JMP105 - "How Stuff Works" - Domino Style!
-
Upload
nerdgirljess -
Category
Technology
-
view
12.502 -
download
0
Transcript of JMP105 - "How Stuff Works" - Domino Style!
JMP105 How Stuff Works -
Domino Style!
Jess Stratton| Independent Consultant| SolaceSusan Bulloch| Support SWAT Engineer| IBM
Who are Jess and Susan?
Susan Bulloch15+ years working with IBM Lotus Domino and Notes and related products12 years with IBM
Support SWAT EngineerHigh touch, often on-site analysis/repair work
Technote/whitepaper/wiki article author
Certifications
Part time blogger notesgoddess.net
Jess Stratton10+ years working with IBM Lotus Domino and Notes as a developer and administrator
Blogger, tweeter (@NerdGirlJess)
Written technical articles and been a contributing author for textbooks
Currently an independent consultant!
What are we learning, here, today?
We are learning how the basic principles of how many modules of an IBM Lotus Domino Server work.
This presentation is modeled after the brilliant example of HowStuffWorks.com
From HowStuffWorks.com:
"Our premise is simple: Demystify the world and do it in a simple, clear-cut way that anyone can understand."
How HowStuffWorks.com works...
Agenda
How Notes Named Networks workHow Replication worksHow Cross-Certifying works
How Connection Documents workHow Clustering worksHow View Indexes work
How Mail Routing worksHow Busytime worksHow Transaction Logging works
How Domino Domains workHow Agent Manager worksHow Program Documents work
How SMTP worksHow AdminP worksHow Smart Upgrade works
How Access Control Lists workHow ID Files workHow Readers fields workHow Recertifying works
How Notes Named Networks Work
IN THIS SECTION
Introduction to Notes Named Networks
Routing and Notes Named Networks
Users and Notes Named Networks
Setting the Notes Named Network
Introduction to Notes Named Networks
In Domino, the Notes Named Network (NNN) that a server is on defines what other Domino servers it can see.Each server on the same NNN is running the same LAN protocol.TCP, SPX, NetBEUI, etc.
Each of those protocols runs on a different port.The available ports to choose from is taken from the Ports list in the server's Notes.ini.
For example, cluster servers are frequently connected via dedicated cable and running on their own NNN.
If a Domino server is on a different port, running a different protocol, it cannot be on the same NNN.How would the servers know how to talk to each other?
Introduction, cont.
Domino servers can have multiple NNN's.
While other uses are possible, the primary usage for having Notes Named Networks is for mail routing scenarios.
Routing and Notes Named Networks
It's simple: Domino servers running on the same NNN can route mail without the need for connection docs.Remember they are running on the SAME port and protocol.There still has to be all that DNS magic behind the scenes to make sure they really CAN talk to each other, though!
Domino servers running on different NNN's can still route mail, but connection documents must be in place.Because they are running different network protocols, the connection document will tell the servers how to find each other.
They can use a bridge to find each other:An intermediary Domino server running a second matching NNN.
Users and Notes Named Networks
When users open a database and browse Other in the server list, the list of server names that will automatically show up are those servers in the same NNN as the user's home server!
When users find a replica of a database, it will automatically find replicas of databases also based on servers in the same NNN as the user's home server.
Setting the Notes Named Network
Make sure the port is first set up and available in Notes.ini of all servers that will use it.
In the Server doc, go to the Ports-->Notes Network Ports tab.
Enter the port name. Domino will automatically set the protocol.
Enter the Notes Network name.Best to put in the protocol and what it's for, ie. TCPIP Cluster
Enter the net address of the port. This MUST be reachable by other servers that will use the port for routing!
Finally, enable the port.
How Connection Documents Work
INSIDE THIS SECTION
Intro to Connection Documents
Keeping it Simple
Tips and Gotchas
Intro to Connection Documents
Connection documents provide servers with the information necessary to connect to other servers for mail routing and replication purposes.
A connection document provides two types of informationNetwork informationDefines which server to connect to
How that connection is made and what protocol to use
Schedule information. Defines when and how often activities are performed
Replication and routing to a particular server
For Mail Routing, two documents are requiredOne for each server
Unless the servers are in the same Notes Named Network (NNN)
For Replication only one document is requiredAnd it can be one of the mail routing documents
Keeping it Simple
Servers in different NNNs only route mail on schedule As defined in the Connection document
Plan accordingly
Keep the number of connection documents between servers to a minimum
Design your mail routing topology so that servers are grouped into Notes Named Networks for routing without connection documentsImplement a hub-and-spoke replication topology to keep connections simple
This will help you avoid nasty troubleshooting problems
Tips and Gotchas
Most code that needs information in Connection docs looks to the same placeA hidden view called $Connections
If the information in this view is stale, stuff won't work
Like mail routing!
Never, ever mess with the design of the views in your DirectoryBad things can happen
Make sure the View Indexes stay current
How Mail Routing Works
INSIDE THIS SECTION
Introduction to mail routing
Basic Mail Routing
The Routing Table
Routing Mail Efficiently
Transfer Queues and mail.box
Intro to Mail Routing
Mail Routing for Lotus Notes uses the server task RouterLotus Notes can transfer NRPC (Lotus Notes) and SMTP (Internet) mailWe'll discuss NRPC mail
The router creates and controls the mail.box(es)
Uses them to process messages
All mail goes first through a mail.boxClients can deposit mail there
Other servers can deposit mail there
Router performs Message Transfer Recipient is on another server
Router Performs Message DeliveryRecipient is on the same server as the mail.box
Router depends on a routing tableIt tells where to send the mail
Basic Mail Routing
The Router task initializes For example, at server startup
After a restart command
Router builds the routing table,
Router determines the maximum number of threads to allocate
Router checks MAIL.BOX. If the Router finds new or changed messages in mail.boxIts main thread builds the main message queue
The message queue contains An entry (a list item) for each new or modified message
Summary information about the messageRecipients, destination, date sent, etc.
After building the message queue, the main thread dispatches each message in the queue
The Routing Table
Routing tablesUse Connection documents, Domain documents, and Server documents in the Domino Directory,
Settings in the server notes.ini file
Router builds the routing table and determines which servers are connected
The Router periodically checks certain views in the Domino Directory for edits and additions to the documents $Connections, $Domains, and $Servers
The Router does not pick up a change until one of the views changes If you change a value in the Server document, the Router is not aware of it until the view refreshes
View indexing is important!
The Routing Table (con't)
By default the router polls for changes every 5 minutesUse "Tell router update config" to process changes immediately
Or restart the router task
Global Domain Document settings are changed only on server restart
Router basically builds a graph Of all servers in the domain
Plus all servers that use Adjacent domain documents to connect to other domains
In a format that ensures fast lookups.
The Router tries to check the views before dispatching each message. If it finds changes, it reloads the routing table.
To view the routing tabletell router dump routingtables
Since Version 8.5.1
Routing Mail Efficiently
When Router finds users that are on the same server as the mail.box holding the messageIt marks the message for local delivery
Delivers the message to one or more mail files on the server
When Servers are in the same Notes Named Network (NNN), mail is transferred to the server without using connection recordsRemember this when planning connections
When the transfer thread connects to MAIL.BOX on a server, it performs a NoteUpdate that temporarily locks MAIL.BOXIf a large message is being delivered, the opportunity for a logjam occurs
If there are multiple MAIL.BOX databases on the destination serverA transfer thread can move to an available MAIL.BOX if one MAIL.BOX is locked
Multiple transfer threads and multiple MAIL.BOX databases on the receiving server result in faster processing of messages for that destination
To deliver a message, the thread performs a DatabaseOpen call to the mail file, uses a NoteUpdate to deliver all messages pending delivery to that mail file, and closes the sessionThe main thread creates a queue in matrix form for each mail file. One axis of the matrix shows messages for delivery, and the other axis shows the local mail files on the server
A delivery thread handles delivery to each mail file. After the delivery thread delivers a message to a recipients mail file, it marks that recipient Complete and deletes the message from the delivery queue.
The Router updates the main message queue with this state information and removes that recipient and that message as work items.
Transfer Queues and mail.box
Message Transfer queues are in-memory queues that move a message from one server to another.Each transfer thread handles a single message for a single destination, but deals with all recipients of that message at that destination
The sending server tries to transfer as many pending messages to a destination as possible over an open connection for maximum efficiency
Sending servers only use multiple threads to a single destination if the connection is fast enough
Use Tell router show to see the transfer queuesThe console displays the destination, number of messages pending, and state for each active transfer queue.
You can sometimes see your slow connections!
How Domino domains work
IN THIS SECTION:
What is a Domino domain used for?
What do servers in a domain share?
What are the types of Domino domains?
What is a Domino domain used for?
A Domino domain is a group of Domino servers that share a Domino Directorynames.nsf
A Domino domain can be used to control several things:Server access
Domino server groups
Clustering
Mail routing
A Domino domain is specified at the end of a user's common name, org units, and certifier.Jessica Stratton/Qualinesti/Solace@Solace
What do Domino servers in a domain share?
BusytimeOr clubusy.nsf if they are clustered (more on that later!)
The Domino Directorynames.nsf
The Administration Processadminp.nsf
Monitoring
The Certification Log
These databases need replicas of each other on each server in the domain!
What are the types of Domino domains?
Adjacent Domain documentThese are most commonly used to restrict or allow mail to be sent to/from Domino servers through Domino domains.
Non-adjacent Domain documentThese are used when a bridge Domino domain is used to connect two Domino domains not connected via Connection documents.
These can be used for next-hop instructions, and also restriction/allow rules.
Calendar servers can be specified here for free-time lookups between domains
Foreign Domain documentThese are used to specify a routing link between Domino and a non-Domino application, such as a fax gateway.
Foreign SMTP Domain documentUse these when a Domino server does not use SMTP and needs to locate a next-hop server for DNS lookups to route outbound Internet mail.
How SMTP Works
IN THIS SECTION
Introduction to SMTP
Configuring an Internet domain for SMTP
Configuring Domino for SMTP
What happens when a message is sent
What happens when a message is received
Introduction to SMTP
SMTP stands for Simple Mail Transfer Protocol.
In its simplest form, mail is sent from one server directly to another over port 25.
Configuring an Internet domain for SMTP
A domain name, once registered, needs certain records placed in the Domain Name System (DNS).An A record, or host record, tells DNS what IP address is matched to your domain over port 80, to get to a website.
An MX record, or mail exchange record, tells DNS what IP address is matched to your domain over port 25 for the SMTP protocol.
These records do not have to go to the same server.
So basically, whatever IP address you set your MX record to, MUST have an SMTP-enabled server that is listening on port 25.Which, fortunately, Domino is!
Configuring Domino for SMTP
Domino must be configured to SEND mail (the Router task), and RECEIVE mail (the SMTP listener task).
Domino must have a Mail.box, or multiple Mail.boxes.
To SEND mail:Make sure DNS is set up correctly from Domino
Enable SMTP to be used outside the local Internet domain (Config doc)
Specify a relay host when sending message outside the local domain (Config doc)
Set up mail relay restrictions to avoid spammers (Config doc)
Set up outbound email address format (Domain doc)
To RECEIVE mail:Enable the SMTP listener task (Server doc)
Populate your Domino Directory with usernames and Lotus Notes as their mail system.Each name must have an Internet address specified, and a physical .nsf mailbox
What happens when a message is sent
Domino checks the message format for a @ format, which is how it knows how to look up the domain name over the Internet through DNS, rather than routing it internally.
The Router task looks up the least-cost route to a Domino server that has SMTP allowed for all messages.
If enabled, the Router task converts the message to MIME format.
DNS looks up the MX record for the , which returns an IP address.Domino says, OK, now I know where to deposit the email.
Domino then initiates a conversation with the server at that IP address, over port 25.It connects to the server, and deposits the message.
The connection is closed, as the transaction is now over.
A conversation between two servers...
The sending server's conversation with the receiving server is via a shared language. A text line is sent, and a reply is sent by the receiving server.
This happens with EVERY outbound email through Domino!
What happens when a message is received
The SMTP listener task listened, and had a conversation with an incoming mail server through the Router task.
The Router picks up the incoming message and deposits it into Domino's mail.box
The Router looks up the incoming address against the $Users view in the Domino Directory.
If it finds a match (and there are no restrictions against the address in the Configuration document) it looks up the user's home server in their Person document.
The routing tables finds the least-cost path to deposit the message in the mail.box of the user's home server.
Finally, the home server's Router task looks up their mail file in their Person document, and if the server has sufficient access in the ACL, deposits the message into the database.
How ACLs Work
IN THIS SECTION
Introduction to the access control list
The access levels and user types
Roles and readers fields
Enforcing a consistent access control list
The maximum Internet name and password
Understanding -Default-
Introduction to the Access Control List
The access control list is a property of EVERY Lotus Notes database that controls who can read and write documents, change the design, and manage the physical database.
Because every aspect of Domino Administration is database-driven, the ACL is the first step in troubleshooting any issue.The Administration Process is a database, admin4.nsf
The Domino Directory itself is a database, names.nsf
Replication success relies on the servers having the proper access
Busytime/calendaring and scheduling relies on being able to access user calendars
The access levels and user types
There are 7 access levels of a Lotus Notes database.Each level higher gets all the rights of the levels below it.
A user can never be granted more rights in a database than what's been given to them in the ACL, no matter how the database is designed or what the Domino Directory says about them.
There are switches to fine-tune each access level, also called privileges.
The seven access levels:
NO ACCESSYou cannot access the database. Period!
DEPOSITORYou can only create documents into a database, you cannot read them.
READERYou can only read documents in a database, you cannot deposit them.
AUTHORYou can create documents, but read only documents you've created.
You can read documents that you are listed in an Author's field.
You may not be able to create documents, but you can edit any document in which you are listed in an Author's field.Creating documents is a privilege for the Author access level.
The seven access levels (cont)
EDITORCan create and edit all documents.
Can delete documents if given fine-tuned permission.
DESIGNERCan create design elements, including LotusScript agents.
Designers can also create shared agents.
MANAGERCan delete the physical database.
Can add/edit the database access control list
The five user types
There are 5 user types, in addition to the access levels.
These are so Domino knows what ID file type it should be expecting to go along with a name/Certifier combination.
Leaving a user or group as Unspecified in the ACL will make it possible for a user to create a local group titled as a person's name to gain higher access.
The five user types (cont)
PERSON & PERSON GROUPThe server knows what groups you are in before you even try to access a database.
If you have a local group that is the same name as a person, you won't be able to access the database by that group name.
SERVER & SERVER GROUPThis settings can lock down databases who should only be accessed via back-end processes, as only an ID of type Server, or a group whose membership is only servers can access it this way.
MIXED GROUPUsers, groups, and servers can have access, as long as it is one of those three.
This allows you to cover your bases, and not leave an entry as Unspecified.
Roles and Readers fields
Roles are a sub-group that can only be used in the scope of the database it's listed in.
Roles can be added to a database for form/document development.Hide/Whens can be tested on Role membership.
Readers fields can be populated by Role membership.
First you create the role, then you assign ACL entries to the role.You can add servers to roles, also!
In fact, this is crucial for Readers fields!
Enforcing a consistent access control list
With the option Enforce a consistent access control list selected, a local database replica's ACL can NEVER change a person to higher rights than they have on the server replica.If you TRY and change the ACL locally to give yourself higher rights, all replication to and fro the database will stop!
This prevents local ACL changes from propagating back up to servers and being replicated around an organization.
Also, Readers fields will not be honored on local databases UNLESS this value is checked.
The maximum Internet name and password
This option was created as a security feature to ward off potential database pitfalls over the web.What does a user need to do to a database while accessing it over the web that would require Designer or Manager access?
Even background agents online use server access to run.
Why open a can of worms?
Understanding -Default-
Any user that accesses a database and is NOT assigned an access level will get what you have specified as -Default- access.Setting it to No Access will not let anyone in if they are not explicitly listed in the ACL as either a person or as group membership.
Setting it to Reader will allow anyone who access it to read the contents, rather than putting in an entire organization's group membership in the ACL.
This will vary depending on the database!
Use Anonymous to cover any Internet user who has not authenticated.There may be a reason for this to be different than Default access.
If you don't use Anonymous, Default is used.
How Readers Fields Work
INSIDE THIS SECTION:
Introduction to Readers fields
When would you use Readers fields?
Readers fields vs. other security measures
How do you implement Readers fields?
What are some common gotcha's with Readers fields?
Introduction to Readers fields
Readers fields are a field type that explicitly states who can read documents created from the form the field is currently located on.
Some other field types are:Text
Date/Time
Number
...etc.
The contents of a Readers field can be Usernames, Groups, or Roles that have been created in the current database's ACL.
When would you use Readers fields?
Readers fields are used when you need to hide documents for certain users.If a user is not listed in the Readers field, then to them, the document doesn't exist in the database!It is, however, counted in the Document Count field in Database Properties.
Readers fields are used when you need TRUE document security in Lotus Notes.There is no backdoor access, unless you are listed as a Full Access Administrator.
There is no changing to another view.Well, you CAN, but the document won't be visible in that view, either.
There is no right-clicking on Document Properties to see field values.Why? Oh yeah there is no document!
If your ID file Username is not listed in a Reader field, you don't even know about the document!
Readers fields vs other security measures
Controlled-Access sectionsThese use ACL and Group memberships to control who can expand a section on a document.
View Access Just because a user can't access a VIEW does not mean they can't access a document.
Hide/When field formulasThis data is still easily viewable by the Fields tab in document properties!
Readers fieldsThese are considered true security measures as it trumps the database ACL.A user can be listed as a Manager in the ACL and not see documents if they are not listed in the Readers field on a document.
We will cover this in the gotcha's section!
It will only taketh away; you cannot grant a No Access user access by listing them in a Readers field.
How do you implement Readers fields?
Create a new field on a form and give it a field type of Readers. Make sure it is a multi-value field.
Add allowable readers of the document using any of the following, separated by a :Roles in the ACL (recommended)
Explicitly listed user names in Canonical format
Groups
Other field names on the same form containing resolvable names.
Some examples:Administrators:CN=Jessica Stratton/O=Solace:[HR]
What are some common gotcha's of Readers fields?
HELP! I'm the administrator and I locked myself out of all the documents!Always create a role in the ACL called [Admins] and give the following items the role:The database admins
LocalDomainServers
The Administration server
This role should be your first entry in the Readers field list!
You can also take Full Access Administrator to grant yourself access.
The documents aren't replicating to other servers, even though I can see them all!See item #1.
All servers need to be listed as allowable readers too, otherwise the documents are invisible to them, too.
Common gotcha's (cont.)
Abbreviated names will not work. Canonical is best!GOOD: CN=Jessica Stratton/O=Solace, Jessica Stratton
BAD: Jessica Stratton/Solace
Readers fields aren't being honored in local replicas!Enforce a consistent ACL must be enabled in the ACL in the advanced properties tab.
How Replication Works
INSIDE THIS SECTION
Introduction to replication
Preparing for a replication infrastructure
Implementing replication
Ways to initiate replication
The science behind replication
Deletion stubs and replication
Introduction to replication
A database replica is a special copy of a database on another server, or local workstation.It shares a common property called the replica ID that even an OS filecopy will retain.The only way to break the replica is by creating a new copy instead. This will issue a new replica ID to the database.
Databases can have different titles, filenames, even a different design template.But if they share a replica ID, they can replicate!
Introduction to replication (cont)
When change is made in a database, the change can be propagated to any other replicas of the same database. So any user on any server who needs an up-to-date version will always have it.
The changes are propagated most often by Connection documents in the Domino Directory between servers. You can schedule the connection documents on any interval, and even have multiple schedules according to database priority.
In the database replication settings, you can specify a subset of documents to replicate, say, for a particular physical work location.
Introduction to replication (cont.)
If you have multiple servers, they need to replicate common databases even if you have no production databases that are used by users.
Remember: servers need to replicate, even if users don't!
Servers in the same domain share:Names.nsf (The Domino Directory)
Adminp.nsf (The Administration Process)
Certlog.nsf (The Certification Log)
... more.
These databases need to stay in sync!
Preparing for a replication infrastructure
Make sure both servers have a level of access at least as high as they need to each databases they need to replicate.
If any form in the database that will replicate has Readers fields, make sure the servers are listed in those fields.
The Replicator server task should be listed in the Notes.ini file under ServerTasks.This task is enabled by default!
Create connection documents, specifying:What database will replicate
When they will replicate, and how often the replication interval will be
Which server initiates the replication
Preparing, cont.
The following are types of replication in the connection document:
Pull-PushOne server first pulls changes, then pushes its changes to the second.
Pull-PullOne server pulls the changes, then the other server pulls the changes.
Push-OnlyOne way replication in which the initiating server pushes changes to the second.
Pull-OnlyOne way replication in which the initiating servers pulls changes from the second.
Table of server access levels for replication:
(from Notes Help)
Access levelAllows a server to push these changesAssign to
ManagerACL settingsDatabase encryption settingsReplication settings All elements allowed by lower access levelsServers you want to use as a source for ACL changes. For tight database security, give this access to as few servers as possible. In a hub-and-spoke server configuration, you typically give the hub server Manager access.
DesignerDesign elementsAll elements allowed by lower access levelsServers you want to use as the source for design changes. Use Manager access instead if you want one server to control ACL and design changes.
EditorAll new documentsAll changes to documentsServers that users use only to add and modify documents. In a hub-and-spoke configuration, you typically give the spoke servers Editor access.
AuthorNew documentsNo servers. You don't typically use this access for servers.
ReaderNo changes; server can only pull changesServers that should never make changes. Servers in the OtherDomainServers group are often given Reader access.
DepositorNew documents. Also prevents the server from pulling changes.No servers. You don't typically use this access for servers.
No AccessNo changes. Also prevents the server from pulling changes.Servers to which you want to deny access. Servers in the OtherDomainServers group are sometimes given No Access.
Implementing Replication
After database ACLs are set, Connection docs are created, and the replica task is running, replicas must be created on the second server.
What are some ways to get replicas on the second server?ManuallyFile-->Replication-->New Replica
OS copy/pasteWindows Explorer via mapped drive
Or, USB stick into the Data directory of the second server
From the Administrator ClientGo to the Files tab
Highlight all databases to be copied
Select Database-->Create Replica(s) from the right Tools pane.
Ways To Initiate Replication
Manually at the Domino consoleSome server console command examples:Replicate Server1/Acme
Replicate Server1/Acme names.nsf
Push Server1/Acme names.nsf
Pull Server1/Acme
From the database iconReplication-->Replicate
From scheduled Connection documents
From Program documents
The Science Behind Replication
It starts when scheduled replication begins, and the Replicator task springs into action!
Then, each server makes sure they can authenticate with each other through matching, signed certificates.
The initiating server searches the second server for databases.It constructs a list of databases that contains matching replica IDs on each server.
The initiating server looks at the replication history to find the last time the two replica databases replicated.
The initiating server looks at its own database for changes since that last time.The Replicator task performs a special search on the database.
The search results are a list, containing the Originator IDs of all the documents that have been modified.The Originator ID is a long string containing the doc UNID, a sequence number (how many times the doc has been modified), and a timestamp when it was last modified.
The Science (cont)
The initiating server's Replicator task then performs another search on the second server, using the UNIDs from the modified docs of the initiating server.It compiles a list of the Originator IDs, just like it did from the first server.
Now that the Replicator task has two OIDs for the same document on each server, it compares them. If it can't find a matching OID for a document, then it is a new document and must be pushed to the server that doesn't have it.
If the OIDs are the same, no changes have been made to either document.
If the OIDs are different, the Replicator task looks at the contents of the $Revisions field on each document.(The $Revisions field gets updated during replication so it will be cleared for next time)
The revision history tells the Replicator task whether a conflict exists.
The Science (cont)
If a conflict exists, the Replicator task checks for a $ConflictAction field.If $ConflictAction contains 1, then the database properties has Merge replication conflicts set and the changes can be merged successfully.HOWEVER If the sequence number tells the task that the same field has been changed, a merge can not occur no matter what, and a replication conflict will still occur!
The document with the most recent time stamp in its sequence number is the winner. The other document is the loser and is the conflicting document.
The same tests occur during replication for design elements, but the loser's changes are simply removed, there are no conflict documents created.
Deletion Stubs and Replication
Deletion stubs remain in a database after a document has been deleted. It's to let the Replicator task know to also remove the document from a replica database.As long as Deletions is checked off in the Remove incoming: field in Replication settings.
You can specify how long deletion stubs will remain in the database before they are purged.If the database replicates AFTER the deletion stub is gone, the Replicator task will not know to delete the document from the second server.
Worse, it will think the still-existing document in the second database is a new document and replicate it back over again.So now, the first database will have the deleted document re-appear.
How Clustering Works
INSIDE THIS SECTION
Introduction to clustering
Cluster Manager
Other Clustering Tasks
The Cluster Replicator Task
Tweaking CLREPL
How all this Cluster Stuff Works
Intro to Clustering
A cluster is a group of two or more servers That provides users with constant access to data
Balances the workload between servers
Improves server performance
There are several components that make clustering functionThe Cluster Manager
The Cluster Database Directory
The Cluster Database Directory Manager
The Cluster Administrator
The Cluster Replicator
AdminP
Cluster Manager
Cluster Manager runs on each server in a clusterWhen it starts, the Cluster Manager Looks in the ClusterName field in its Server document for its cluster name
Then looks at the cluster membership list for the names of the other servers
It maintains this information in memory in the server's cluster name cache
Each Cluster Manager exchanges messages (probes) with the other servers in the clusterCluster Manager uses the NSPingServer command to probe the other clustermates
The Cluster Manager issues the NSPingServer command once every minute by default Change with Server_Cluster_Probe_Timeout NOTES.INI setting
Cluster Manager
The cluster name cache contains the following information:The name of the cluster
The names of the servers in the cluster
The server availability index of each cluster server, sorted by the most available first
The state of the server if it is BUSY, MAXUSERS, or RESTRICTED
The cluster probe timeout value
When a session is closed (server or client), this is saved to cluster.ncf This file populates the cache initially on restart
This file has been known to contain erroneous data
To see what's in the cluster name cache, type show cluster at the consoleOr open with a text editor
Other Clustering Tasks
The Cluster Database Directory (CLDBDIR.NSF) is on each server in a clusterIt contains a document for each database and replica in the cluster.
Contains the database name, server, path, and replica ID, and other info
The Cluster Database Directory Manager task (Cldbdir) Creates the Cluster Database Directory and keeps it up to date
But sometimes the database has stale dataNote that the first hint you have of this is the Resource Reservations system stops working!
Since version 8.5, cldbdir runs automatically on clustered serversAll earlier versions need this in servertasks
The Cluster AdministratorDoes the housekeeping
Adds/removes databases and clustermates
The Cluster Replicator task
The Cluster Replicator task (clrepl) keeps the data in sync within the clusterWhenever a change occurs clrepl immediately pushes the change to the other replicas in the clusterBy default, one clrepl runs per server, but you'll want moreCluster_Replicators=
The Cluster Replicator gets it information from CLDBDIR.NSF If that info is wrong, clrepl has a problem
The Cluster Replicator task pushes changes only to servers in the clusterThe standard Replicator replicates changes to and from servers outside the cluster
This is high traffic stuff, so use a dedicated LAN connection for this trafficYour users will thank youOr they just won't hurt you
Tweaking CLREPL
Pausing Cluster ReplicationWhen you pause cluster replication vs stopping it, it retains the data it has in memory
Use tell clrepl pause/resume
By default, clrepl polls for changes every 15 secondsIf you feel your servers can handle it, try this
CLREPL_POLL_INTERVAL=10
How All this Cluster Stuff Works
With all clustermates up and running correctly, nothing happens
When one server goes downMail routing uses the information in the cache to determine which clustermate gets the mail meant for that server
When a user requests something from a server that's downThe local cluster.ncf data is used from the cache to find the next available server
How Busytime Works
INSIDE THIS SECTION
Intro to Busytime
How it works
Where it looks
Clustering Busytime
Doing a Free Time Search
Tips and Gotchas
Intro to Busytime
The busytime system is responsible for tracking the availability of people and resourcesTwo tasks populate busytime
Schedule Manager (Sched) and Rooms and Resources Manager (RnRMgr)
One task communicates between servers (calconn)
If busytime ain't happy, nobody's happyUsers, Rooms, Resources, all depend on busytime being correct
Intro to Busytime (con't)
When not in a clusterEach server contains a Free Time database (BUSYTIME.NSF)
It includes scheduling information for all users and resource databases (RRDB) on that server
In a clusterThere is one Free Time database for all users and RRDBs whose servers are in the cluster (CLUBUSY.NSF)
Every server in the cluster contains a replica of this database
Since the replicaID must be unique to the cluster, its not like other system databasesThe replicaID is not taken from the Directory
Its taken from the CLREPLID field in the server documents
How it Works
Schedule ManagerScans and processes any database that has a calendar profile and a calendarIt does this at 2 AM or when the server is restarted
Uses fields in Person documents to determine where the database is located (which server) and the databases file name
If schedule manager finds a database with a valid calendar profile and a calendar, It creates a record in busytime.nsf
When databases have calendar entries, Sched stores them in busytime.nsf and, as appropriate, marks time as busy
If a database exists and has no matching person document, Sched lets you know itSchedMgr: Error processing calendar profile document (NoteID: NT00000926) in database mail\ABCDEFG.nsf: Cannot find user in Domino Directory
This means that the calendar profile was not validThis user will not go into busytime.nsf
How it Works
Rooms and Resources ManagerRuns first if both Sched and RnRMgr are on a serverRnRMgr looks for any database with a Room/Resource profile document
But it looks at all databases with a profile document along the way
Also validates the profile, creates a record in busytime.nsf and marks times as busy
RnRMgr uses fields in the Resource documents in the Directory to validate againstSchedMgr: Error processing calendar profile document (NoteID: NT001568EA) in database resource.nsf: Cannot find user in Domino Directory
This means that no resource document exists in the Directory for this resourceThat's REALLY bad
Where it Looks
Validation of Users and Resources is done in one place$Users View in the Domino DirectoryThis must be kept up to date
Good place to start when troubleshooting!
Certain fields are required in order to add users/resources or free timeIf any of the fields are incorrect, errors will occur
For Sched In Person Documents User Name Field: FullName = $busyname in the calendar profile of the mail database Canonical format
MailServer Field = server the busytime task is running on
MailFile = correct mail file for the user
CalendarDomain (Miscellaneous tab): Used if user is on a non-Notes calendar systemIf this field is used, sched will not list the person in the busytime.nsf.
ForwardingAddress: If used, user is not listed in busytime
Where it Looks (con't)
RnRMgr looks in $Users view alsoSearches for Resource forms
The field names are the same FullName = Resource or Room NameMust be canonical and match the value on the Resource Document in the RRDB
MailServer = Home server of the RRDB
MailFile = Name of the RRDB (with path)
Manually editing Resource documents is a major cause for problemsBe vewwy careful if you must do this
Spaces are hard to see
Clustering Busytime
When you add a server to the cluster,Sched deletes BUSYTIME.NSF and creates CLUBUSY.NSF When removing a server from the cluster, it does the reverse
It then replicates with the other servers in the cluster
Rebuilding clubusy.nsf if very difficult to do rightAnd when needed, it must be done right
Check the create date on all copies in the cluster
There should be no duplicate entries
There should be no rep/save conflicts
Doing a Free Time Search
When a user searches for free time for another user or roomThe user's home server looks at the $Users view for the requested User/Room
Determines whether to look in its own BUSYTIME.NSF or ask CalConn to go fetch from another server
Or whether to pass the request off to an outside systemBut that's beyond the scope of this session
When a user in a cluster looks for free timeThe server looks in its own CLUBUSY.NSF first if other users are on clustermates
For users whose mail servers are outside the cluster, CalConn sends out for the information
When a user outside a cluster makes a request about a user in a clusterThe request fails over to another server in the cluster if the user's mail server is unavailable
Tips and Gotchas
Easy troubleshooting tip
If theres a gray line where there should be informationTouch that gray line with your mouse and look at the bottom of your screen
The message usually tells you whats wrongIn this case, the system couldnt find Jess
Tips and Gotchas
RnRMgr and Sched respond to the same Tell commands
Tell Sched Val does nothing usefulUnless followed immediately with Tell Sched Check
Tell Sched Show User Name/OU/O Dumps the information the server has about the user's appointmentsThis may not match calendar
Tell Sched List User Name/OU/O Shows what the server thinks is the user's preferencesAgain, this may not match reality
How Agent Manager Works
INSIDE THIS SECTION
Intro to Agent Manager
Queues and Rights
When it Works
Keep an Eye on Stuff
Tips and Gotchas
Intro to Agent Manager
Agent Manager is the server task that manages and runs agents on a server. It determines who can run agents, Where they should run
When they should run
It handles Scheduled and Event-driven agents (there are other kinds)
It sets up the context for the agents to run in, It checks security,
Handles loading, invocation, caching, error reporting, and logging
The Agent Manager runs by default on a server
Depending on the type of agentAgent Manager may perform database operations for simple actions, evaluate formulas, or call back-end classes
For event-triggered agents, the Agent Manager monitors events and then determines when the agents should be invoked
It also watches the clock and invokes scheduled agents when the right time comes.
Queues and Rights
The Agent Manager has three different queues One queue for agents that are eligible to run (E)
Another queue for agents that are scheduled to run (S)
A third for event-triggered agents that are waiting for their event to occur (V)
Scheduled and Event-triggered agents stay in their queue until its time to runThen they move to the eligible to run to wait for their turn
The creator or signer of the agent must have the rights to run on the server and the databaseRights are set in the Server document as well as the database ACLs
When it Works
Agent Manager periodically checks to see if it has any new agents that it needs to schedule. Two environment variables control how quickly an agent gets into the queue:AMgr_SchedulingInterval specifies a delay (in minutes) between running of the Agent Manager's scheduler. Valid values: one minute to 60 minutes. The default value is one minute.
AMgr_UntriggeredMailInterval specifies a delay (in minutes) between running of the Agent Manager's check for untriggered mail. Mail is "untriggered" when it's added to a database through replication, which does not cause a new mail trigger to fire.
Valid values: one minute to 1440 minutes
The default value is 60 minutes.
The variables are tunable depending on your needs
When it Works
Scheduled agents are executed in the order in which they are found in the queue by Agent Manager.If more than one agent in a database is scheduled to run at the same timeThe one that is saved and enabled first will be more likely to go into the queue first and therefore be executed first
Agent Manager doesn't run ALL agentsRouter does some (before new mail arrives)
Server does some (run on server)
The HTTP task does those invoked by a browser
Keep an Eye on Stuff
Agent writers can get a little ambitiousPoorly written agents have been know to bring down servers or lock up CPUs
There's an easy way to watch for these
Use Domino Domain Monitoring
Use Tell Commands to get more information
Look at the queues using the Administrator client
Run more than one instance if queues back up
Tips and Gotchas
Most Agent Manager problems are really problems with bad agentsOr agents without the proper rights
Use Tell Commands for quick results
Tell amgr sched E S 04:03 PM Today agent1 CENTRAL.NSF
S S 05:04 PM Today agent2 CENTRAL.NSF
V U agent3 CENTRAL.NSF
Enable Agent logging if having problems Log_AgentManager=value0 - Do not log agent execution events
1 - Log agent execution events (partially and completely successful)
2 - Log agent execution events (completely successful only)
Tips and Gotchas
Enable Debug (short term) for more info Debug_AMgr=* Have lots of time to read the output!
See technote on the Stuff page for less info
Study and use the Tell Commands to make stuff work betterCancel, Run, debug, Load
How AdminP Works
INSIDE THIS SECTION
Introduction to AdminP
How AdminP requests are created
How AdminP requests are processed
How AdminP Works
Example AdminP Request
Tips and Gotchas - AdminP
Introduction to AdminP
AdminP is a server task that automates stuff in DominoIt was created for name changes but does much more today
It usually works on items that must be exact
It runs on every server in the domain
The admin4.nsf database controls and records all requestsIt is created when a server is created
Shares a replica ID with every server in your domain
This database must replicate properly and be kept healthy
Requests process on varying intervalsMost are adjustable
Requests process at varying placesThe administration server of the domain
All servers in the domain
On specific target servers
How AdminP requests are created
Something initiates the processAn administrator requests a name change
A user delegates her mail file
A server gets upgraded
A database gets clustered
A completed request generates the next step requestAnd depending on the request and settings, it lingers for up to 21 days or more
Name change requests can be made to last for months
It works like multiple mini-batch filesEach request goes off and does what its asks, then reports back to the controller (admin4.nsf)
Then the next thing happens
How AdminP requests are processed
The AdminP task looks for new documents in the AdminP databaseIt builds a table of requests to process
Looks for new requests first
Then for requests to re-run a request
Builds the table of Note Ids of the documents
When a request is processed a response document is createdThis document tells the result of the request
Its called an Administration Process Log document
In earlier versions of the product it was created even when no work was doneCheck your server doc for the proper setting
How AdminP Works
Servers are asked to process certain items Like changes in ACLs
Each action has its own code (ProxyAction)
The Administration Process is multi-threadedThe main administration process thread looks for new workThen creates a table of note IDs.
Worker threads wait until a new copy of the note ID table is available. One thread then begins processing the first ID; a second thread processes the next; and so forth.
After processing a request, a thread looks for another ID and the process continues until all IDs are processed. By default, three threads are assigned to the Administration Process
This is adjustable in the Server Document
May be needed in times of high activity
Example AdminP Request
Delete User from Domino Directory
This isn't even a complicated request
See Admin Help for other flow charts
Tips and Gotchas - AdminP
AdminP works best when left alone
Make sure admin4.nsf replicates to all production servers correctlyDestroy all non-production servers
Consider using a replication formula on hub servers to keep the database size in checkSee me for an example
Consult the multitude of resources online to find Best Practices and other details
How ID files Work
IN THIS SECTION
Introduction to the Notes ID in the Domino Security Model
What's in an ID file?
Who needs an ID file?
How public and private key pairs work
How encryption keys work
How validation and authentication work
Introduction to the Notes ID in the Domino Security Model
Lotus Notes and Domino is built on a layered security model.Each user or server has to get through each layer to access the next system below it.
After firewall traffic, the Notes ID file is the next highest layer.The ID file gains you access to the server.
The ACL gets you access to your databases (using your ID file).
Document and Form fields have Reader and Author access fields on them.These all use your ID file, too!
The ID file is based on authentication.Encrypted data in a physical file, a key, to prove you are who you say you are.
Notes ID file authentication is based on certificates.A stamp by a Domino Certifier.
What's in an ID file?
Certificates
Encryption keys
Recovery info (if you use it)
Public and private key pairs
Finally, the user's name and Lotus Notes license number
Who needs an ID file?
A user who needs to authenticate with a Domino server that has public key checking enabled.
A user who needs to encrypt their mail, or a document.
A user who needs to sign an email.
A user who needs an encryption key to see the contents of a certain field.
A Domino server
How public and private key pairs work
Public keys are located in server docs, person docs, and certifier docs.Why?
Because anything encrypted with a public key can ONLY be decrypted with the private key on the ID file!
Your public key is stored on your Person doc and your ID file.However, your private key is ONLY available on your ID file!
When a public and private key are put together, they are mathematically related and identify the user.
When someone sends you encrypted mail, they are reading your public key from the Domino directory.Your ID file's private key decrypts the mail!
How encryption keys work
It's possible for a developer to encrypt just one field on a form.A credit card number, salary, or social security number
A Secret key is created from an ID fileFile-->Security-->User Security
The key is mailed to the users who need access to the field.
Those users import the key into their ID file.
It IS possible to place all sorts of restrictions on the key...Who can access it, can it be mailed, etc.
The form properties Security tab is then changed to have the key as the default encryption key
How validation and authentication work
When a user tries to connect with a Domino server, two things happen:VALIDATION: The user's ID file is validated against the certifier.
AUTHENTICATION: Once validated, the ID file sends back a message.
Domino uses three rules to trust a public key for validation:Trust the public key of the server's ancestors if they are in a user's ID file.
Trust any public key from a valid certificate issued by ancestors.
Trust any public keys certified by a trusted certifier.
Those rules, translated:Domino checks each certifier in the ID file for a trust.
If an ID file's public key is trusted, Domino sends a number challenge out.
The workstation encrypts the number with the private key from the ID file and sends back a response.
The same public key is used to decrypt the number on the server side.
If the numbers match, the user's ID file has successfully authenticated.
How Recertifying works
IN THIS SECTION
What does a certificate contain?
Where is the certificate stored?
When would you need to recertify a user?
How do you recertify a user?
Recertifying vs renaming vs moving certifiers
What does a certificate contain?
Like an ID file, a certificate (or certifier) contains several pieces of info:The certificate owner's name
The certificate expiration date
The certifier name
The public key
A digital signature to prove authenticity
However, unlike a user or server ID file, a certificate does not contain a private key.
Where is the certificate stored?
It's stored as a physical ID file.
It's also stored in the Domino directory.Along with any other issued certificates that have been cross-certified.
Wait, it's stored in the Domino directory??Remember, the certificate itself is public.
It's the contents that's on the physical certifier ID file that must be protected!
Why would you need to recertify a user?
Certificates are issued to users with a shelf life they expire.If a user ID file is allowed to expire, it cannot be used to gain access to a server if it's found one day.
Basically, a user ID is set to expire specifically so it can no longer access a server.
The Certification Log (certlog.nsf) will tell you everything!It will tell you who is registered with what server, and when they were registered.
It will tell you when they will expire.
It will tell you their recertification history and Notes license.
If you don't have one, create one!You only need one for your entire Domino system.
Call it Certification Log using the certlog.ntf template.
How do you recertify users?
Select the users from the Domino Administrator client.On the Tools pane, select People-->Recertify
Select the SAME certifier.You can recertify batches of users, but they must be using the same certifier, otherwise the process will end with an error.
Recertifying vs renaming vs moving certifiers...
Recertify a user when their existing ID file is due to expire.All you are doing is appending new expiration dates to their ID file.
Think of it as renewing.
Rename a user when you change their common name.Marriage, adding an initial, fixing an incorrectly spelled last name.
Renaming does not alter or change the certifier in any way.
Move a user to a new certifier when you want to change them in the hierarchy.Uses the Request move to new certifier toolbar option under Rename.
Must be approved by Adminp.
Name and certifier changes will be updated in all ACLs, readers, names and authors fields whose databases have an Administration Server set.
How Cross Certification Works
INSIDE THIS SECTION
Introduction to Cross Certitifcation
Why use Cross Certification
Details of Cross Certification
Tips and Gotchas
Intro to Cross Certification
Notes ID Files, certifications and recertification works great for users in the same Notes DomainWhere all IDs are created from the same root certifier
When a merger happens, things changeUsers need to share data from servers in separate Domains
Or you may simply need to exchange data with another Notes shop on a regular basis
Cross certification allows a trust network to be established
Why use Cross Certification
Notes Cross Certification allows users in different domains to send encrypted Notes mail
Servers in other organizations can be accessed by users or other serversIf the proper ACL rights are granted
Remember that even with cross certification, ACLs and Reader Lists help keep your data more secure
Cross Certification is useful especially if you plan to merge domains down the roadIt can be a temporary solution, or a permanent one
Details of Cross Certification
Each organization provides the public key for their Organization or OU to another entityThere are several ways to do it
The easiest way is to create a SAFE.ID using the Administrator clientSend it to the other Organization
And have them so the same For complete cross certification
Contents of the SAFE.ID fileYour Canonical Name of the ID you're sending
The Public Key
Details of Cross Certification
You can even cross certify using the phone
By reading out that incredibly long number to the other Administrator
Not a fun thing to do
The certificates are stored in the Domino DirectoryOr the user's personal address book
When placed into edit mode, the entire public key is visible
Tips and Gotchas
Choose which level you want to cross certifyThe entire organization or just a certain OU?
Users can copy the cross certificates from the Domino Directory to their personal Address Book if they need toSometimes handy for troubleshooting
Use cross-certification if you need to sign and encrypt across Notes DomainsA similar process exists for Internet DomainsBut its a little more complex
How the Indexer works
IN THIS SECTION
Introduction to the Indexer
View indexes vs full-text indexes
Updall vs Update
How view design affects the Indexer
Introduction to the Indexer
The Indexer is a Domino process that keeps database views and full-text indexes up to date.They need to be kept up to date after documents are added, removed, or modified.
The Indexer is simply comprised of two server tasks:The Updall task
The Update task
These tasks use two NOS services:NIF (Notes Index Facility)
Full-Text services
NOS = Notes Object Services. They are portable C++ functions that can access information in databases.
Introduction to the Indexer (cont)
NIF is a process that stores collections of documents in a binary tree structure to present to the user in a Notes view.
A b-tree data structure consists of three nodes:A left pointer
A right pointer
A data element
The left and right pointers can point to smaller subtrees on either side.
A null pointer is a b-tree element with no elements.
SO... recursively speaking:A binary tree is either a null pointer (empty), or a single node where the left and right pointers point to another binary tree.
This structure allows for incredibly fast lookups and/or insertions.
View indexes vs full-text indexes
A full-text index is a collection of files that indexes text in a Notes database to process user search queries.
A full-text index on a database must be created manually on the database properties tab, with four options to update it:Daily Updall task runs nightly
Scheduled Must have a program document to run Updall
Hourly Chronos keeps a timer to trigger the Update task
Immediate Update task runs immediately
View indexes vs full-text indexes (cont)
A view index is a collection of the data structure on every view.The developer decides how often it updates.
The collection contains: An index of parent-child relationships in the view.
An index sorted by note number.
Indexes defined by the view sort columns (and user-defined sorts!).
Both view indexes and full-text indexes utilize the Update server task.
Updall vs Update
Update does the following :Updates all views in the Domino Directory first
Updates views in all other databasesIf there have been at least 20 other note changes in that database
And if the database has been accessed in the last 7 days
Updates full-text indexed databases
Update is run on server startup, and then continually.
It is listed in Notes.ini to run on startup:Servertasks=Update,Replica,Router,AMgr,AdminP,CalConn,etc.
Updall vs Update (cont)
Any views that have recorded changes gets the entire database placed in the $UpdateQueueRecorded change = A document is added, removed or modified, remember?
This $UpdateQueue is checked every five seconds.
When a database enters the $UpdateQueue, Update waits 15 minutes to update all view indexes in that database in case any more views need updating.This maximizes the Indexer efficiency.
The Update tasks checks a modified date of each view against the last time the Update task ran.This is how it knows which views in the database to update.
Updall vs Update
The Updall task is similar if not the same as Update, HOWEVER:It does not run continuously, it is a one-off, or single instance of the Update task.
It runs when it's told to:Entered manually via Domino console command
From a program document
Nightly from a Notes.ini parameter to update FT Index frequencies marked DailyServerTasksAt2=Updall
Updall also performs additional tasks that Update does not:Purges deletion stubs
Discards unused view indexes (every 45 days unless otherwise specified)
You can also specify parameters to turn off and on certain functionsOr even just run it on a single database
Runs on ALL databases, not just ones flagged as changed in a queue like Update
How view design affects the Indexer
Reader fields = more Indexer workA view is evaluated for Reader access before it can even display the view to the user, and will refresh based on what documents it is allowed to show.
@Now or @Today in viewsThis will cause the view to be refreshed on a constant basis.
More views = more Indexer work
More sortable columns = more Indexer workThe alternatively sorted data is available immediately when clicked, thanks to the Indexer.
How Transaction Logging works
INSIDE THIS SECTION
Introduction to Transaction Logging (T/L)
Benefits of Transaction Logging
Requirements for Transaction Logging
Under the Hood
Types of Transaction Logging
Implementing Transaction Logging
How it works
Introduction to Transaction Logging
A transaction is a single API callIncludes creating, reading, modifying documents
A transaction log is a history of actions executed on a systemA binary file with an extension of .txn in Lotus Domino
Transaction Logging is a process that allows these actions to be recorded before they are saved to diskUses write-ahead logging to write a sequential record of changes
The changes can be saved shortly afterward.
The transaction log consists of log extents and the log control file (NLOGCTRL.LFH). A log extent is one of the log files into which the transaction logs are written. It has the form Sxxxxxxx.TXN, where x represents a seven-digit number that is unique to that server.
Benefits of Transaction Logging
Better data integrityReduces the chance of data loss to virtually zero
Faster restart timeServers start faster from a cold start
Servers start dramatically faster after unplanned outages
More efficient processingDomino can defer some work during periods of high activity
Faster Backup/Restore timeOnly changes are backed up, not full databases
Enables you to use DAOSYou should use DAOS
Requirements for Transaction Logging
The T/L directory must be placed on a separate physical device devoted solely to transaction loggingAny performance gains that you thought you'd get will disappear
Having the T/L on the same disk normally results in a 25% decrease in performanceOr worse
Each Domino server requires its own T/L drive, including partitioned servers. The rule of thumb is one log device per data directory, and one data directory per log device.
A dedicated, mirrored RAID1 device
If using Archive style transaction logging, a dedicated backup and restore system is required
Requirements for Transaction Logging on a SAN
Use a separate file system, separate pathway, and separate disks for the transaction logs.Use RAID 1/0 (Stripe mirror) or mirrored pair (RAID 1), rather than RAID 5.
Use the fastest, most reliable disks available.
Configure the device with a Hot Spare available in case a disk physically fails
Do not share the disk controller (SAN and NAS) with any other users, if possible
Consider the followingUse larger disk block size and matching Stripe size
OS file system cache is not used. NVRAM cache in the disk subsystem helps.
Use 2 GB Fibre Channel rather than 1 GB. Have dedicated channels and avoid using data switchesMake sure you have adequate I/O capacity for transaction logging.
If the logs are placed on a SAN, they should be placed on dedicated devices within the SANEach DPAR should have its own HBA connection to the SAN.
Under the Hood
The Recovery Manager and Logger tasks are used to implement transaction logging
The Logger records information passed to it by the Recovery Manager
The Recovery ManagerIs the sole NSF component that interfaces with the logger
Writes transaction-undo to the logger
Writes database recovery records to the logger
Reconstructs databases after a server has crashedReplays database recovery records from the log
Undoes partially-completed database transactions using transaction-undo from the log
Under the Hood (con't)
You've seen them working:Opening dirty previously logged DB F:\Lotus\Domino\data\mail2\baddb.nsf still logged, containers being dropped.
DbOpen AutoFixup of Dirty Logged DB F:\Lotus\Domino\data\mail2\baddb.nsf
Clearing DBIID 0DB5EC6C for DB F:\Lotus\Domino\data\mail2\baddb.nsf
Completed consistency check on mail2\baddb.nsf
Recovery Manager: Assigning new DBIID for F:\Lotus\Domino\data\mail2\baddb.nsf (need new backup for media recovery).
Under the Hood (con't)
A unique database instance ID (DBIID) is generated for a database when it is first createdIt is meaningful only if the database resides on a server with T/L
It changes later whenever the database is compacted with any option other than -bOr when fixup is run
When Domino records a transaction in the log, it includes this DBIID. During recovery, Domino uses the DBIID to match transactions to databases
Why the DBIID changes Compacting and fixup temporarily disable transaction logging for a database This prevents large amounts of logging data from being spewed out to the recovery log
Because a large amount of I/O is done during database maintenance
Since T/L was disabled, there will be a gap in the data for that database
The DBIID is changed to prevent these logs from being applied to the newly compacted databases
Databases must be backed up immediately after maintenance
Types of Transaction Logging
Circular loggingServer reuses a fixed amount of disk space (up to 4GB) for transaction logs.
After the log fills, the server starts overwriting old transactions
Use circular logging if the size of the log needed between full database backup intervals is less than 4GB.
Does not support incremental backups
Most useful for faster server restarts
Linear logging Is like circular logging, except allows more than 4GB
Use linear logging if the size of the log needed between full database backup intervals is greater than 4GB
And you are not using archive media
Types of Transaction Logging (con't)
Archive logging :Creates log files as needed
Simplifies backup and restore
Provides online and partial backups
The log files are not overwritten until you archive them
Requires a backup utility to back up the filled log extents So that they can be reused when needed.
If you do not have a backup utility or it does not work properlyThe server continues to create log extents
It fills up the disk space, and then panics
Plan accordingly
Details and Gotchas
Make sure your database ODS is the latest to get full functionalityFor most things actually
Never put logs on the same disk as your server
Use the latest improvementsCreate_R85_Log=1
Manage your disk spaceDon't run out of room
Make sure your backup solution supports newer versions before you upgrade
Implementing Transaction Logging
Prepare your environment properly
Enable in the Server documentSelect the options you want
Use the admin client to disable logging on any databases who wish toSome databases can be not loggedThose that have replicas everywhere (AdminP)
Those that constantly write (clubusy.nsf)
Restart the server
How it Works
On a normal dayThe Logger writes to the .txn file
The log fills and is reused or backed up then flushedDepending on the T/L style
The server is a little faster
On a bad dayThe Logger writes to the .txn file
The server stops unexpectedly
After the server restart,The changes not saved are played back by the Recovery Manager
All is well
How Program Documents Work
IN THIS SECTION:
What are program documents?
What can program documents be used for?
How to pass parameters to program documents
What are program documents?
A program document will automatically run a server task at a scheduled time.Just like a Windows batch file.
You can pass parameters to it.
You can specify which Domino server to run it on.
You can specify the days of the week, time, and repeat interval.Setting a repeat interval of 0 means the program document will only run once.
What can program documents be used for?
Scheduled server shutdowns and restarts
Late-night fixups, updalls and compacts
Running Domino batch files
Replication
Scheduled Domino console commands
Any command on an individual database
When program documents are used, Domino issues a NEW INSTANCE of the program or task.
How to pass parameters to program documents
To send Domino console commands, make sure the program name is correct!
Program name: nserver
Command line: -c tell router update config
-c dbcache flush
-c tell amgr q
Program name: compact
Command line: -B
Program name: nserver
Command line: -c "c:\lotus\domino\data\compact.txt"Compact.txt contains:
load COMPACT apps\ -B load COMPACT mail\*.nsf -B
How Smart Upgrade works
IN THIS SECTION:
Introduction to Smart Upgrade
The steps to set up Smart Upgrade
The trigger and user experience
Introduction to Smart Upgrade
Smart Upgrade is a built-in Notes feature that will automatically install client upgrades to users.It can track who has upgraded, and who failed with issues
It can upgrade the mail file template at the same time
Users can defer the upgrade until a date you specify
You can build a custom MSI package to fine-tune the installation.But, you don't have to!
The steps to set up Smart Upgrade
1. Create the Smart Upgrade database User the Smart Upgrade Kits template.
2. Update the Server configuration document with a doclink pointing to the database you just created.You can also limit the concurrent downloads via the Smart Upgrade Governor here.
3. (Optional) Create the Smart Upgrade Tracking Reports database using the template.This needs a mail-in document for that database on the server!
The steps to set up Smart Upgrade (cont)
4. Create an upgrade kit document in the Smart Upgrade database.A kit is just a fancy word for the install files!
Point it to a network share, or attach the upgrade files to the kit document.
Specify who can use it in the allowable users field.
Optionally include silent install switches here!
5. (Optional) Create a Desktop policy to track smart upgrades.
6. (Optional) Create a Desktop policy to upgrade their mail file at the same time.
The trigger and user experience
How is Smart Upgrade triggered via the client?A user authenticates with their home server
Or, it can be triggered manually via Tools-->Notes Smart Upgrade
Smart Upgrade does NOT use the DCC (dynamic client configuration).It uses its own process
However, as Smart Upgrade tracking is pushed down via policy, the tracking uses DCC
The user experience
The Notes client release number is matched up to a source version of the Kit document and install type.Just the Notes client vs. Client, Administrator and Designer
Notes Basic vs. Notes Standard
If a matching kit is found, the SU process sends back a flag to the Notes client.
The user is then prompted with a dialog box prompting to upgrade.If the user has a policy that sets a deadline, they are forced to upgrade!
There will not be a prompt if the upgrade Governor has been set and the concurrent upgrade totals have been reached.
When a user finishes the upgrade, it sends a message to the Domino server to decrease the current active upgrade count for the Governor.
If a user is downloading the kit instead of installing across a network share, they will not receive notification to upgrade until the kit has completed downloading and the installation is ready to execute!
Whew! In Closing
Thanks for your attention
Please fill out your evals they DO matter
Contact Jess:At GURUPalooza
And Wednesday 3PM in Swan 7-10
She blogs on momelettes.com
twitter.com/NerdGirlJess
See Susan in the Solutions Development Lab on the Showroom floorAlso at GURUPaloozaWhere she won't answer questions because she's technically not a guru
She's notesgoddess.net
Also [email protected]
Related Sessions
ID103: Reducing Costs Through Improved Serviceability
ID104: IBM Lotus Domino Server Availability: Best Practices and Tuning Tips
ID105: DAOS Deployment and Best Practices
ID107: Smarter IBM Lotus Domino Monitoring: From Activity Trends to Statistics and Reporting
BP101: Adminblast 2011
BP103: Got Problems? Let's Do a Health Check
BP107: Performing Your Own IBM Lotus Domino Security Review
BP108: Admin for the Developer: Build and Secure Your Own IBM Lotus Domino Server Playground -- in an Hour!
BP110: Discovering the Mysterious and Dangerous Secrets of STATREP.NSF
BP112: 10 Tips to Make You an Admin Star (While Reducing Your Workload)
BP116: Backup 101: The What, How, and When
Related Sessions (cont)
BP117: IBM Lotus Domino Server and Application Performance in the Real World
BP118: Proactive Server Management: Learn How to Maximize Your Server Uptime
BP119: Ground Control to IBM Lotus Notes: Client Management Explained
SHOW102: Statistics and Events Base Camp: Proactive Monitoring of Your IBM Lotus Domino Servers
SHOW104: Crispy Certificates with Spicy SSL Salsa
SHOW109: How To Build a Better Cluster From a Standing Start
GEEK101: Speedgeeking!
GURU101: GURUpalooza!
NERD101: Nerd Girl Panel: Work is Not a Romance Novel or a Football Game
Legal Disclaimer
IBM Corporation 2011. All Rights Reserved.The information
contained in this publication is provided for informational
purposes only. While efforts were made to verify the completeness
and accuracy of the information contained in this publication, it
is provided AS IS without warranty of any kind, express or implied.
In addition, this information is based on IBMs current product
plans and strategy, which are subject to change by IBM without
notice. IBM shall not be responsible for any damages arising out of
the use of, or otherwise related to, this publication or any other
materials. Nothing contained in this publication is intended to,
nor shall have the effect of, creating any warranties or
representations from IBM or its suppliers or licensors, or altering
the terms and conditions of the applicable license agreement
governing the use of IBM software.References in this presentation
to IBM products, programs, or services do not imply that they will
be available in all countries in which IBM operates. Product
release dates and/or capabilities referenced in this presentation
may change at any time at IBMs sole discretion based on market
opportunities or other factors, and are not intended to be a
commitment to future product or feature availability in any way.
Nothing contained in these materials is intended to, nor shall have
the effect of, stating or implying that any activities undertaken
by you will result in any specific sales, revenue growth or other
results. All customer examples described are presented as
illustrations of how those customers have used IBM products and the
results they may have achieved. Actual environmental costs and
performance characteristics may vary by customer.IBM, the IBM logo,
Lotus, Lotus Notes, Notes, Domino, Quickr, Sametime, WebSphere,
UC2, PartnerWorld and Lotusphere are trademarks of International
Business Machines Corporation in the United States, other
countries, or both. Unyte is a trademark of WebDialogs, Inc., in
the United States, other countries, or both.HowStuffWorks, A
Discovery Company is the trademark of HowStuffWorks, Inc. and/or
Discovery Communications, LLC, A Silver Spring, MD company in the
United StatesAdobe, the Adobe logo, PostScript, and the PostScript
logo are either registered trademarks or trademarks of Adobe
Systems Incorporated in the United States, and/or other
countries.
Microsoft and Windows are trademarks of Microsoft Corporation in
the United States, other countries, or both.All references to
Blossom refer to a fictitious company and are used for illustration
purposes only.
Click to add text
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation
2011 IBM Corporation