Amarrando a bigorna no pescoço... vai pular...
Valeu pela atenção...
É o seguinte... Eu estou querendo fazer um servidor smb de HA.
Tenho dois micros identicos, com duas placas de 1GB uma eth1 e outra eth2. Já configurei o DRBD, e até o Heartbeat ontem mesmo. Os problemas que eu venho encontrando:
1-) Quando o Servidor1 desarma, o Servidor2 passa para primary, mas não monta o /dev/drbd0 no diretório /mnt/tudo, e tão pouco compartilha o mesmo através do smb (evidente, afinal não está montado)
Após uma porrada de alterações que eu fiz o que é que eu consegui?
2-) Quando o Servidor1 desarma, o Servidor2 não está mais passando para primary no /proc/drbd (resultado... piorou)
Abaixo meu drbd.conf
skip {
As you can see, you can also comment chunks of text
with a 'skip[optional nonsense]{ skipped text }' section.
This comes in handy, if you just want to comment out
some 'resource <some name> {...}' section:
just precede it with 'skip'.
The basic format of option assignment is
<option name><linear whitespace><value>;
It should be obvious from the examples below,
but if you really care to know the details:
<option name> :=
valid options in the respective scope
<value> := <num>|<string>|<choice>|...
depending on the set of allowed values
for the respective option.
<num> := [0-9]+, sometimes with an optional suffix of K,M,G
<string> := (<name>|\"([^\"\\\n]*|\\.)*\")+
<name> := [/_.A-Za-z0-9-]+
}
#
# At most ONE global section is allowed.
# It must precede any resource section.
#
# global {
# use this if you want to define more resources later
# without reloading the module.
# by default we load the module with exactly as many devices
# as configured mentioned in this file.
#
# minor-count 5;
# The user dialog counts and displays the seconds it waited so
# far. You might want to disable this if you have the console
# of your server connected to a serial terminal server with
# limited logging capacity.
# The Dialog will print the count each 'dialog-refresh' seconds,
# set it to 0 to disable redrawing completely. [ default = 1 ]
#
# dialog-refresh 5; # 5 seconds
# You might disable one of drbdadm's sanity check.
# disable-ip-verification;
# }
#
# this need not be r#, you may use phony resource names,
# like "resource web" or "resource mail", too
#
resource r0 {
protocol C;
incon-degr-cmd "echo '!DRBD! pri on incon-degr' | wall ; sleep 60 ; halt -f";
startup {
# Wait for connection timeout.
# The init script blocks the boot process until the resources
# are connected. This is so when the cluster manager starts later,
# it does not see a resource with internal split-brain.
# In case you want to limit the wait time, do it here.
# Default is 0, which means unlimited. Unit is seconds.
#
# wfc-timeout 0;
# Wait for connection timeout if this node was a degraded cluster.
# In case a degraded cluster (= cluster with only one node left)
# is rebooted, this timeout value is used.
#
degr-wfc-timeout 120; # 2 minutes.
}
disk {
# if the lower level device reports io-error you have the choice of
# "pass_on" -> Report the io-error to the upper layers.
# Primary -> report it to the mounted file system.
# Secondary -> ignore it.
# "panic" -> The node leaves the cluster by doing a kernel panic.
# "detach" -> The node drops its backing storage device, and
# continues in disk less mode.
#
on-io-error detach;
# In case you only want to use a fraction of the available space
# you might use the "size" option here.
#
# size 10G;
}
net {
# this is the size of the tcp socket send buffer
# increase it _carefully_ if you want to use protocol A over a
# high latency network with reasonable write throughput.
# defaults to 2*65535; you might try even 1M, but if your kernel or
# network driver chokes on that, you have been warned.
# sndbuf-size 512k;
# timeout 60; # 6 seconds (unit = 0.1 seconds)
# connect-int 10; # 10 seconds (unit = 1 second)
# ping-int 10; # 10 seconds (unit = 1 second)
# Maximal number of requests (4K) to be allocated by DRBD.
# The minimum is hardcoded to 32 (=128 kByte).
# For high performance installations it might help if you
# increase that number. These buffers are used to hold
# datablocks while they are written to disk.
#
# max-buffers 2048;
# When the number of outstanding requests on a standby (secondary)
# node exceeds unplug-watermark, we start to kick the backing device
# to start its request processing. This is an advanced tuning
# parameter to get more performance out of capable storage controlers.
# Some controlers like to be kicked often, other controlers
# deliver better performance when they are kicked less frequently.
# Set it to the value of max-buffers to get the least possible
# number of run_task_queue_disk() / q->unplug_fn(q) calls.
#
# unplug-watermark 128;
# The highest number of data blocks between two write barriers.
# If you set this < 10 you might decrease your performance.
# max-epoch-size 2048;
# if some block send times out this many times, the peer is
# considered dead, even if it still answers ping requests.
# ko-count 4;
# if the connection to the peer is lost you have the choice of
# "reconnect" -> Try to reconnect (AKA WFConnection state)
# "stand_alone" -> Do not reconnect (AKA StandAlone state)
# "freeze_io" -> Try to reconnect but freeze all IO until
# the connection is established again.
# on-disconnect reconnect;
}
syncer {
# Limit the bandwith used by the resynchronisation process.
# default unit is kByte/sec; optional suffixes K,M are allowed.
#
# Even though this is a network setting, the units are based
# on _byte_ (octet for our french friends) not bit.
# We are storage guys.
#
# Note that on 100Mbit ethernet, you cannot expect more than
# 12.5 MByte total transfer rate.
# Consider using GigaBit Ethernet.
#
rate 100M;
# All devices in one group are resynchronized parallel.
# Resychronisation of groups is serialized in ascending order.
# Put DRBD resources which are on different physical disks in one group.
# Put DRBD resources on one physical disk in different groups.
#
group 1;
# Configures the size of the active set. Each extent is 4M,
# 257 Extents ~> 1GB active set size. In case your syncer
# runs @ 10MB/sec, all resync after a primary's crash will last
# 1GB / ( 10MB/sec ) ~ 102 seconds ~ One Minute and 42 Seconds.
# BTW, the hash algorithm works best if the number of al-extents
# is prime. (To test the worst case performace use a power of 2)
al-extents 257;
}
on Servidor1 {
device /dev/drbd0;
disk /dev/sda3;
address 10.0.0.1:7788;
meta-disk internal;
# meta-disk is either 'internal' or '/dev/ice/name [idx]'
#
# You can use a single block device to store meta-data
# of multiple DRBD's.
# E.g. use meta-disk /dev/hde6[0]; and meta-disk /dev/hde6[1];
# for two different resources. In this case the meta-disk
# would need to be at least 256 MB in size.
#
# 'internal' means, that the last 128 MB of the lower device
# are used to store the meta-data.
# You must not give an index with 'internal'.
}
on Servidor2 {
device /dev/drbd0;
disk /dev/sda3;
address 10.0.0.2:7788;
meta-disk internal;
}
}
meu ha.cf
debugfile /var/log/ha-debug
logfile /var/log/ha-log
logfacility local0
keepalive 2
deadtime 30
warntime 10
initdead 120
udpport 694
bcast eth1 # Linux
auto_failback on
node Servidor1
node Servidor2
apiauth ipfail gid=haclient uid=hacluster
# respwan hacluster /usr/lib/heartbeat/ipfail
auto_failback off
meu haresourses
Servidor1 10.0.0.1 smb drbddisk
Por hora agradeço muito.... Até mais.