Payroll Payment via ALE/IDOC

Similar Messages

• Send Purchase Order via ALE/IDOCS

  hi,
        How can i send one PO from one client to another via ALE/IDOCS?
        Pls provide few important steps.
  Thanks and Regards,
  Gaurav

  For sending IDOC for Purchase order you will use idoc
  Message type : ORDERS
  Basic Type : ORDERS05
  Create one RFC Destination in SM59 and give that entry in Port in WE21.
  Create Partner profile in WE20 and Port for receiver system in WE21.
  Use your port in Partner profile in WE20.
  In Partner Profile create one entry for Message type ORDERS as Outbound.
  In your tcode when you are creating Purchase order set output message in your header condition for Outbound to send that purchase order to that Partner Profile.
  Check link :
  http://www.****************/Tutorials/ALE/AutoIDOCGen/AutomaticIDocGeneration1.htm
  Regards,
  Sandeep Kaushik

• Distribute moving average or standard price via ALE/IDoc

  Dear experts,
  do you see any way to distribute the moving average price via ALE? It is inside the material master IDoc but it won't update in the receiving system.
  We need it for a decentral WM so that people can see the valuation of the material when they do inventory counting (to judge differences in LX22).
  Any idea how to unlock the material master for update? 
  Gunter

  Dear Amit,
  yes - I understand how the system calculates the MAP. However, the receiving system is a SAP WMS - In WM there is no inventory management nor FI/CO. The valuation would always be zero. So I'm interested how can I update it via ALE?
  It works for the first time if I have no valuation (accounting) view in the material and I send an IDoc with the view definition segment and a value for VERPR. But updating isn't possible.
  Gunter

• Linking Cost Centre to Hierarchy via ALE

  When sending new Cost Centres from our FMS Server to HR/Payroll Server via ALE & IDOCS, the Cost Centres are created, but there is no link to the Hierarchy. (ie) when going into transaction OKEN, they do not appear under the relevant group. However in KS03, the new Cost Centre is displayed with its Cost Centre group.
  Is there a Function Module which can be run to rectify this, or can ALE be configured to do it.

  Hi Beena,
  You can structure your cost centers into groups like
  - OverHeads
    *SalesMarkeing
    *R&D
    *Admin
    *HR
    *Service
    *MGMT Office
  - Manufacturing Depts
    *dep1
    *dep2
  - Products
    *Prd1
    *Prd2
  Rgds
  Kishore

• In ALE/IDOC Change Pointer using Maintenance order for message Type

  Hi All Expert,
  I am using Maintenace order to send via ALE/IDOC(Change ponters), i need standard message Name for Maintenance Order,

  Hello,
  I'm not sure you're taking the best approch.
  Usually when you need to migrate ISU contracts into an ISU-CRM integrated system, you first migrate everything you need in ISU through the VERY powerful migration workbench available (transaction code EMIGALL), and then you replicate your data to CRM via INITIAL download.
  That's definitely the strategy that will give you the best performance, and less work.
  Kind regards,
  Nicolas Busson.

• Debugging customized function module when Idoc is triggered via ALE

  Hi,
  Whenever we save the billing document, an outbound idoc is triggered via ALE. The logic for the data to be included in the idoc is written in a customized function module.
  However we are making some changes and would like to include some more data in the idoc. But we find that when we put a breakpoint in the function module, on saving the billing document, the flow does not stop at the break point. We are 100% sure that the code in the function module gets executed based on the data in the idoc.
  How do we get into debug mode and break the flow in the function module so that we can debug in the function module?
  Any help would be greatly appreciated.
  Thanks in advance,
  Mick

  Hi Mick, this might be of some help 4 u.
  ALE IDOC
  Sending System(Outbound ALE Process)
  Tcode SALE - for
  a) Define Logical System
  b) Assign Client to Logical System
  Tcode SM59-RFC Destination
  Tcode BD64 - Create Model View
  Tcode BD82 - Generate partner Profiles & Create Ports
  Tcode BD64 - Distribute the Model view
  Message Type MATMAS
  Tcode BD10 - Send Material Data
  Tcode WE05 - Idoc List for watching any Errors
  Receiving System(Inbound ALE )
  Tcode SALE - for
  a) Define Logical System
  b) Assign Client to Logical System
  Tcode SM59-RFC Destination
  Tcode BD64 - Check for Model view whether it has distributed or not
  Tcode BD82 -- Generate partner Profiles & Create Ports
  Tcode BD11 Getting Material Data
  Tcode WE05 - Idoc List for inbound status codes
  ALE IDOC Steps
  Sending System(Outbound ALE Process)
  Tcode SALE ?3 for
  a) Define Logical System
  b) Assign Client to Logical System
  Tcode SM59-RFC Destination
  Tcode BD64 - Create Model View
  Tcode BD82 - Generate partner Profiles & Create Ports
  Tcode BD64 - Distribute the Model view
  This is Receiving system Settings
  Receiving System(Inbound ALE )
  Tcode SALE - for
  a) Define Logical System
  b) Assign Client to Logical System
  Tcode SM59-RFC Destination
  Tcode BD64 - Check for Model view whether it has distributed or not
  Tcode BD82 -- Generate partner Profiles & Create Ports
  Tcode BD11 Getting Material Data
  Tcode WE05 - Idoc List for inbound status codes
  Message Type MATMAS
  Tcode BD10 - Send Material Data
  Tcode WE05 - Idoc List for watching any Errors
  1)a Goto Tcode SALE
  Click on Sending & Receiving Systems-->Select Logical Systems
  Here Define Logical Systems---> Click on Execute Button
  go for new entries
  1) System Name : ERP000
  Description : Sending System
  2) System Name : ERP800
  Description : Receiving System
  press Enter & Save
  it will ask Request
  if you want new request create new Request orpress continue for transfering the objects
  B) goto Tcode SALE
  Select Assign Client to Logical Systems-->Execute
  000--> Double click on this
  Give the following Information
  Client : ERP 000
  City :
  Logical System
  Currency
  Client role
  Save this Data
  Step 2) For RFC Creation
  Goto Tcode SM59-->Select R/3 Connects
  Click on Create Button
  RFC Destination Name should be same as partner's logical system name and case sensitive to create the ports automatically while generating the partner profiles
  give the information for required fields
  RFC Destination : ERP800
  Connection type: 3
  Description
  Target Host : ERP000
  System No:000
  lan : EN
  Client : 800
  User : Login User Name
  Password:
  save this & Test it & RemortLogin
  3)
  Goto Tcode BD64 -- click on Change mode button
  click on create moduleview
  short text : xxxxxxxxxxxxxx
  Technical Neme : MODEL_ALV
  save this & Press ok
  select your just created modelview Name :'MODEL_ALV'.
  goto add message type
  Model Name : MODEL_ALV
  sender : ERP000
  Receiver : ERP800
  Message type :MATMAS
  save & Press Enter
  4) Goto Tcode BD82
  Give Model View : MODEL_ALV
  Partner system : ERP800
  execute this by press F8 Button
  it will gives you sending system port No :A000000015(Like)
  5) Goto Tcode BD64
  seelct the modelview
  goto >edit>modelview-->distribute
  press ok & Press enter
  6)goto Tcode : BD10 for Material sending
  Material : mat_001
  Message Type : MATMAS
  Logical System : ERP800
  and Execute
  7)goto Tcode : BD11 for Material Receiving
  Material : mat_001
  Message Type : MATMAS
  and Execute --> 1 request idoc created for message type Matmas
  press enter
  Here Master Idoc set for Messge type MATMAS-->press Enter
  1 Communication Idoc generated for Message Type
  this is your IDOC
  Change Pointers
  I know how to change the description of a material using ALE Change Pointers.
  I will give the following few steps
  1) Tcode BD61---> check the change pointers activated check box
  save and goback.
  2) Tcode BD50---> check the MATMAS check box save and comeback.
  3) Tcode BD51---> goto IDOC_INPUT_MATMAS01 select the checkbox save and comeback.
  4) Tcode BD52---> give message type : matmas press ok button.
  select all what ever you want and delete remaining fields.
  save & come back.
  5) 5) go to Tcode MM02 select one material and try to change the description and save it
  it will effects the target systems material desciption will also changes
  6) goto Tcode SE38 give program Name is : RBDMIDOC and Execute
  give Message type : MATMAS and Executte
  ALE/IDOC Status Codes/Messages
  01 Error --> Idoc Added
  30 Error --> Idoc ready for dispatch(ALE Service)
  then goto SE38 --> Execute the Program RBDMIDOC
  29 Error --> ALE Service Layer
  then goto SE38 --> Execute the Program RSEOUT00
  03 Error --> Data Passed to Port ok
  then goto SE38 --> Execute the Program RBDMOIND
  12 Error --> Dispatch ok
  Inbound Status Codes
  50 Error --> It will go for ALE Service Layer
  56 Error --> Idoc with Errors added
  51 Error --> Application Document not posted
  65 Error --> Error in ALE Service Layer
  for 51 or 56 Errors do the following steps
  goto WE19 > give the IDOC Number and Execute>
  Press on Inbound function Module
  for 65 Error --> goto SE38 --> Execute the Program RBDAPP01 then your getting 51 Error
  cheers,
  Hema.

• Change pointers in ALE/IDOCs

  Hi guys,
              Can any let me know step by procedure to implenent change pointers using IDocs including ALE settings as i am new to this concept.
          Any step by step example will be helpful. useful answers will be rewarded.
  Thanks in advance.
  Regards,
  vinay

  Change pointers is the one of the IDOC processing method in ALE.
  In this once we make the config to any of messages type , if any changes are made in sending system then IDOC will be posted directly to destination with user interation.
  Changes pointers are configured using BD50,BD51,BD53,BD61.
  Change pointers are stored in tables BDCP and BDCPS (or BDCP2 in case of high-performance setting) - like CDHDR and CDPOS for change documents (but this is not a controlling table!).
  1. Do you really need change pointers?
  You need change pointers to distribute changes with the ALE SMD tool. If you do not use this tool, you do not need to write change pointers.
  You can deactivate change pointers and activate them again with the transaction BD61.
  2. Do you really need to activate change pointers for this messages type?
  If some messages types are no longer to be distributed by change pointers, you can
  deactivate change pointers for this message type.
  You can deactivate change pointers for the message type
  and reactivate them again in transaction BD50.
  For reduced message types, deactivate the change pointer with the
  Reduction tool (transaction BD53).
  Applications which write change documents will also try to write change pointers for ALE operations. These are log entries to remember all modified data records relevant for ALE.
  Most applications write change documents. These are primarily log entries in the
  tables CDHDR and CDPOS.
  Change documents remember the modified fields made to the database by an
  application. They also remember the user name and the time when the modification
  took place.
  The decision whether a field modification is relevant for a change document is
  triggered by a flag of the modified field’s data element. You can set the flag with
  SE11 by modifying the data element.
  For the purpose of distributing data via ALE to other systems, you may want to
  choose other fields, which shall be regarded relevant for triggering a distribution.
  Therefore R/3 introduced the concept of change pointers, which are nothing else
  than a second log file specially designed for writing the change pointers which are
  meant to trigger IDoc distribution via ALE.
  So the change pointers will remember the key of the document every time when a
  relevant field has changed.
  Change pointers are then evaluated by an ABAP which calls the IDoc creation, for
  every modified document found in the change pointers.
  The Change pointers are written from the routine CHANGEDOCUMENT_CLOSE
  when saving the generated change document. So change pointers are automatically
  written when a relevant document changes.
  The following function is called from within CHANGEDOCUMENT_CLOSE in order to write the change pointers.
  CALL FUNCTION 'CHANGE_POINTERS_CREATE'
  EXPORTING
  change_document_header = cdhdr
  TABLES
  change_document_position = ins_cdpos.
  Activation of change pointer update :
  Change pointers are log entries to table BDCP which are written every time a transaction modifies certain fields. The change pointers are designed for ALE distribution and written by the function CHANGE_DOCUMENT_CLOSE.
  Change pointers are written for use with ALE. There are ABAPs like RBDMIDOC
  which can read the change pointers and trigger an IDoc for ALE distribution.
  The change pointers are mainly the same as change documents. They however can
  be set up differently, so fields which trigger change documents are not necessarily
  the same that cause change pointers to be written.
  In order to work with change pointers there are two steps to be performed
  1) Turn on change pointer update generally
  2) Decide which message types shall be included for change pointer update
  R3 allows to activate or deactivate the change pointer update. For this purpose it
  maintains a table TBDA1. The decision whether the change pointer update is active
  is done with a Function Ale_Component_Check
  This check does nothing else than to check, if this table has an entry or not. If there is an entry in TBDA1, the ALE change pointers are generally active. If this table is empty, change pointers are turned off for everybody and everything, regardless of the other settings.
  The two points read like you had the choice between turning it on generally or
  selectively. This is not the case: you always turn them on selectively. The switch to
  turn on generally is meant to activate or deactivate the whole mechanism.
  The change pointers which have not been processed yet, can be read with a function
  module.
  Call Function 'CHANGE_POINTERS_READ'
  The ABAP RBDMIDOC will process all open change pointers and distribute the
  matching IDocs.
  When you want to send out an IDoc unconditionally every time a transaction
  updates, you better use the workflow from the change documents.
  To generate the IDOCS in case of change pointers we need to use the standard report
  RBDMIDOC
  we need execute the follwing t.code
  BD61:to activate the change pointers globally
  BD50,BD52: to activate message types ,and to enable the fileds for change pointers
  Hope this link will help you regarding Change Pointer...
  http://help.sap.com/saphelp_erp2005vp/helpdata/en/ba/c9c1c31253ed4596e3bbb74922cd4a/frameset.htm
  Change Pointer Configuration and extraction in HRPay.
  Infotypes to be logged are in:
  V_T585A,
  V_T585B,
  & V_T585C
  Please view the table contents to understand the structure of these tables and how they are linked. These help you identify the cluster tables which store the data.
  Payroll Cluster Table – PCL4 contains the cluster table reference. (Please refer to the table structure below:
  Payroll Custer Tables
  http://www.planetsap.com/HR_ABAP_payroll.htm
  Cluster tables combine the data from several tables with identical (or almost identical) keys into one physical record on the database.
  Data is written to a database in compressed form.
  Retrieval of data is very fast if the primary key is known.
  Cluster tables are defined in the data dictionary as transparent tables.
  External programs can NOT interpret the data in a cluster table.
  Special language elements EXPORT TO DATABASE, IMPORT TO DATABASE and DELETE FROM DATABASE are used to process data in the cluster tables.
  PCL1 - Database for HR work area; (long text, etc)
  PCL2 - Accounting Results (time, travel expense and payroll); (payroll results)
  PCL3 - Applicant tracking data;
  PCL4 - Documents, Payroll year-end Tax data (change logs, etc)
  Database Table PCL4
  The database table PCL4 contains the following data areas:
  LA change logs (long term documents)
  SA Short-Term Documents for HR Master Data
  SB Short-Term Documents for Applicant Master
  SRTFD (PC400) = trans class always A for master data (1) pernr (8) info type (4) modified date (8) modified time (8) seqnr (4)
  Please note that for the extraction of data, you have to use the date portion of the ‘SRTFD’ and not the field value AEDTM(since it is not primary key).
  Naming convention for INCLUDES when defining clusters. These INCLUDES will define the work area key above and the cluster data that is returned from an IMPORT:
  RPCnxxy0
  n = 1, 2, 3 or 4 (for PCL1, PCL2, PCL3, PCL4)
  xx = cluster ID
  y = country grouping (0 for international otherwise country indicator T500L)
  Description of Cluster Data using Cluster RX as an Example
  The data description is stored in the include RPC2RX00 in accordance with the above naming conventions.
  RPC1TX00 - Long text cluster ID in table PCL1
  RPC2RUU0 - Payroll results for the US cluster ID in table PCL2
  RPC4LA00 - Change log cluster ID in table PCL4
  Importing Data (I)
  The IMPORT command causes data objects with the specified key values to be read from PCLn.
  If the import is successful, SY-SUBRC is 0; if not, it is 4.
  REPORT ZRPIMPORT.
  TABLES: PCLn.
  INCLUDE RPCnxxy0. "Cluster definition
  Fill cluster Key
  Import record
  IMPORT TABLE1 FROM DATABASE PCLn(xx) ID xx-KEY.
  IF SY-SUBRC EQ 0.
  Display data object
  ENDIF.
  See sample program for long text.
  Importing data (II)
  Import data using macro RP-IMP-Cn-xy.
  Check return code SY-SUBRC. If 0, it is successful. If 4, error.
  Need include buffer management routines RPPPXM00
  REPORT ZRPIMPORT.
  *Buffer definition
  INCLUDE RPPPXD00.
  DATA: BEGIN OF COMMON PART 'BUFFER'.
  INCLUDE RPPPXD10.
  DATA: END OF COMMON PART 'BUFFER'.
  *import data to buffer
  RP-IMP-Cn-xy.
  *Buffer management routines
  INCLUDE RPPPXM00.
  Cluster Authorization
  Simple EXPORT/IMPORT statement does not check for cluster authorization.
  Use EXPORT/IMPORT via buffer, the buffer management routines check for cluster authorization.
  rpcbdt00 - include needed for importing from database PCL4(la) (Change log cluster ID)
  Please note that data for change pointers is stored at two levels: 1) Header – which has the key info and 2) BELEGE – which has the changed info – ie. Old value and new value.
  Check standard program RPUAUD00
  Applications which write change documents will also try to write change pointers for ALE operations. These are log entries to remember all modified data records relevant for ALE.
  Most applications write change documents. These are primarily log entries in the tables CDHDR and CDPOS.
  Change documents remember the modified fields made to the database by an application. They also remember the user name and the time when the modification took place.
  The decision whether a field modification is relevant for a change document is triggered by a flag of the modified field’s data element. You can set the flag with SE11 by modifying the data element.
  For the purpose of distributing data via ALE to other systems, you may want to choose other fields, which shall be regarded relevant for triggering a distribution.
  Therefore R/3 introduced the concept of change pointers, which are nothing else than a second log file specially designed for writing the change pointers which are meant to trigger IDoc distribution via ALE.
  So the change pointers will remember the key of the document every time when a relevant field has changed.
  Change pointers are then evaluated by an ABAP which calls the IDoc creation, for every modified document found in the change pointers.
  The Change pointers are written from the routine CHANGEDOCUMENT_CLOSE when saving the generated change document. So change pointers are automatically written when a relevant document changes.
  The following function is called from within CHANGEDOCUMENT_CLOSE in order to write the change pointers.
  CALL FUNCTION 'CHANGE_POINTERS_CREATE'
  EXPORTING
  change_document_header = cdhdr
  TABLES
  change_document_position = ins_cdpos.
  Activation of change pointer update :
  Change pointers are log entries to table BDCP which are written every time a transaction modifies certain fields. The change pointers are designed for ALE distribution and written by the function CHANGE_DOCUMENT_CLOSE.
  Change pointers are written for use with ALE. There are ABAPs like RBDMIDOC which can read the change pointers and trigger an IDoc for ALE distribution.
  The change pointers are mainly the same as change documents. They however can be set up differently, so fields which trigger change documents are not necessarily the same that cause change pointers to be written.
  In order to work with change pointers there are two steps to be performed
  1) Turn on change pointer update generally
  2) Decide which message types shall be included for change pointer update
  R3 allows to activate or deactivate the change pointer update. For this purpose it
  maintains a table TBDA1. The decision whether the change pointer update is active
  is done with a Function Ale_Component_Check
  This check does nothing else than to check, if this table has an entry or not. If there is an entry in TBDA1, the ALE change pointers are generally active. If this table is empty, change pointers are turned off for everybody and everything, regardless of the other settings.
  The two points read like you had the choice between turning it on generally or selectively. This is not the case: you always turn them on selectively. The switch to turn on generally is meant to activate or deactivate the whole mechanism.
  The change pointers which have not been processed yet, can be read with a function module.
  Call Function 'CHANGE_POINTERS_READ'
  The ABAP RBDMIDOC will process all open change pointers and distribute the matching IDocs.
  When you want to send out an IDoc unconditionally every time a transaction updates, you better use the workflow from the change documents.
  Arunsri
  Posts: 307
  Registered: 12/3/07
  Forum Points: 246
  Re: change pointers method
  Posted: Feb 27, 2008 11:08 AM in response to: satish abap E-mail this message Reply
  hi,,
  Activating Change Pointers
  Use
  You can activate change pointers in the HR system to avoid distributing the entire structure when you make changes to the HR-ORG model, and distribute instead only the changes that you have made.
  Procedure
  1. In the Implementation Guide (IMG, transaction SALE), choose Modeling and Implementing ® Master Data Distribution ®Replication of Modified Data ® Activate Change Pointers ‑ Generally.
  2. Set the activation status Activate Change Pointers ‑ Generally, and save your entry.
  3. Choose the activity Activate Change Pointers for Message Types.
  4. Set the active indicator for the message type HRMD_ABA.
  5. Save your entries.
  also see this link,
  http://help.sap.com/saphelp_47x200/helpdata/en/ba/c9c1c31253ed4596e3bbb74922cd4a/frameset.htm
  http://help.sap.com/saphelp_47x200/helpdata/en/ba/c9c1c31253ed4596e3bbb74922cd4a/frameset.htm
  Check the links below;
  http://help.sap.com/saphelp_nw70/helpdata/en/f1/035c8cae3d11d3b540006094192fe3/frameset.htm
  http://help.sap.com/saphelp_nw70/helpdata/en/12/83e03c19758e71e10000000a114084/frameset.htm
  Reward if useful

• Data transfer using ALE/IDOC into XML.

  Dear All,
  I have to transfer FI document data (FB01) from the sap system ,convert it into XML and dump it in 1 of the file servers.I want to do this using ALE/IDOC.Is it possible to do the same and how.Similarly i want to do the same for Vendor and Customer master i.e sending the data in XML format.
  Kindly Suggest how do i go about doin the same..Its very urgent.Please help.
  Thanks & Regards,
  Lailu Philip.

  In continuation:
  Example Purchasing & Selling scenario
  We will develop a custom IDoc to carry the billing number from the Service Receiver’s system to the Service Provider’s system. We will populate the IDoc in a user exit on the sending side and we will process the transaction on the receiving side using a custom function module and a BDC transaction call.
  No rule conversion, segment filtering or version conversion will be implemented in the model as described in Figure 1.
  Requirements
  • Working ALE environment - See ALE Basis Configuration Guide;
  • ALE scenario design together with the business requirement;
  • Development access; and
  • ALE configuration access.
  NOTES:
  1. All IMG references to transactions are located in the transaction SALE which is the ALE portion of the IMG
  2. This is one way of developing a scenario where no message control exists. If message control exist (EG. On purchase orders) then NAST can be used to call an outbound function module that would create the required IDocs.
  3. Extensive knowledge of IDocs and ALE basis configuration is required in order to understand this guide.
  2. OUTBOUND PROCESSING
  2.1. Create IDoc type (WE30) Client independent
  The IDoc type refers to the IDoc structure that you will require for your development. In our case the IDoc type is called ZINVRV01. This IDoc type will have 1 segment called Z1INVRV with 2 fields, LIFNR & XBLNR, in this segment. If you require many segments or nested segments then they are also created using the same procedure.
  We will create the IDoc of the following structure:
  ZINVRV01
  Purchasing and Selling - Invoice receipt reversal
  Z1INVRV P&S - Segment 1
  Segment fields
  LIFNR Vendor account number
  XBLNR Reference document number
  Figure 3: IDoc type ZINVRV01
  To create the IDoc type, follow these next few steps:
  • Enter transaction WE30 (ALE -> Extensions -> IDoc types -> Maintain IDoc type)
  • Type in ZINVRV01 and click on Basic IDoc type, click the Create icon
  • Click on Create new (we are creating an IDoc from scratch but you may want to copy another IDoc if it is similar to your requirements) and enter a description, and press enter
  • Click on ZINVRV01 and then on the Create icon
  • Enter Z1INVRV as the segment type (must start with Z1), check mandatory if the segment must exist (in this case check it), enter 1 in minimum number and 1 as maximum number. (Make the maximum number 9999999999 if there are going to be many of these segments in each IDoc. IE. When line items are passed via IDocs), click on Segment editor
  • Enter a description for your segment type and create
  • Enter a description for your segment, enter each field required in your IDoc, in our case type LIFNR across for Field name, DE structure and DE documentation, repeat for XBLNR and press enter to validate.
  • Save and generate, press back
  • To release the segment choose Goto, Release from the menu
  • Check the box on the line of your new segment
  • Save, back and enter
  • Your IDoc type structure should be displayed with your new segment
  • Save and back
  • To release the IDoc type choose Extras, Release type from the menu and Yes
  Your IDoc is now ready for use. If you need to add fields or segments to your IDoc type, you will need to cancel the release of the IDoc type as well as the segment release using a similar procedure followed above (except now you uncheck the release box for the segment and you choose cancel release for the IDoc type).
  2.2. Create message type (WE81) Client independent
  To create a new message type, follow these next few steps:
  • Enter transaction WE81 (ALE -> Extensions -> IDoc types -> Maintain message type for intermed. Structure -> Create logical message type)
  • Choose Create logical message type by double clicking on it
  • Click on change icon to enter change mode
  • Click on New entries to add a new type
  • Enter the required message type, in our case it is ZINVRV and an appropriate description
  • Save and exit.
  Your message type has now been created. The next step will be to link it to the IDoc.
  2.2.1. Link message to IDoc type (WE82 & BD69) Client independent
  To link the message type to the IDoc type follow these next few steps:
  • Enter transaction WE82 (ALE -> Extensions -> IDoc types -> Maintain message type for intermed. Structure -> EDI: Message Types and Assignment to IDoc Types)
  • Click on change icon to enter change mode
  • Click on New entries to create the link
  • Enter the message type ZINVRV and the BasicIDoc type as ZINVRV01
  • Save and exit
  • Enter transaction BD69 (ALE -> Extensions -> IDoc types -> Maintain message type for intermed. Structure -> Assign message type to IDoc for ALE)
  • Click on change icon to enter change mode
  • Click on New entries to create the link
  • Enter the message type ZINVRV and the BasicIDoc type as ZINVRV01
  • Save and exit
  Your IDoc is now linked to your message type. We still need to link object types and add the message to the model before we can use the message.
  2.2.2. Maintain object type for message type (BD59) Client independent
  The ALE objects are used to create links between IDocs and applications objects, to control the serialisation, to filter messages in the customer model and to use listings.
  For our own message type and IDoc you must maintain object types for the links.
  If you want to check the serialisation for the message type, then you must maintain object types for the serialisation. If no serialisation object has been maintained for a given message type, then the serialisation will not be checked for this message type.
  To add an object type to our message type, follow these next few steps:
  • Enter transaction BD59 (ALE -> Extensions -> ALE object maintenance -> Maintain object types)
  • Type in your message type ZINVRV and press enter
  • Click on New entries
  • Enter your object type, LIFNR (We need to use the vendor as a filter object), the segment name where LIFNR resides, Z1INVRV, a number 1 for the sequence followed by the actual field name LIFNR
  • Save and exit.
  You have now created an object that we’ll use as a filter object in the customer model to direct the flow of messages to the various logical systems based on the vendors in the filter of the message type ZINVRV.
  We now need to add our new message type to the distribution model.
  2.3. Configuring the Distribution Model
  This task is performed on your ALE reference client.
  2.3.1. Manual Configuration (BD64) Client dependent
  To manually configure the customer distribution model, read the ALE configuration procedure, and follow these steps:
  • Perform the Maintain customer distribution model directly function. (ALE -> Distribution customer model -> Maintain customer distribution model directly)
  • Specify the customer model you want to maintain and the logical system that is to be the sender of the messages OR create a new model. (Create model ALE with logical system ALELS1C400)
  • Choose the receiving systems to which the sending system must forward message type ZINVRV to.
  • For each receiving logical system allocate the message type necessary for communication to the receiving systems as per ALE configuration procedure.
  • Create filter objects (in our case LIFNR as the object type with the associated vendor number, 0000018001 with leading zeros, in the object area) for the message types.
  • Save the entries.
  NOTES:
  You cannot maintain a message type between the same sender and receiver in more than one customer distribution model.
  Only the owner is authorised to modify the model.
  To change the owner of a model, choose the 'Maintain ownership of customer distribution model' function. Make sure that all changes will be distributed to all systems that know the corresponding model. To do so, you can use the correction and transport system.
  To transport the customer distribution model you should use the Distribute customer model function of the IMG as described below.
  2.3.2. Distribute customer model (BD71) Client dependent
  After the customer model has been created centrally, it must be distributed to the other remote systems. This entails first of all setting up the communication for the distributed systems and then sending the model.
  2.3.2.1. Distribute Model (BD71) Client dependent
  This task is performed on your ALE reference client. To distribute the customer distribution model, read the ALE configuration procedure and follow these steps:
  • Make the settings for the communication with the other decentral systems, you have not set them yet.
  • Define the RFC destination for R/3 connections whose names correspond to the name of the corresponding logical system.
  • Create the output partner profile.
  • Distribute the customer model
  • Specify the name of the customer model.
  • You must specify the target system to which you want to distribute the customer model.
  • You must repeat this function for every distributed logical system.
  2.3.2.2. Maintain sending system partner profile (WE20) Client dependent
  With this function, you define the partner profiles for all outbound and inbound messages on the basis of the customer distribution model.
  After you have defined and distributed the customer model, you will have to maintain the partner profiles locally. To do this read the ALE configuration procedure.
  • Enter the output mode (background, immediately) and the package size for outbound processing.
  Requirements
  • The customer model must be maintained.
  • RFC destinations must be maintained.
  • The customer model must be distributed.
  • To ensure that the appropriate persons in charge are informed if a processing error occurs, you must make settings in: Error processing Maintain organisational units.
  2.4. Populate & distribute IDoc using ABAP
  An IDoc consists of a control record with structure edidc and one or more data records with structure edidd. The control record contains the sender and recipient of the IDoc, as well as information on the type of message.
  To be able to pass an IDoc to the ALE layer, you must set up a field string with structure edidc and an internal table with structure edidd. They are used to call function module master_idoc_distribute, which performs the save to the database and triggers the dispatch if necessary.
  2.4.1. Example code
  The code displayed below does the following:
  • populates our IDoc segment Z1INVR with the 2 fields XBLNR and LIFNR, populates the segment name and appends this to an internal table used to store the IDoc data;
  • populates the control record info with the message type and IDoc type; and
  • calls the MASTER_IDOC_DISTRIBUTE function module which distributes the IDoc as configured in the customer distribution model.
  Data declaration statements
  DATA: C_INVREV_SEGNAME(7) TYPE C VALUE 'Z1INVRV',
  C_INVREV_MESTYPE(6) TYPE C VALUE 'ZINVRV',
  C_INVREV_IDOC_TYPE(8) TYPE C VALUE 'ZINVRV01',
  Z1INVRV LIKE Z1INVRV,
  C_INVREV_DOCTYPE LIKE BKPF-BLART VALUE 'YY',
  IDOC_CONTROL LIKE EDIDC,
  T_COMM_CONTROL LIKE EDIDC OCCURS 0 WITH HEADER LINE,
  IDOC_DATA LIKE EDIDD OCCURS 0 WITH HEADER LINE.
  Move the document header into a structure
  LOOP AT DOC_HEAD_TAB INTO DOC_HEAD.
  ENDLOOP.
  Move the document item data into a structure
  LOOP AT DOC_ITEM_TAB INTO DOC_ITEM WHERE NOT ( LIFNR IS INITIAL ).
  ENDLOOP.
  Populate the IDoc segment’s field with the required data
  CLEAR Z1INVRV.
  Z1INVRV-LIFNR = DOC_ITEM-LIFNR. “Store vendor number for filter
  Z1INVRV-XBLNR = DOC_HEAD-XBLNR. “Billing number
  IDOC_DATA-SEGNAM = C_INVREV_SEGNAME. “Segment name
  IDOC_DATA-SDATA = Z1INVRV. “Segment data
  APPEND IDOC_DATA. “Populate IDoc internal table
  Move the control data info required for the distribution
  IDOC_CONTROL-MESTYP = C_INVREV_MESTYPE.
  IDOC_CONTROL-DOCTYP = C_INVREV_IDOC_TYPE.
  Call the distribute function with the required parameters
  CALL FUNCTION 'MASTER_IDOC_DISTRIBUTE' IN UPDATE TASK
  EXPORTING
  MASTER_IDOC_CONTROL = IDOC_CONTROL
  TABLES
  COMMUNICATION_IDOC_CONTROL = T_COMM_CONTROL
  MASTER_IDOC_DATA = IDOC_DATA
  EXCEPTIONS
  ERROR_IN_IDOC_CONTROL = 1
  ERROR_WRITING_IDOC_STATUS = 2
  ERROR_IN_IDOC_DATA = 3
  SENDING_LOGICAL_SYSTEM_UNKNOWN = 4
  OTHERS = 5.
  Figure 4: Outbound processing example code
  NOTE:
  For debugging purposes, use transaction WE05 (IDoc overview) to see check your IDoc status, or to see whether an IDoc was created/
  3. INBOUND PROCESSING
  3.1. Create Function Module
  This function module is called when a message type, of type ZINVRV, comes into the receiving system. This needs to be configured and is dealt with later in this section. The function module is passed the IDoc as a parameter.
  Example parameters
  Import parameters Reference field Opt Y/N
  INPUT_METHOD BDWFAP_PAR-INPUTMETHD N
  MASS_PROCESSING BDWFAP_PAR-MASS_PROC N
  Export Parameters Reference field Opt Y/N
  WORKFLOW_RESULT BDWFAP_PAR-RESULT N
  APPLICATION_VARIABLE BDWFAP_PAR-APPL_VAR N
  IN_UPDATE_TASK BDWFAP_PAR-UPDATETASK N
  CALL_TRANSACTION_DONE BDWFAP_PAR-CALLTRANS N
  Table Parameters Reference field Optional Y/N
  IDOC_CONTRL EDIDC
  IDOC_DATA EDIDD
  IDOC_STATUS BDIDOCSTAT
  RETURN_VARIABLES BDWFRETVAR
  SERIALIZATION_INFO BDI_SER
  Exceptions
  WRONG_FUNCTION_CALLED
  Example code
  The code displayed below does the following:
  • populates a BDC table with the IDoc info;
  • calls the transaction via a BDC call; and
  • updates the IDoc status according to the BDC error status.
  EXTRACT FROM: Z_IDOC_INPUT_ZINVRV
  Declaration of local variables
  DATA: C_SEGNAM(10) TYPE C VALUE 'Z1INVRV'.
  *-Loop through the IDOCs
  LOOP AT IDOC_CONTRL.
  *---Loop through the data for the IDOC
  LOOP AT IDOC_DATA WHERE DOCNUM = IDOC_CONTRL-DOCNUM.
  CASE IDOC_DATA-SEGNAM.
  WHEN C_SEGNAM.
  Here we get the info from the idoc table
  IT_Z1INVRV = IDOC_DATA-SDATA.
  ENDCASE.
  PERFORM REV_INV.
  ENDLOOP.
  PERFORM UPDATE_IDOC_STATUS.
  ENDLOOP.
  FORM REV_INV "Reverse invoice form
  Local variables & constants
  DATA: C_TCODE LIKE BKPF-TCODE VALUE 'VF11'. "BDC transaction code
  Now we can build the bdc table to call the reversal transaction start of screen 109
  CLEAR BDC_TAB.
  BDC_TAB-PROGRAM = 'SAPMV60A'.
  BDC_TAB-DYNPRO = '109'.
  BDC_TAB-DYNBEGIN = 'X'.
  APPEND BDC_TAB.
  Document number
  CLEAR BDC_TAB.
  BDC_TAB-FNAM = 'KOMFK-VBELN(01)'.
  BDC_TAB-FVAL = IT_Z1INVRV-XBLNR. "Billing document number
  APPEND BDC_TAB.
  OK Code for screen 109
  CLEAR BDC_TAB.
  BDC_TAB-FNAM = 'BDC_OKCODE'.
  BDC_TAB-FVAL = 'SICH'.
  APPEND BDC_TAB.
  Now we can call transaction 'VF11' with the populated bdc table. The transaction is called inside the idoc-contrl loop, so a transaction will be called for every idoc (journal). the transaction is called in no-display mode ('N') because this code runs in background as it is called by ale. The update is specified to be synchronous ('S') because we have to wait for the result to update the idoc status correctly.
  CALL TRANSACTION C_TCODE USING BDC_TAB MODE 'N' UPDATE 'S'.
  Store the return code for use in another form (status update)
  RETURN_CODE = SY-SUBRC.
  Here we check the return code, if there was an error, we put the transaction in a bdc session for the user to review and correct.
  IF SY-SUBRC NE 0.
  CALL FUNCTION 'BDC_OPEN_GROUP'
  EXPORTING
  CLIENT = SY-MANDT
  GROUP = 'ZINVRV'
  USER = C_ALE_USER
  KEEP = 'X'.
  CALL FUNCTION 'BDC_INSERT'
  EXPORTING
  TCODE = C_TCODE
  TABLES
  DYNPROTAB = BDC_TAB.
  CALL FUNCTION 'BDC_CLOSE_GROUP'
  EXCEPTIONS
  NOT_OPEN = 1
  QUEUE_ERROR = 2
  OTHERS = 3.
  ELSE. "No problems
  C_EXISTS = 'N'.
  Select from the billing document table to get sales doc number
  SELECT * FROM VBRP WHERE VBELN = IT_Z1INVRV-XBLNR.
  Select from the sales document table to get user status number
  SELECT SINGLE * FROM VBAP WHERE VBELN = VBRP-AUBEL AND
  POSNR = VBRP-AUPOS.
  Select from the status table to change the user status to pending
  SELECT * FROM JEST WHERE OBJNR = VBAP-OBJNR AND
  STAT LIKE C_USER_STATUS.
  IF JEST-STAT = C_US_PENDING. "User status is pending
  JEST-INACT = C_UNCHECKED. "Make pending the active status
  UPDATE JEST.
  C_EXISTS = 'Y'. "I.E. An entry is already in table
  ELSEIF JEST-INACT = C_UNCHECKED AND JEST-STAT NE C_US_PENDING.
  JEST-INACT = C_CHECKED. "Make everything else inactive
  UPDATE JEST.
  ENDIF.
  ENDSELECT.
  IF C_EXISTS = 'N'. "I.E. Pending has never been a status before
  JEST-OBJNR = VBAP-OBJNR.
  JEST-STAT = C_US_PENDING.
  JEST-INACT = C_UNCHECKED. "Make pending the active status
  INSERT JEST.
  ENDIF.
  ENDSELECT. "Select from VBRP (Billing document table)
  ENDIF.
  ENDFORM. " REV_INV
  FORM UPDATE_IDOC_STATUS.
  Now we check the CALL TRANSACTION return code and set IDOC status
  CLEAR IDOC_STATUS.
  IF RETURN_CODE = 0.
  WORKFLOW_RESULT = '0'.
  IDOC_STATUS-DOCNUM = IDOC_CONTRL-DOCNUM.
  IDOC_STATUS-STATUS = '53'.
  IDOC_STATUS-UNAME = SY-UNAME.
  IDOC_STATUS-REPID = SY-REPID.
  IDOC_STATUS-MSGTY = SY-MSGTY.
  IDOC_STATUS-MSGID = SY-MSGID.
  IDOC_STATUS-MSGNO = SY-MSGNO.
  IDOC_STATUS-MSGV1 = SY-MSGV1.
  IDOC_STATUS-MSGV2 = SY-MSGV2.
  IDOC_STATUS-MSGV3 = SY-MSGV3.
  IDOC_STATUS-MSGV4 = SY-MSGV4.
  RETURN_VARIABLES-WF_PARAM = 'Processed_IDOCs'.
  RETURN_VARIABLES-DOC_NUMBER = IDOC_CONTRL-DOCNUM.
  APPEND RETURN_VARIABLES.
  ELSE.
  WORKFLOW_RESULT = '99999'.
  IDOC_STATUS-DOCNUM = IDOC_CONTRL-DOCNUM.
  IDOC_STATUS-STATUS = '51'.
  IDOC_STATUS-UNAME = SY-UNAME.
  IDOC_STATUS-REPID = SY-REPID.
  IDOC_STATUS-MSGTY = SY-MSGTY.
  IDOC_STATUS-MSGID = SY-MSGID.
  IDOC_STATUS-MSGNO = SY-MSGNO.
  IDOC_STATUS-MSGV1 = SY-MSGV1.
  IDOC_STATUS-MSGV2 = SY-MSGV2.
  IDOC_STATUS-MSGV3 = SY-MSGV3.
  IDOC_STATUS-MSGV4 = SY-MSGV4.
  RETURN_VARIABLES-WF_PARAM = 'ERROR_IDOCS'.
  RETURN_VARIABLES-DOC_NUMBER = IDOC_CONTRL-DOCNUM.
  APPEND RETURN_VARIABLES.
  ENDIF.
  APPEND IDOC_STATUS.
  ENDFORM. " UPDATE_IDOC_STATUS
  Figure 5: Inbound processing example code
  3.1.1. Debugging inbound FM
  Use transaction WE19 to test inbound function module in debugging mode. Also use WE05 to view the IDocs and their statuses.
  3.2. Maintain ALE attributes
  The inbound function module needs to be linked to the message type and the message type needs to be linked to the appropriate inbound process code at the partner profile level before the scenario is enabled. These steps are described below in detail.
  3.2.1. Link Message Type to Function Module (WE57) Client independent
  To link a message (ZINVRV) type to a function module (Z_IDOC_INPUT_ZINVRV) follow these steps:
  • Enter transaction WE57 (ALE -> Extensions -> Inbound -> Allocate function module to logical message)
  • Select an entry (EG. IDOC_INPUT_ORDERS) and copy
  • Type in module name Z_IDOC_INPUT_ZINVRV
  • Type in basic IDoc type as ZINVRV01
  • Type in message type as ZINVRV
  • Type object type as IDOCINVOIC (Invoice document) - Used for workflow
  • Direction should be set to 2 for inbound
  • Enter and save
  3.2.2. Define FM settings (BD51) Client independent
  • Enter transaction BD51 (ALE -> Extensions -> Inbound -> Define settings for input modules)
  • Click on New entries
  • Type in the name of the new function module Z_IDOC_INPUT_ZINVRV
  • Enter 0 for mass processing in the output column
  • Save and Exit
  3.2.3. Maintain process codes (WE42) Client dependent
  A process code needs to be maintained on each client. It then needs to be linked to the message via the partner profiles on each client. This allows the various clients to use a unique function module for the same message type.
  To maintain the process code follow these steps:
  • Log on to the appropriate receiving system client
  • Execute WE42 (ALE -> Extensions -> Inbound -> Maintaining process codes inbound)
  • Choose Inbound with ALE service
  • Choose Processing with function module
  • Click on Processing with function module and choose create icon
  • Click on New Entries
  • Type in process code ZINR and give it a description and save
  • Now you are asked to Please maintain codes added in ALE entry methods, enter and choose Z_IDOC_INPUT_FIRVSL and copy it. You should choose a FM similar to your one.
  • Enter your process code ZINR
  • Enter your function module Z_IDOC_INPUT_ZINVRV
  NOTE: The next 6 steps are used in workflow error handling.
  • Enter IDPKFIDCMT in object type
  • Enter MASSINPUTFINISHED in End event
  • Enter IDOCINVOIC in IDoc object type
  • Enter INPUTERROROCCURREDFI in IDoc start event
  • Enter INPUTFINISHEDFI in IDoc End event
  • Enter IDOCINVOIC in Application object type
  You will need to determine the task associated with object IDOCINVOIC, and then assign the appropriate position to it. This position will then receive the application error messages via workflow.
  To set up the workflow area please consult the Workflow config guide.
  3.3. Create inbound partner profile
  For each message type you need to maintain the inbound partner profiles.
  3.3.1. Maintain receiving system partner profile (WE20) Client dependent
  To maintain inbound partner profiles read the document ALE configuration procedure:
  • Add the message type ZINVRV with process code ZINR.
  • Enter the output mode (background, immediately) for inbound processing and NO message code.
  • Enter the position S and choose the ALE administrator 50000085. This position will then receive all the technical ALE errors via workflow.
  3.4. Test
  Once the inbound function module has been debugged the scenario should be ready to test in its entirety. If problems occur, read through the relevant areas of this document to check your configuration or code.
  Hope this will help you,
  If you  want me to explain more, you can give me your email id.
  Reward with points incase you are satisfied.
  Regards,
  Sushama

• Differences between rfc and ale/idoc.

  hi ..
         will u please send the differences between rfc and ale/idoc's.

  Hi,
  Please reward with points if helpful................
  ALE is SAP proprietary technology that enables data communications between two or more SAP R/3 systems and/or R/3 and external systems. There are three layers in ALE system: application services, distribution services, and communication services.
  For communication services, ALE performs a Remote Function Call (RFC) using the port definition and RFC destination specified by the customer model. RFC is used to communicate between applications of different systems in the SAP environment includes connections between SAP systems as well as between SAP systems and non-SAP systems. Remote Function Call (RFC) is the standard SAP interface for communication between SAP systems. The RFC calls a function to be executed in a remote system.
  Means of creating and operating distributed applications.
  The purpose of Application Line Enabling is to guarantee a distributed, but integrated, R/3 installation. This involves business-controlled message exchange with consistent data across loosely linked SAP applications.
  Application integration is achieved not via a central database, but via synchronous and asynchronous communication.
  Application Link Enabling comprises the following three layers:
  application services
  distribution services
  communication services
  Two Development Models
       Distribution using BAPIs
       Distribution using Message type
  The programming model "Distribution using message types" contains the definitions of message types and IDoc types and the ABAP code for processing inbound and outbound IDocs.
  Defining message types and IDoc types:
  If you want to create message type enhancements for master data distribution, you also have to create a new message type for each enhancement.
  The ALE interface does not allow you to create different segment data for different IDoc types for the same message type.
  Writing ABAP code:
           Outbound Processing
             Inbound Processing
  You can find information on other ALE functions under:
                                 Master Data Distribution
                                Communicating with Non-R/3 Systems
  1. The Remote Function Call facility allows you to call an R/3 Function module on a “remote” machine.
  2.  To communicate between two R/3 Systems and also with an External System.  External Application program also can call these function module for integration.
  3. RFC or sRFC  - Synchronous RFC
                   aRFC - Asynchronous RFC
                    tRFC - Transactional RFC
                    qRFC - Queued RFC (I.e. Serialization of tRFC)
  Types of RFC Call
  Synchronous
  CALL FUNCTION Func Destination Dest
  CALL FUNCTION func DESTINATION 'NONE' ...
  CALL FUNCTION func DESTINATION ’BACK' ...
  Asynchronous
  CALL FUNCTION func … STARTING NEW TASK taskname
  PERFORMING form ON END OF TASK
  RECEIVE RESULTS FROM FUNCTION func
  Thanks
  sivaparvathi

• ALE IDoc : Vendor Master : Cremas: Inbound IDocs are bypassing the Customiz

  Hi,
  Create Vendor master inbound IDocs - CREMAS - are overridding the customizing settings.
  For example for a particular vendor group  a number range is set in customizing.
  When we try to create a vendor through XK01 which does not fall in a particular number range as set in customising for a particular vendor group, we get a error message and creation is terminated.
  But if the same vendor is created via standard idoc CREMAS, vendor is created without any errors bypassing the customizing settings.
  So can anybody help me in this. Is there any customising setting that we need to do explicitly for Vendor IDocs. Or any other setting in standard IDoc.
  Thanks in advance.

  Hi,
  1. If your vendor changes should be updated from one system to other system through ALE, we need to active the change pointers.
  2. Change points can be activate through Tcode SALE
  3. After activating change points and your distribution model is ready, you can execute the program RBDMIDOC to genarate the IDOCs.
  4. Normally this program will be executed in the background
  5. And as you said, you have to do some validations before sending IDOCs. For this you can Filters and rules in the DM.
  OR you can write the code in user-exists of outbound posting program.
  Rewards if this info is useful.
  Thanks,

• Flat-Idocs via the IDOC-adapter

  Hi All,
  I want to send a flat-IDOC via the IDOC Adapter to a SAP R/3 system. The IDOC adapter does not accept flat-IDOC, but wants xml-IDOC. Does anyone know how to send this flat-IDOC to the SAP R/3 via ALE, but without XML-lizing the IDOC?
  I am looking in to the principle of tunneling, but that will involve some ABAP coding.
  Cheers,
  Frank

  Hi Bhavesh,
  I tried, but the IDOC adapter wants XML. The receiver IDOC adapter checks the type of the payload and determines if IDOC tunneling is used or not. I don't know yet how to change the type of the payload:
  <i>method CL_IDX_IDOC_SERVICE-GET_PAYLOAD, part of package SIDOC_ADAPTER
  test if idoc is in tunnel-payload-format
      l_content_type = l_payload->getcontenttype( ).
      IF l_content_type = if_xms_resource=>mimetype_idoc.
        l_idoc_resource ?= l_payload->getdata( ).
        l_tunnel_flag    = 'X'.
      ELSE.</i>
  and with tunneling the idoc must be stored in certain tables where the receiver idoc adapter will get the IDOC instead of the payload. And our flat-idoc is in the actual payload. So the direction I am looking into is an abap mapping, which will change the payload type and stores the flat idoc in these tables, so the idoc adapter is "fooled" to believe it is IDOC tunneling.
  Cheers,
  Frank

• Local item 0010 L  cannot be deleted via ALE

  Hi,
  I am trying to delete an line item from Sales Order BOM through BOMORD01 Idoc. When I process an IDoc, I am getting a message "Local item 0010 L  cannot be deleted via ALE" in log (SLG1). Could you please tell me how to correct this error?
  Thanks in advance.
  Regards,
  Balaji Viswanath.

  I customized IDOC_INPUT_BOMORD function module and setting memory id flg_ale = space.
  Regards,
  Balaji Viswanath.

• COPCA - distribute cost estimate via ALE

  Hi,
  I was wondering if anyone has experience distributing cost estimate data via ALE, using COPCA IDOC?!
  What are the neccessary set up and consderation?
  Thanks,
  Alice

  Hi
  Thanks for your note.
  Please advise me on the financial statement version, as well.
  The reason for investigating this is to find out standard way to distribute/extract FSV out of SAP for both nodes of FSV and assignment of the GL accounts to the nodes.
  If you could give me some hint, i would be more grateful.
  Kind regards
  taro

• Employee integration R/3 - CRM  via ALE (HRMD_ABA)

  Hi friends ,
  I am trying to download the Employee records from HR to CRM via ALE and using the Message type <b>HRMD_ABA</b> and Basic Idoc Type <b>HRMD_ABA01</b>. I am able to download the employee records and it works fine .
  But I have a problem while maintaining the employee records in CRM .If I go to TX- BP in CRM and try to change the data on the Employee record (created via ALE).It is dumping with the following Error --> <i>MESSAGE_TYPE_X  Nested call of PERFORM ON COMMIT: NESTED_PERFORM_ON_COMMIT caller: SAPLB
  UPA_BADI_CALL program: SAPLBUPA_BADI_CALL form: BADI_CALL</i>
  This is happening for the employee records created via ALE not for the employee records created in CRM via TX -BP
  Has anyone encounterd this problem ,any kind of help will be really appreciated.
  Thanks and Regards,
  Ankur

  Hi Ankur,
  a different idea would be the process of note 550055.
  Maybe this helps you further.
  Sascha

• Diff... between  ALE, IDOC, RFC, BAPI, BADI --- Not clear and clarify

  Hi All
      I am learning XI and the difference between " ALE, IDOC, RFC, BAPI, BADI "
      Not clear and when to use what and how in point of XI ?
     Pl..clarify me
  Adv..thanks and points
  --- Rakesh Behera

  Hi
  This will expalin you every thing ...pl..go through
  The interface concept of the classic R/3 is based on two different strategies: Remote Function Calls (RFC) and data exchange through IDoc message documents. RFC makes direct and synchronous calls of a program in the remote system. If the caller is an external program it will call an RFC-enabled function in R/3 and if the calling program is the R/3 system it will call an RFC-function in another R/3-system or it will call a non-R/3 program through a gateway-proxy (usually rfcexec.exe). BAPIs are a subset of the RFC-enabled function modules, especially designed as Application Programming Interface (API) to the SAP business object, or in other words: are function modules officially released by SAP to be called from external programs.
  IDocs are text encoded documents with a rigid structure that are used to exchange data between R/3 and a foreign system. Instead of calling a program in the destination system directly, the data is first packed into an IDoc and then sent to the receiving system, where it is analyzed and properly processed. Therefore an IDoc data exchange is always an asynchronous process. The significant difference between simple RFC-calls and IDoc data exchange is the fact, that every action performed on IDocs are protocolled by R/3 and IDocs can be reprocessed if an error occurred in one of the message steps.
  While IDocs have to be understood as a data exchange protocol, EDI and ALE are typical use cases for IDocs. R/3 uses IDocs for both EDI and ALE to deliver data to the receiving system. ALE is basically the scheduling mechanism that defines when and between which partners and what kind of data will be exchanged on a regular or event triggered basis. Such a set-up is called an ALE-scenario.
  The philosophical difference between EDI and ALE can be pinned as follows: If we send data to an external partner, we generally speak of EDI, while ALE is a mechanism to reliable replicate data between trusting systems to store a redundant copy of the IDoc data. The difference is made clear, when we think of a purchase order that is sent as an IDoc. If we send the purchase order to a supplier then the supplier will store the purchase order as a sales order. However, if we send the purchase order via ALE to another R/3 system, then the receiving system will store the purchase order also as a purchase order.
  I hope this will help you to understand the difference bet..those
  regards
  --- prasad