..
$ mv old old-module1-bugfixes
$ tar -cvzf old-module1-bugfixes.tar.gz old-module1-bugfixes
$ rm -rf old-module1-bugfixes
[Tip] Tip

"cvs up" command can take "-d" option to create new directories and "-P" option to prune empty directories.

[Tip] Tip

You can checkout only a sub directory of "module1" by providing its name as "cvs co module1/subdir".

Table 10.17. Notable options for CVS commands (use as first argument(s) to cvs(1))

option meaning
-n dry run, no effect
-t display messages showing steps of cvs activity

10.7.8. Latest files from CVS

To get the latest files from CVS, use "tomorrow" by the following.

$ cvs ex -D tomorrow module_name

10.7.9. Administration of CVS

Add module alias "mx" to a CVS project (local server) by the following.

$ export CVSROOT=/srv/cvs/project
$ cvs co CVSROOT/modules
$ cd CVSROOT
$ echo "mx -a module1" >>modules
$ cvs ci -m "Now mx is an alias for module1"
$ cvs release -d .

Now, you can check out "module1" (alias: "mx") from CVS to "new" directory by the following.

$ cvs co -d new mx
$ cd new
[Note] Note

In order to perform above procedure, you should have appropriate file permissions.

10.7.10. Execution bit for CVS checkout

When you checkout files from CVS, their execution permission bit is retained.

Whenever you see execution permission problems in a checked out file, e.g. "filename", change its permission in the corresponding CVS repository by the following to fix it.

# chmod ugo-x filename

10.8. Subversion

Subversion is a recent-generation version control system replacing older CVS. It has most of CVS's features except tags and branches.

You need to install subversion, libapache2-svn and subversion-tools packages to set up a Subversion server.

10.8.1. Configuration of Subversion repository

Currently, the subversion package does not set up a repository, so one must set it up manually. One possible location for a repository is in "/srv/svn/project".

Create a directory by the following.

# mkdir -p        /srv/svn/project

Create the repository database by the following.

# svnadmin create /srv/svn/project

10.8.2. Access to Subversion via Apache2 server

If you only access Subversion repository via Apache2 server, you just need to make the repository only writable by the WWW server by the following.

# chown -R www-data:www-data /srv/svn/project

Add (or uncomment) the following in "/etc/apache2/mods-available/dav_svn.conf" to allow access to the repository via user authentication.

<Location /project>
  DAV svn
  SVNPath /srv/svn/project
  AuthType Basic
  AuthName "Subversion repository"
  AuthUserFile /etc/subversion/passwd
<LimitExcept GET PROPFIND OPTIONS REPORT>
    Require valid-user
</LimitExcept>
</Location>

Create a user authentication file with the command by the following.

# htpasswd2 -c /etc/subversion/passwd some-username

Restart Apache2.

Your new Subversion repository is accessible at URL "http://localhost/project" and "http://example.com/project" from svn(1) (assuming your URL of web server is "http://example.com/").

10.8.3. Local access to Subversion by group

The following sets up Subversion repository for the local access by a group, e.g. project.

# chmod  2775     /srv/svn/project
# chown -R root:src /srv/svn/project
# chmod -R ug+rwX   /srv/svn/project

Your new Subversion repository is group accessible at URL "file:///localhost/srv/svn/project" or "file:///srv/svn/project" from svn(1) for local users belonging to project group. You must run commands, such as svn, svnserve, svnlook, and svnadmin under "umask 002" to ensure group access.

10.8.4. Remote access to Subversion via SSH

A group accessible Subversion repository is at URL "example.com:/srv/svn/project" for SSH, you can access it from svn(1) at URL "svn+ssh://example.com:/srv/svn/project".

10.8.5. Subversion directory structure

Many projects uses directory tree similar to the following for Subversion to compensate its lack of branches and tags.

  ----- module1
    |   |-- branches
    |   |-- tags
    |   |   |-- release-1.0
    |   |   `-- release-2.0
    |   |
    |   `-- trunk
    |       |-- file1
    |       |-- file2
    |       `-- file3
    |
    `-- module2
[Tip] Tip

You must use "svn copy …" command to mark branches and tags. This ensures Subversion to record modification history of files properly and saves storage spaces.

10.8.6. Importing a new source to Subversion

Create a new local source tree location at "~/path/to/module1" by the following.

$ mkdir -p ~/path/to/module1; cd ~/path/to/module1

Populate a new local source tree under "~/path/to/module1" with files.

Import it to Subversion with the following parameters.

  • Module name: "module1"

  • Subversion site URL: "file:///srv/svn/project"

  • Subversion directory: "module1/trunk"

  • Subversion tag: "module1/tags/Release-initial"

$ cd ~/path/to/module1
$ svn import file:///srv/svn/project/module1/trunk -m "Start module1"
$ svn cp file:///srv/svn/project/module1/trunk file:///srv/svn/project/module1/tags/Release-initial

Alternatively, by the following.

$ svn import ~/path/to/module1 file:///srv/svn/project/module1/trunk -m "Start module1"
$ svn cp file:///srv/svn/project/module1/trunk file:///srv/svn/project/module1/tags/Release-initial
[Tip] Tip

You can replace URLs such as "file:///…" by any other URL formats such as "http://…" and "svn+ssh://…".

10.8.7. Work flow of Subversion

Here is an example of typical work flow using Subversion with its native client.

[Tip] Tip

Client commands offered by the git-svn package may offer alternative work flow of Subversion using the git command. See Section 10.9.4, “Git for the Subversion repository”.

Check all available modules from Subversion project pointed by URL "file:///srv/svn/project" by the following.

$ svn list file:///srv/svn/project
module1
module2
...

Checkout "module1/trunk" to a directory "module1" by the following.

$ cd ~/path/to
$ svn co file:///srv/svn/project/module1/trunk module1
$ cd module1

Make changes to the content as needed.

Check changes by making "diff -u [repository] [local]" equivalent by the following.

$ svn diff

You find that you broke some file "file_to_undo" severely but other files are fine.

Overwrite "file_to_undo" file with the clean copy from Subversion by the following.

$ svn revert file_to_undo

Save the updated local source tree to Subversion by the following.

$ svn ci -m "Describe change"

Create and add "file_to_add" file to Subversion by the following.

$ vi file_to_add
$ svn add file_to_add
$ svn ci -m "Added file_to_add"

Merge the latest version from Subversion by the following.

$ svn up

Watch out for lines starting with "C filename" which indicates conflicting changes.

Look for unmodified code in, e.g., "filename.r6", "filename.r9", and "filename.mine".

Search for "<<<<<<<" and ">>>>>>>" in files for conflicting changes.

Edit files to fix conflicts as needed.

Add a release tag "Release-1" by the following.

$ svn ci -m "last commit for Release-1"
$ svn cp file:///srv/svn/project/module1/trunk file:///srv/svn/project/module1/tags/Release-1

Edit further.

Remove the release tag "Release-1" by the following.

$ svn rm file:///srv/svn/project/module1/tags/Release-1

Check in changes to Subversion by the following.

$ svn ci -m "real last commit for Release-1"

Re-add the release tag "Release-1" from updated Subversion HEAD of trunk by the following.

$ svn cp file:///srv/svn/project/module1/trunk file:///srv/svn/project/module1/tags/Release-1

Create a branch with a path "module1/branches/Release-initial-bugfixes" from the original version pointed by the path "module1/tags/Release-initial" and check it out to "~/path/to/old" directory by the following.

$ svn cp file:///srv/svn/project/module1/tags/Release-initial file:///srv/svn/project/module1/branches/Release-initial-bugfixes
$ cd ~/path/to
$ svn co file:///srv/svn/project/module1/branches/Release-initial-bugfixes old
$ cd old
[Tip] Tip

Use "module1/trunk@{2005-12-20}" (ISO 8601 date format) instead of "module1/tags/Release-initial" to specify particular date as the branch point.

Work on this local source tree pointing to branch "Release-initial-bugfixes" which is based on the original version.

Work on this branch by yourself … until someone else joins to this "Release-initial-bugfixes" branch.

Sync with files modified by others on this branch by the following.

$ svn up

Edit files to fix conflicts as needed.

Check in changes to Subversion by the following.

$ svn ci -m "checked into this branch"

Update the local tree with HEAD of trunk by the following.

$ svn switch file:///srv/svn/project/module1/trunk

Update the local tree (content = HEAD of trunk) by merging from the "Release-initial-bugfixes" branch by the following.

$ svn merge file:///srv/svn/project/module1/branches/Release-initial-bugfixes

Fix conflicts with editor.

Check in changes to Subversion by the following.

$ svn ci -m "merged Release-initial-bugfixes"

Make archive by the following.

$ cd ..
$ mv old old-module1-bugfixes
$ tar -cvzf old-module1-bugfixes.tar.gz old-module1-bugfixes
$ rm -rf old-module1-bugfixes
[Tip] Tip

You can replace URLs such as "file:///…" by any other URL formats such as "http://…" and "svn+ssh://…".

[Tip] Tip

You can checkout only a sub directory of "module1" by providing its name as "svn co file:///srv/svn/project/module1/trunk/subdir module1/subdir", etc.

Table 10.18. Notable options for Subversion commands (use as first argument(s) to svn(1))

option meaning
--dry-run dry run, no effect
-v display detail messages of svn activity

10.9. Git

Git can do everything for both local and remote source code management. This means that you can record the source code changes without needing network connectivity to the remote repository.

10.9.1. Configuration of Git client

You may wish to set several global configuration in "~/.gitconfig" such as your name and email address used by Git by the following.

$ git config --global user.name "Name Surname"
$ git config --global user.email yourname@example.com

If you are too used to CVS or Subversion commands, you may wish to set several command aliases by the following.

$ git config --global alias.ci "commit -a"
$ git config --global alias.co checkout

You can check your global configuration by the following.

$ git config --global --list

10.9.2. Git references

See the following.

git-gui(1) and gitk(1) commands make using Git very easy.

[Warning] Warning

Do not use the tag string with spaces in it even if some tools such as gitk(1) allow you to use it. It may choke some other git commands.

10.9.3. Git commands

Even if your upstream uses different VCS, it may be good idea to use git(1) for local activity since you can manage your local copy of source tree without the network connection to the upstream. Here are some packages and commands used with git(1).

Table 10.19. List of git related packages and commands

command package popcon size description
N/A git-doc http://qa.debian.org/popcon.php?package=git-doc 8398 official documentation for Git
N/A gitmagic http://qa.debian.org/popcon.php?package=gitmagic 924 "Git Magic", easier to understand guide for Git
git(7) git http://qa.debian.org/popcon.php?package=git 13073 Git, the fast, scalable, distributed revision control system
gitk(1) gitk http://qa.debian.org/popcon.php?package=gitk 1045 GUI Git repository browser with history
git-gui(1) git-gui http://qa.debian.org/popcon.php?package=git-gui 1666 GUI for Git (No history)
git-svnimport(1) git-svn http://qa.debian.org/popcon.php?package=git-svn 686 import the data out of Subversion into Git
git-svn(1) git-svn http://qa.debian.org/popcon.php?package=git-svn 686 provide bidirectional operation between the Subversion and Git
git-cvsimport(1) git-cvs http://qa.debian.org/popcon.php?package=git-cvs 779 import the data out of CVS into Git
git-cvsexportcommit(1) git-cvs http://qa.debian.org/popcon.php?package=git-cvs 779 export a commit to a CVS checkout from Git
git-cvsserver(1) git-cvs http://qa.debian.org/popcon.php?package=git-cvs 779 CVS server emulator for Git
git-send-email(1) git-email http://qa.debian.org/popcon.php?package=git-email 529 send a collection of patches as email from the Git
stg(1) stgit http://qa.debian.org/popcon.php?package=stgit 1628 quilt on top of git (Python)
git-buildpackage(1) git-buildpackage http://qa.debian.org/popcon.php?package=git-buildpackage 2219 automate the Debian packaging with the Git
guilt(7) guilt http://qa.debian.org/popcon.php?package=guilt 360 quilt on top of git (SH/AWK/SED/…)

[Tip] Tip

With git(1), you work on a local branch with many commits and use something like "git rebase -i master" to reorganize change history later. This enables you to make clean change history. See git-rebase(1) and git-cherry-pick(1).

[Tip] Tip

When you want to go back to a clean working directory without loosing the current state of the working directory, you can use "git stash". See git-stash(1).

10.9.4. Git for the Subversion repository

You can check out a Subversion repository at "svn+ssh://svn.example.org/project/module/trunk" to a local Git repository at "./dest" and commit back to the Subversion repository. E.g.:

$ git svn clone -s -rHEAD svn+ssh://svn.example.org/project dest
$ cd dest
... make changes
$ git commit -a
... keep working locally with git
$ git svn dcommit
[Tip] Tip

The use of "-rHEAD" enables us to avoid cloning entire historical contents from the Subversion repository.

10.9.5. Git for recording configuration history

You can manually record chronological history of configuration using Git tools. Here is a simple example for your practice to record "/etc/apt/" contents.

$ cd /etc/apt/
$ sudo git init
$ sudo chmod 700 .git
$ sudo git add .
$ sudo git commit -a

Commit configuration with description.

Make modification to the configuration files.

$ cd /etc/apt/
$ sudo git commit -a

Commit configuration with description and continue your life.

$ cd /etc/apt/
$ sudo gitk --all

You have full configuration history with you.

[Note] Note

sudo(8) is needed to work with any file permissions of configuration data. For user configuration data, you may skip sudo.

[Note] Note

The "chmod 700 .git" command in the above example is needed to protect archive data from unauthorized read access.

[Tip] Tip

For more complete setup for recording configuration history, please look for the etckeeper package: Section 9.2.10, “Recording changes in configuration files”.

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