REPLICA(8)REPLICA(8)NAME
applychanges, applylog, compactdb, updatedb - simple client-server
replica management
SYNOPSIS
replica/compactdb db
replica/updatedb [ -cl ] [ -p proto ] [ -r root ] [ -t now n ] [ -u uid
] [ -x path ] ... db
replica/applylog [ -nuv ] [ -c name ]... [ -s name ]... clientdb
clientroot serverroot [ path ... ]
replica/applychanges [ -nuv ] [ -p proto ] [ -x path ] ... clientdb
clientroot serverroot [ path ... ]
DESCRIPTION
These four tools collectively provide simple log-based client-server
replica management. The shell scripts described in replica(1) provide
a more polished interface.
Both client and server maintain textual databases of file system meta‐
data. Each line is of the form path mode uid gid mtime length Later
entries for a path supersede previous ones. A line with the string
REMOVED in the mode field annuls all previous entries for that path.
The entries in a file are typically kept sorted by path but need not
be. These properties facilitate updating the database atomically by
appending to it. Compactdb reads in a database and writes out an
equivalent one, sorted by path and without outdated or annulled
records.
A replica is further described on the server by a textual log listing
creation and deletion of files and changes to file contents and meta‐
data. Each line is of the form: time gen verb path serverpath mode
uid gid mtime length The time and gen fields are both decimal numbers,
providing an ordering for log entries so that incremental tools need
not process the whole log each time they are run. The verb, a single
character, describes the event: addition of a file (a), deletion of a
file (d), a change to a file's contents (c), or a change to a file's
metadata (m). Path is the file path on the client; serverpath the path
on the server (these are different when the optional fifth field in a
proto file line is given; see proto(2)). Mode, uid, gid, and mtime are
the files metadata as in the Dir structure (see stat(5)). For deletion
events, the metadata is that of the deleted file. For other events,
the metadata is that after the event.
Updatedb scans the file system rooted at root for changes not present
in db, noting them by appending new entries to the database and by
writing log events to standard output. The -c option causes updatedb
to consider only file and metadata changes, ignoring file additions and
deletions. By default, the log events have time set to the current
system time and use incrementing gen numbers starting at 0. The -t
option can be used to specify a different time and starting number. If
the -u option is given, all database entries and log events will use
uid rather than the actual uids. The -x option (which may be specified
multiple times) excludes the named path and all its children from the
scan. If the -l option is given, the database is not changed and the
time and gen fields are omitted from the log events; the resulting out‐
put is intended to be a human-readable summary of file system activity
since the last scan.
Applylog is used to propagate changes from server to client. It
applies the changes listed in a log (read from standard input) to the
file system rooted at clientroot, copying files when necessary from the
file system rooted at serverroot. By default, applylog does not
attempt to set the uid on files; the -u flag enables this. Applylog
will not overwrite local changes made to replicated files. When it
detects such conflicts, by default it prints an error describing the
conflict and takes no action. If the -c flag is given, applylog still
takes no action for files beginning with the given names, but does so
silently and will not report the conflicts in the future. (The con‐
flict is resolved in favor of the client.) The -s is similar but
causes applylog to overwrite the local changes. (The conflict is
resolved in favor of the server.)
Applychanges is, in some sense, the opposite of applylog; it scans the
client file system for changes, and applies those changes to the server
file system. Applychanges will not overwrite remote changes made to
replicated files. For example, if a file is copied from server to
client and subsequently changed on both server and client, applychanges
will not copy the client's new version to the server, because the
server also has a new version. Applychanges and applylog detect the
same conflicts; to resolve conflicts reported by applychanges, invoke
applylog with the -c or -s flags.
EXAMPLE
One might keep a client kfs file system up-to-date against a server
file system using these tools. First, connect to a CPU server with a
high-speed network connection to the file server and scan the server
file system, updating the server database and log:
repl=$home/lib/replica
proto=/sys/lib/sysconfig/proto/portproto
db=$repl/srv.portproto.db
log=$repl/srv.portproto.log
9fs $fs
replica/updatedb -p $proto -r /n/$fs -x $repl $db >>$log
replica/compactdb $db >/tmp/a && mv /tmp/a $db
Then, update the client file system:
repl=$home/lib/replica
db=$repl/cli.portproto.db
log=$repl/srv.portproto.log
9fs $fs
9fs kfs
replica/applylog $db /n/kfs /n/$fs <$log
replica/compactdb $db >/tmp/a && mv /tmp/a $db
The $repl directory is excluded from the sync so that multiple clients
can each have their own local database. The shell scripts in
/rc/bin/replica are essentially a further development of this example.
The Plan 9 distribution update program operates similarly, but omits
the first scan; it is assumed that the Plan 9 developers run scans man‐
ually when the distribution file system changes. The manual page
replica(1) describes this in full.
SEE ALSOreplica(1)BUGS
These tools assume that mtime combined with length is a good indicator
of changes to a file's contents.
REPLICA(8)