Difference between session  and cookie?

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• Difference between session and connection

  Not sure this is the right place for this, but I am not able to find a proper definition between these 2 terms.
  What is the difference between session and connection, theoritically speaking ?

  Hello
  In order to get the meaning of terms Connection and Session let's define first the term Flow.
  The definition of a Flow is historically accepted as:
  A unidirectional sequence of packets between 2 network endpoints that have the following 7 things in common:
  1. Source IP address
  2. Destination IP address
  3. L3 Protocol type
  4. Source port
  5. Destination port
  6. Tos (Type of Service)
  7. Input interface
  The terms Connection and Session can have many different meanings depending on the framework that they are used, but it can be said that:
  Connection: A bidirectional Flow
  Session: Many connections between the same source and same destination
  HTH

• What is the difference between Session timeout and Short Session timeout Under Excel Service Application -- session management?

  Under Excel Service Application --> session management; what is the difference between Session timeout and Short Session timeout?

  Any call made from the API will automatically be set to the “Session Timeout” period, no matter
  what. Calls made from EWA (Excel Web Access) will get the “Short Session Timeout” period assigned to it initially.
  Short Session Timeout and Session Timeout in Excel Services
  Short Session Timeout and Session Timeout in Excel Services - Part 2
  Sessions and session time-outs in Excel Services
  above links are from old version but still applies to all.
  Please remember to mark your question as answered &Vote helpful,if this solves/helps your problem. ****************************************************************************************** Thanks -WS MCITP(SharePoint 2010, 2013) Blog: http://wscheema.com/blog

• Difference between Session Facade and Business Delegate design patterns

  Can someone tell me the differences between Session Facade and Business Delegate design patterns

  1. Session Facade decouples client code from Entity beans introducing session bean as a middle layer while Business Delegate decouples client code from EJB layer ( Session beans).
  2. SF reduces network overhead while BD reduces maintenance overhead.
  3. In SF any change in Session bean would make client code change.
  While in DB client is totally separate from Session bean because BD layer insulate client from Session beans(EJB layer).
  3. In only SF scenario, Client coder has to know about EJB programming but BD pattern no EJB specialization needed.
  4.SF emphasizes on separation of Verb, Noun scenario while BD emphasizes on separation of client(presentable) and EJB layer.
  Anybody pls suggest more differences ?

• Difference between Session method and call transaction

  Hi,
  please give me the differences between session method and call transaction,
  briefly explaining synchronus , asynchronus, process, update.
  Thanks in advance

  Hi Vijay Kumar
  CLASSICAL BATCH INPUT (Session Method)
  CALL TRANSACTION
  BATCH INPUT METHOD:
  This method is also called as ‘CLASSICAL METHOD’.
  Features:
  Asynchronous processing.
  Synchronous Processing in database update.
  Transfer data for more than one transaction.
  Batch input processing log will be generated.
  During processing, no transaction is started until the previous transaction has been written to the database.
  CALL TRANSACTION METHOD :
  This is another method to transfer data from the legacy system.
  Features:
  Synchronous processing. The system performs a database commit immediately before and after the CALL TRANSACTION USING statement.
  Updating the database can be either synchronous or asynchronous. The program specifies the update type.
  Transfer data for a single transaction.
  Transfers data for a sequence of dialog screens.
  No batch input processing log is generated.
  http://www.sap-img.com/abap/difference-between-batch-input-and-call-transaction-in-bdc.htm
  Among the two methods call transaction is better compared to session bcoz data transfer is faster in it.
  Differences between call transaction and session.
  Session Method:
  1) Data is not updated in the database table until the session is processed.
  2) No sy-subrc is returned.
  3) Error log is created for error records.
  4) Updation is always synchronous.
  Call Transaction Method:
  1) Immediate updation in the database table.
  2) sy-subrc is returned.
  3)Error need to be handled explicitly.
  4) updation can be synchronous as well as asynchronous.
  2) ya u can use using the N mode no screen.
  3)u can't handle multiple transaction in call transaction.
  4) u can handle multiple transaction in session using the BDC_INSERT fm.
  5)When u go to SM35 u can able to see the error records.
  Which is best?
  That depends on your requirement. Both of them have there advantages.
  According to the situation u can choose any one of these.
  difference between batch input and call transaction in BDC Session method.
  1) synchronous processing.
  2) can tranfer large amount of data.
  3) processing is slower.
  4) error log is created
  5) data is not updated until session is processed.
  Call transaction.
  1) asynchronous processing
  2) can transfer small amount of data
  3) processing is faster.
  4) errors need to be handled explicitly
  5) data is updated automatically
  For session method,these are the function modules to b used.
  BDC_OPEN_GROUP
  BDC_INSERT
  BDC_CLOSE_GROUP
  For call transaction,this is the syntax.
  CALL TRANSACTION TCODE USING BDCDATA
  MODE A or E or N
  UPDATE A or S
  MESSAGES INTO MESSTAB.
  Take a scenario where we need to post documents in FB01 and the input file has say 2000 records (2000 documents, not line items in FB01 but 2000 records)
  In the BDC call transaction method
  We call the transaction FB01 2000 times (once for each record posting) and if the processing fails in record no 3 it can be captured and start with reocord 4.
  Eg: Loop at itab.
  call transaction FB01
  capture errors
  endloop.
  In the session method.
  We do not explicity call the transaction 2000 times, but all the records are appeneded into a session and this session is stored. The processinf of the session is done wwhenever the user wants it to be done. Hence the errors cannot be captured in the program itself
  Check these link:
  http://www.sap-img.com/abap/difference-between-batch-input-and-call-transaction-in-bdc.htm
  http://www.sap-img.com/abap/question-about-bdc-program.htm
  http://www.itcserver.com/blog/2006/06/30/batch-input-vs-call-transaction/
  http://www.planetsap.com/bdc_main_page.htm
  Batch Input Session method is asynchronous as told by others here. But the advantage of this is that you have all the error messages and the data for each transaction held persistantly. You don't have to code anything for processing them or writing the logs.
  But at the same time, the same feature can be disadvantageous if you need to react to an error or if there are too many errors to manually correct in a session. Since the session are created in the program and its execution is done seperately, you loose the trackability of such transactions.
  With a call transaction, what was a disadvantage above will become an advantage. Call transaction immediately gives you messages back and you can react to it in your program. But the disadvantage is that, if you have several hundreds of transactions to run, running them from within the program can be resource crunching affair. It will hamper the system performance and you cannot really distribute the load. Of course, you have some mechanisms with which you can overcome this, but you will have to code for it. Also, storing the messages and storing the errored transaction data etc will have to be handled by you in the program. Whereas, in batch input session, your program's job is to just create the session, after that everything is standard SAP system's responsibility.
  Ideally, you should do a call transaction if the resources are not a problem and if it fails, put the errored transaction into a session.
  You can decide based on the data volume that your BDC is processing. If data volume is high go for session else call transaction will do.The call transaction updates will be instantaneous where as session needs to be processed explictly after creation.
  Session Method
  1) Session method supports both small amount of data aswell as large amount of data
  2) data processing is asynchronus and data updation is synchronus.
  3) it process multiple apllication while perfomaning validations.
  4) in session method data will be updated in data base only after processing session only.
  5) system provide by default logfile for handling error records.
  6) it supports both foreground aswell as background process
  in bdc we use FM ...
  bdc_open_group " for creating Session
  bdc_insert " adding transaction and bdcdata table for updating database
  bdc_close_group " for closing Session
  Call Transaction
  1) Call transaction exclusively for small amout of data
  2) it supports only one apllication while perfoming validations
  3) there is no default logfile, We can explicitly provide logic for creating logfile for handling error records.
  we can create logfile by using structure....BDCMSGCOLL
  4) it doesn't support background processing.
  5) data processing is synchronous and Data updation is Synchronous( default), in
  this method also supports daya updation in asynchronus process also.
  syntax:
  Call transaction <transaction-name> using BDCDATA
  mode <A/N/E>
  update <L/A/S>
  messages into BDCMSGCOLL.
  BDC:
  Batch Data Communication (BDC) is the process of transferring data from one SAP System to another SAP system or from a non-SAP system to SAP System.
  Features :
  BDC is an automatic procedure.
  This method is used to transfer large amount of data that is available in electronic medium.
  BDC can be used primarily when installing the SAP system and when transferring data from a legacy system (external system).
  BDC uses normal transaction codes to transfer data.
  Types of BDC :
  CLASSICAL BATCH INPUT (Session Method)
  CALL TRANSACTION
  BATCH INPUT METHOD:
  This method is also called as ‘CLASSICAL METHOD’.
  Features:
  Asynchronous processing.
  Synchronous Processing in database update.
  Transfer data for more than one transaction.
  Batch input processing log will be generated.
  During processing, no transaction is started until the previous transaction has been written to the database.
  CALL TRANSACTION METHOD :
  This is another method to transfer data from the legacy system.
  Features:
  Synchronous processing. The system performs a database commit immediately before and after the CALL TRANSACTION USING statement.
  Updating the database can be either synchronous or asynchronous. The program specifies the update type.
  Transfer data for a single transaction.
  Transfers data for a sequence of dialog screens.
  No batch input processing log is generated.
  For BDC:
  http://myweb.dal.ca/hchinni/sap/bdc_home.htm
  https://www.sdn.sap.com/irj/sdn/wiki?path=/display/home/bdc&
  http://www.sap-img.com/abap/learning-bdc-programming.htm
  http://www.sapdevelopment.co.uk/bdc/bdchome.htm
  http://www.sap-img.com/abap/difference-between-batch-input-and-call-transaction-in-bdc.htm
  http://help.sap.com/saphelp_47x200/helpdata/en/69/c250684ba111d189750000e8322d00/frameset.htm
  http://www.sapbrain.com/TUTORIALS/TECHNICAL/BDC_tutorial.html
  Check these link:
  http://www.sap-img.com/abap/difference-between-batch-input-and-call-transaction-in-bdc.htm
  http://www.sap-img.com/abap/question-about-bdc-program.htm
  http://www.itcserver.com/blog/2006/06/30/batch-input-vs-call-transaction/
  http://www.planetsap.com/bdc_main_page.htm
  call Transaction or session method ?
  Check the following links:
  http://www.sap-img.com/bdc.htm
  See below example code :
  Call three FM : BDC_OPEN_GROUP,BDC_INSERT and BDC_CLOSE_GROUP.
  Once you execute the program and it creates the session at SM35 Transaction.
  Report : ZMPPC011
  Type : Data upload
  Author : Chetan Shah
  Date : 05/05/2005
  Transport : DV3K919557
  Transaction: ??
  Description: This ABAP/4 Program creates new Production Versions
  (C223). It accepts tab-delimited spreadsheet input and
  creates BDC sessions.
  Modification Log
  Date Programmer Request # Description
  06/10/2005 Chetan Shah DV3K919557 Initial coding
  report zmppc011 no standard page heading line-size 120 line-count 55
  message-id zz.
  pool of form routines
  include zmppn001.
  Define BDC Table Structure
  data: begin of itab_bdc_tab occurs 0.
  include structure bdcdata.
  data: end of itab_bdc_tab.
  Input record layout of Leagcy File
  data: begin of itab_xcel occurs 0,
  matnr(18) type c,
  werks(4) type c,
  alnag(2) type c,
  verid(4) type c,
  text1(40) type c,
  bstmi like mkal-bstmi,
  bstma like mkal-bstma,
  adatu(10) type c,
  bdatu(10) type c,
  stlal(2) type c,
  stlan(1) type c,
  serkz(1) type c,
  mdv01(8) type c,
  elpro(4) type c,
  alort(4) type c,
  end of itab_xcel.
  data: begin of lt_pp04_cache occurs 0,
  matnr like itab_xcel-matnr,
  werks like itab_xcel-werks,
  alnag like itab_xcel-alnag,
  plnnr like mapl-plnnr,
  arbpl like crhd-arbpl,
  ktext like crtx-ktext,
  end of lt_pp04_cache.
  data: v_ssnnr(4) type n,
  v_lines_in_xcel like sy-tabix,
  v_ssnname like apqi-groupid,
  v_trans_in_ssn type i,
  wa_xcel LIKE itab_xcel,
  l_tabix like sy-tabix,
  v_matnr like rc27m-matnr,
  v_plnnr like mapl-plnnr,
  v_plnal like mapl-plnal,
  v_tcode like sy-tcode value 'C223',
  v_plnty like plas-plnty value 'R',
  v_objty like crhd-objty value 'A',
  v_plpo_steus like plpo-steus value 'PP04',
  v_verwe like crhd-verwe value '0007'.
  Parameters
  selection-screen: skip 3.
  selection-screen: begin of block 1 with frame.
  parameters: p_name like rlgrap-filename
  default 'C:\My Documents\InputFile.txt'
  obligatory,
  bdc session name prefix
  p_bdcpfx(6) default 'ZPVCRT'
  obligatory,
  number for transction per BDC session
  p_trnssn type i
  default 2000 obligatory,
  retain the BDC session after successfull execution
  p_keep like apqi-qerase
  default 'X',
  user who will be executing BDC session
  p_uname like apqi-userid
  default sy-uname
  obligatory.
  selection-screen: end of block 1.
  possible entry list (F4 dropdown) for input file name
  at selection-screen on value-request for p_name.
  *-SELECT FILE FROM USERS LOCAL PC
  call function 'WS_FILENAME_GET'
  exporting
  DEF_FILENAME = ' '
  def_path = 'C:\Temp\'
  mask = ',.,..'
  mode = 'O'
  title = 'Select File '(007)
  importing
  filename = p_name
  RC =
  exceptions
  inv_winsys = 1
  no_batch = 2
  selection_cancel = 3
  selection_error = 4
  others = 5.
  if sy-subrc 0.
  MESSAGE ID sy-msgid TYPE sy-msgty NUMBER sy-msgno
  WITH sy-msgv1 sy-msgv2 sy-msgv3 sy-msgv4.
  endif.
  begin the show
  start-of-selection.
  read data from input file
  perform transfer_xcel_to_itab.
  loop at itab_xcel.
  hang on to xcel line num
  l_tabix = sy-tabix.
  each line in the xcel file marks begining of new prod.version defn
  if num-of-trnas-in-session = 0, create new BDC session
  if v_trans_in_ssn is initial.
  perform bdc_session_open.
  endif.
  begin new bdc script for rtg create trans
  fill in bdc-data for prod.version maintenance screens
  perform bdc_build_script.
  insert the bdc script as a BDC transaction
  perform bdc_submit_transaction.
  keep track of how many BDC transactions were inserted in the BDC
  session
  add 1 to v_trans_in_ssn.
  if the user-specified num of trans in BDC session is reached OR
  if end of input file is reached, close the BDC session
  if v_trans_in_ssn = p_trnssn or
  l_tabix = v_lines_in_xcel.
  perform bdc_session_close.
  clear v_trans_in_ssn.
  endif.
  endloop.
  top-of-page.
  call function 'Z_HEADER'
  EXPORTING
  FLEX_TEXT1 =
  FLEX_TEXT2 =
  FLEX_TEXT3 =
  FORM TRANSFER_XCEL_TO_ITAB *
  Transfer Xcel Spreadsheet to SAP Internal Table *
  form transfer_xcel_to_itab.
  Read the tab-delimited file into itab
  call function 'WS_UPLOAD'
  exporting
  filename = p_name
  filetype = 'DAT'
  IMPORTING
  filelength = flength
  tables
  data_tab = itab_xcel
  exceptions
  conversion_error = 1
  file_open_error = 2
  file_read_error = 3
  invalid_table_width = 4
  invalid_type = 5
  no_batch = 6
  unknown_error = 7
  others = 8.
  if sy-subrc = 0.
  sort the data
  sort itab_xcel by matnr werks.
  clear v_lines_in_xcel.
  if no data in the file - error out
  describe table itab_xcel lines v_lines_in_xcel.
  if v_lines_in_xcel is initial.
  write: / 'No data in input file'.
  stop.
  endif.
  else.
  if file upload failed - error out
  write: / 'Error reading input file'.
  stop.
  endif.
  endform.
  FORM BDC_SESSION_OPEN *
  Open BDC Session *
  form bdc_session_open.
  create bdc session name = prefix-from-selectn-screen + nnnn
  add 1 to v_ssnnr.
  concatenate p_bdcpfx v_ssnnr into v_ssnname.
  open new bdc session
  call function 'BDC_OPEN_GROUP'
  exporting
  client = sy-mandt
  group = v_ssnname
  keep = p_keep
  user = p_uname
  exceptions
  client_invalid = 1
  destination_invalid = 2
  group_invalid = 3
  group_is_locked = 4
  holddate_invalid = 5
  internal_error = 6
  queue_error = 7
  running = 8
  system_lock_error = 9
  user_invalid = 10
  others = 11.
  endform.
  FORM BDC_BUILD_SCRIPT *
  Build BDC *
  form bdc_build_script.
  data: l_arbpl like crhd-arbpl,
  l_text1 like mkal-text1,
  l_mdv01 like mkal-mdv01,
  l_mapl like mapl.
  clear bdc-data itab - begin of new bdc transaction
  clear itab_bdc_tab.
  refresh itab_bdc_tab.
  read material cross reference tables to determine sap part#
  clear : v_matnr, v_plnnr, v_plnal.
  perform read_matnr_cross_ref using itab_xcel-matnr
  itab_xcel-werks
  changing v_matnr.
  determine the version description to use
  if itab_xcel-text1 is initial.
  l_text1 = itab_xcel-verid.
  else.
  l_text1 = itab_xcel-text1.
  endif.
  determine the routing group# and group ctr# to use
  perform read_routing .
  determine the production line to use
  if itab_xcel-mdv01 is initial.
  if not provided in the file then:
  prod line = work ctr on the last PP04 op of the rtg determined above
  perform read_wc_on_last_pp04 using v_plnnr v_plnal
  changing l_mdv01.
  NOTE: when executing the above form\routine, if v_plnnr is initial
  or v_plnal is initial, THEN l_mdv01 will automatically be
  returned blank (ie initial)
  else.
  l_mdv01 = itab_xcel-mdv01.
  endif.
  build bdc script
  perform bdc_build_script_record
  fill in initial screen
  using: 'X' 'SAPLCMFV' '1000',
  ' ' 'BDC_OKCODE' '=ENTE',
  ' ' 'MKAL-WERKS' itab_xcel-werks,
  ' ' 'MKAL-MATNR' v_matnr,
  ' ' 'MKAL_ADMIN-DISPO' space,
  ' ' 'MKAL-PLNNR' space,
  ' ' 'MKAL_ADMIN-STTAG' space,
  ' ' 'MKAL-PLNNG' space,
  ' ' 'MKAL-MDV01' space,
  ' ' 'MKAL-PLNNM' space,
  click create button on initial screen and go to detail screen
  'X' 'SAPLCMFV' '1000',
  ' ' 'BDC_OKCODE' '=CREA',
  fill in the detail screen and go back to initial screen
  'X' 'SAPLCMFV' '2000',
  ' ' 'BDC_OKCODE' '=CLOS',
  ' ' 'MKAL_EXPAND-MATNR' v_matnr,
  ' ' 'MKAL_EXPAND-VERID' itab_xcel-verid,
  ' ' 'MKAL_EXPAND-TEXT1' l_text1,
  ' ' 'MKAL_EXPAND-BSTMI' itab_xcel-bstmi,
  ' ' 'MKAL_EXPAND-BSTMA' itab_xcel-bstma,
  ' ' 'MKAL_EXPAND-ADATU' itab_xcel-adatu,
  ' ' 'MKAL_EXPAND-BDATU' itab_xcel-bdatu,
  ' ' 'MKAL_EXPAND-PLTYG' v_plnty,
  ' ' 'MKAL_EXPAND-PLNNG' v_plnnr,
  ' ' 'MKAL_EXPAND-ALNAG' v_plnal,
  ' ' 'MKAL_EXPAND-STLAL' itab_xcel-stlal,
  ' ' 'MKAL_EXPAND-STLAN' itab_xcel-stlan,
  ' ' 'MKAL_EXPAND-SERKZ' itab_xcel-serkz,
  ' ' 'MKAL_EXPAND-MDV01' l_mdv01,
  ' ' 'MKAL_EXPAND-ELPRO' itab_xcel-elpro,
  ' ' 'MKAL_EXPAND-ALORT' itab_xcel-alort,
  save the production version from initial screen
  'X' 'SAPLCMFV' '1000',
  ' ' 'BDC_OKCODE' '=SAVE'.
  endform.
  FORM BDC_SUBMIT_TRANSACTION *
  Submit BDC Session *
  form bdc_submit_transaction.
  Load BDC script as a trqansction in BDC session
  call function 'BDC_INSERT'
  exporting
  tcode = v_tcode
  tables
  dynprotab = itab_bdc_tab
  exceptions
  internal_error = 01
  not_open = 02
  queue_error = 03
  tcode_invalid = 04.
  endform.
  FORM BDC_BUILD_SCRIPT_RECORD *
  form bdc_build_script_record using dynbegin name value.
  clear itab_bdc_tab.
  if dynbegin = 'X'.
  move: name to itab_bdc_tab-program,
  value to itab_bdc_tab-dynpro,
  'X' to itab_bdc_tab-dynbegin.
  else.
  move: name to itab_bdc_tab-fnam,
  value to itab_bdc_tab-fval.
  shift itab_bdc_tab-fval left deleting leading space.
  endif.
  append itab_bdc_tab.
  endform.
  FORM BDC_SESSION_CLOSE *
  Close BDC Session *
  form bdc_session_close.
  close the session
  call function 'BDC_CLOSE_GROUP'
  exceptions
  not_open = 1
  queue_error = 2
  others = 3.
  skip 2.
  if sy-subrc ne 0.
  write: / 'Error Closing BDC Session ' , 'RETURN CODE: ', sy-subrc.
  else.
  write : / 'Session created:', v_ssnname,
  50 '# of transactions:', v_trans_in_ssn.
  endif.
  endform.
  *& Form read_routing_cache
  *FORM read_routing_cache USING pi_matnr
  pi_werks
  pi_alnag
  pi_verid
  pi_mdv01.
  DATA: BEGIN OF lt_plpo OCCURS 0,
  vornr LIKE plpo-vornr,
  objty LIKE crhd-objty,
  objid LIKE crhd-objid,
  arbpl LIKE crhd-arbpl,
  END OF lt_plpo,
  l_mapl_plnnr LIKE mapl-plnnr.
  determine the routing group#
  CLEAR lt_pp04_cache.
  chk if its in the cache first, if not then get it from MAPL table
  and put it in the cache
  READ TABLE lt_pp04_cache WITH KEY matnr = pi_matnr
  werks = pi_werks
  alnag = pi_alnag.
  IF sy-subrc = 0.
  do nothing - lt_pp04_cache header line has rtg#
  ELSE.
  get the routing group # from MAPL
  SELECT plnnr INTO l_mapl_plnnr
  FROM mapl UP TO 1 ROWS
  WHERE matnr = pi_matnr AND
  werks = pi_werks AND
  plnty = 'R' AND
  plnal = pi_alnag AND
  loekz = space.
  ENDSELECT.
  put it in the cache internal table
  IF NOT l_mapl_plnnr IS INITIAL.
  lt_pp04_cache-matnr = pi_matnr.
  lt_pp04_cache-werks = pi_werks.
  lt_pp04_cache-alnag = pi_alnag.
  lt_pp04_cache-plnnr = l_mapl_plnnr.
  APPEND lt_pp04_cache.
  ENDIF.
  ENDIF.
  if the rtg# was determined AND
  -- the work center was not determined yet AND
  -- work center was really needed for this line in the input file
  then
  -- read the work center from last PP04 operation on the routing
  -- update the cache accordingly
  IF NOT lt_pp04_cache-plnnr IS INITIAL AND
  lt_pp04_cache-arbpl IS INITIAL AND
  ( pi_verid IS INITIAL OR
  pi_mdv01 IS INITIAL ).
  read the last PP04 operation
  CLEAR lt_plpo.
  REFRESH lt_plpo.
  SELECT vornr eobjty eobjid e~arbpl
  INTO CORRESPONDING FIELDS OF TABLE lt_plpo
  FROM plas AS b
  INNER JOIN plpo AS c
  ON bplnty = cplnty AND
  bplnnr = cplnnr AND
  bzaehl = czaehl
  INNER JOIN crhd AS e
  ON carbid = eobjid
  WHERE b~plnty = v_plnty AND
  b~plnnr = lt_pp04_cache-plnnr AND
  b~plnal = lt_pp04_cache-alnag AND
  c~loekz = space AND
  c~steus = v_plpo_steus AND
  e~objty = v_objty AND
  e~werks = lt_pp04_cache-werks AND
  e~verwe = v_verwe.
  SORT lt_plpo BY vornr DESCENDING.
  READ TABLE lt_plpo INDEX 1.
  IF NOT lt_plpo-arbpl IS INITIAL.
  lt_pp04_cache-arbpl = lt_plpo-arbpl.
  read work center description
  SELECT SINGLE ktext INTO lt_pp04_cache-ktext
  FROM crtx WHERE objty = lt_plpo-objty AND
  objid = lt_plpo-objid AND
  spras = sy-langu.
  the following read will get the index of the correct record to be
  updated in the cache
  READ TABLE lt_pp04_cache
  WITH KEY matnr = pi_matnr
  werks = pi_werks
  alnag = pi_alnag.
  MODIFY lt_pp04_cache
  INDEX sy-tabix
  TRANSPORTING arbpl ktext.
  ENDIF.
  ENDIF.
  *ENDFORM. " read_last_pp04_operation_cache
  *& Form read_routing
  form read_routing.
  data: begin of lt_mapl occurs 0,
  plnnr like mapl-plnnr,
  plnal like mapl-plnal,
  end of lt_mapl,
  l_arbpl like crhd-arbpl.
  get all the rtg# and grp ctr# from MAPL
  select plnnr plnal
  into corresponding fields of table lt_mapl
  from mapl
  where matnr = v_matnr and
  werks = itab_xcel-werks and
  plnty = v_plnty and "Rate Routing
  loekz = space. "with del flag = OFF
  sort lt_mapl by plnal.
  if not itab_xcel-verid is initial.
  if the verid=0001 then use the 1st good rtg-grp# and grp-ctr#
  if itab_xcel-verid = '0001'.
  read table lt_mapl index 1.
  v_plnnr = lt_mapl-plnnr.
  v_plnal = lt_mapl-plnal.
  else.
  if the verid0001 then use the rtg-grp# and grp-ctr# of the routing
  whose work center on the last PP04 operation matches the given verid
  loop at lt_mapl.
  clear l_arbpl.
  get the work center from the last PP04 operation
  perform read_wc_on_last_pp04 using lt_mapl-plnnr
  lt_mapl-plnal
  changing l_arbpl.
  if itab_xcel-verid = l_arbpl.
  v_plnnr = lt_mapl-plnnr.
  v_plnal = lt_mapl-plnal.
  exit.
  endif.
  endloop.
  endif.
  else.
  do nothing
  endif.
  For version IDs that are other then '0000' or 'ZWIP' :--
  if itab_xcel-verid NE '0000' and
  itab_xcel-verid NE 'ZWIP'.
  if routing group# or group counter was not determined, make the
  valid-to date 99/99/9999 so that the BDC, on execution, errors out.
  if v_plnnr is initial or
  v_plnal is initial.
  itab_xcel-bdatu = '99/99/9999'.
  endif.
  endif.
  determine the routing group#
  CLEAR lt_pp04_cache.
  chk if its in the cache first, if not then get it from MAPL table
  and put it in the cache
  READ TABLE lt_pp04_cache WITH KEY matnr = pi_matnr
  werks = pi_werks
  alnag = pi_alnag.
  IF sy-subrc = 0.
  do nothing - lt_pp04_cache header line has rtg#
  ELSE.
  get the routing group # from MAPL
  put it in the cache internal table
  IF NOT l_mapl_plnnr IS INITIAL.
  lt_pp04_cache-matnr = pi_matnr.
  lt_pp04_cache-werks = pi_werks.
  lt_pp04_cache-alnag = pi_alnag.
  lt_pp04_cache-plnnr = l_mapl_plnnr.
  APPEND lt_pp04_cache.
  ENDIF.
  ENDIF.
  if the rtg# was determined AND
  -- the work center was not determined yet AND
  -- work center was really needed for this line in the input file
  then
  -- read the work center from last PP04 operation on the routing
  -- update the cache accordingly
  IF NOT lt_pp04_cache-plnnr IS INITIAL AND
  lt_pp04_cache-arbpl IS INITIAL AND
  ( pi_verid IS INITIAL OR
  pi_mdv01 IS INITIAL ).
  read the last PP04 operation
  CLEAR lt_plpo.
  REFRESH lt_plpo.
  SELECT vornr eobjty eobjid e~arbpl
  INTO CORRESPONDING FIELDS OF TABLE lt_plpo
  FROM plas AS b
  INNER JOIN plpo AS c
  ON bplnty = cplnty AND
  bplnnr = cplnnr AND
  bzaehl = czaehl
  INNER JOIN crhd AS e
  ON carbid = eobjid
  WHERE b~plnty = v_plnty AND
  b~plnnr = lt_pp04_cache-plnnr AND
  b~plnal = lt_pp04_cache-alnag AND
  c~loekz = space AND
  c~steus = v_plpo_steus AND
  e~objty = v_objty AND
  e~werks = lt_pp04_cache-werks AND
  e~verwe = v_verwe.
  SORT lt_plpo BY vornr DESCENDING.
  READ TABLE lt_plpo INDEX 1.
  IF NOT lt_plpo-arbpl IS INITIAL.
  lt_pp04_cache-arbpl = lt_plpo-arbpl.
  read work center description
  SELECT SINGLE ktext INTO lt_pp04_cache-ktext
  FROM crtx WHERE objty = lt_plpo-objty AND
  objid = lt_plpo-objid AND
  spras = sy-langu.
  the following read will get the index of the correct record to be
  updated in the cache
  READ TABLE lt_pp04_cache
  WITH KEY matnr = pi_matnr
  werks = pi_werks
  alnag = pi_alnag.
  MODIFY lt_pp04_cache
  INDEX sy-tabix
  TRANSPORTING arbpl ktext.
  ENDIF.
  ENDIF.
  endform. " read_last_pp04_operation_cache
  *& Form read_wc_on_last_pp04
  form read_wc_on_last_pp04 using pi_plnnr
  pi_plnal
  changing pe_arbpl.
  data: begin of lt_plpo occurs 0,
  vornr like plpo-vornr,
  objty like crhd-objty,
  objid like crhd-objid,
  arbpl like crhd-arbpl,
  end of lt_plpo.
  get all the PP04 operations for the given rtg# & grp-ctr#
  select vornr eobjty eobjid e~arbpl
  into corresponding fields of table lt_plpo
  from plas as b
  inner join plpo as c
  on bplnty = cplnty and
  bplnnr = cplnnr and
  bzaehl = czaehl
  inner join crhd as e
  on carbid = eobjid
  where b~plnty = v_plnty and "Rate Routing
  b~plnnr = pi_plnnr and
  b~plnal = pi_plnal and
  c~loekz = space and "Oper Del Flag = OFF
  c~steus = v_plpo_steus and "PP04
  e~objty = v_objty. "WC Obj Type = 'A'
  read the last operation
  sort lt_plpo by vornr descending.
  read table lt_plpo index 1.
  pe_arbpl = lt_plpo-arbpl.
  endform. " read_wc_on_last_pp04
  Goto LSMW-> Select Direct Input method in 1st step. These are the standard programs for data transfer.
  Otherwise goto SPRO->SAP Reference IMG-> Under this you'll find standard data transfer programs module wise.
  Reward points,
  Shakir

• Difference between Session method and Call transaction method

  Hi,
  Difference between Session method and Call transaction method in BDC

  Hi,
  SESSION method:
  Is a standard procedure for transferring large amount of data into the R/3 system.
  Data consistency is ensured because batch input uses all thje checks conducted on the normal screen.
  It is a two step procedure:
  1.  Progarm: creates batch input session. This session is the data file that includes everything to begin the transaction.
  2. Process session: Which then actually transfers the data to database table.
  In this method an ABAP/4 program reads the external data that is to be entered in the SAP system and stores the data in a session.
  A session stores the actions that are required to enter your data using normal SAP transactions i.e. data is transferred to session which inturn transfers data to database table. Session is an intermediate step between internal table and database table.
  Data along with it's actions are stored in session. i.e. data for screen fields, to which screen it is passed, the program name behind it and how next screen is processed.
  When the program has finished generating the session, u can run the session to execute the SAP transactions in it.
  BDC_OPEN_GROUP
            You create the session through program by BDC_OPEN_GROUP function.
  1) User Name: User Name.
  2) Group       : Name of the session
  3) Lock Date : The date when you want to process the session.
  4) Keep        : This parameter is passed as 'X' when you want to retain session even       after processing it.                    
  BDC_INSERT
       Data is transferred to session by BDC_INSERT.
  BDC_CLOSE_GROUP.
       With this function the session will be closed.
  CALL TRANSACTION method.
  Syntax: call transaction <tr code> using <bdctab>
                               mode <A/N/E>
                               update <S/A>
                               messages into <internal table>.
  <tr code>   : transaction code
  <bdctab>   : Name of the BDC table
  mode: mode in which you execute the transaction.      
  A   : all screen mode ( all the screens of the transaction are displayed )
  N   : no screen mode ( no screen will be displayed when you execute the transaction )
  E   : error screen ( only those screens are displayed where in you have error record )
  Update type:
  S: synchronous update in which if you change data of one table then all the related tables gets updated and SY_SUBRC is returned for once and all.
  A: asynchronous update in which if you change data of one table, the sy-subrc is returned and then updation of other affected tables takes place. So if system fails to update other tables still sy-subrc returned is zero.(that is when first table gets updated ).
  messages: if you update database table, operation is either successful or unsuccessful. These messages are stored in internal table. This internal table structure is like BDCMSGCOLL.
         TCODE:  transaction code.
         DYNAME: batch input module name.
         DYNNUMB: batch input dyn no.
         MSGTYP:  batch input message type.
         MSGSPRA: batch input language id of message.
         MSGID:    message id.
         MSGV1….MSGV5: message variables
  For each entry which is updated in the database table message is available in BDCMSGCOLL.
  Reward if useful
  Regards
  Srinu

• Difference between stateful and stateless session beans

  can any body explain simply what is the difference between stateful and stateless session beans? also in what kind of situations we can use these.

  Hi
  This is the classificatio os Session Bean.
  (1) Statfull
  (2) Stateless
  Stateful means u will persists the state of the object.
  USESE:
  In a Banking system u can use the statful session just for maintaing the
  state.
  (2) STATELESS: that's mean u do't want to persists any state of the object. that's mean a single Request is coming ,do the desire and give the output.
  EX: A Credit Card System is the Example of Stateless.
  May it will helpfull to understands u. if any need write here
  saM

• Differences between LSMW and BDC

  Hi All
  Please can you give me the few points about the differences between LSMW and BDC?
  Awaiting for your Responce
  Praveen

  Hai Check with the following document
  GOOD
  THERE IS THREE TYPE OF METHOD IN BDC
  BDC SESSION
  CALL TRANSACTION
  CALL DIALOG
  What is BDC or batch input
  The Batch Input is a SAP technic that allows automating the input in transactions. It lies on a BDC (Batch Data Commands) scenario.
  BDC functions:
  · BDC_OPEN_GROUP : Opens a session group
  · BDC_CLOSE_GROUP : Closes a session
  · BDC_INSERT : Insert a BDC scenario in the session
  · The ABAP statement "CALL TRANSACTION" is also called to run directly a transaction from its BDC table.
  It runs the program RSBDCSUB in order to launch automatically the session. The session management is done through the transaction code SM35.
  The object itself is maintanable through the transaction SE24.
  BDC methods:
  Method
  Description
  Parameters
  OPEN_SESSION
  Opens a session
  SUBRC (Return Code – 0 OK)
  SESSIONNAME (Session to be created)
  CLOSE_SESSION
  Closes a session
  None
  RESET_BDCDATA
  Resets the BDC Internal Table...
  None. Normally, for internal purpose…
  BDC_DYNPRO
  Handles a new screen
  PROGNAME (Name of the program)
  DYNPRONR (Screen Number)
  BDC_FIELD
  Puts a value on the screen
  FIELDNAME (Name of the field)
  FIELDVALUE (Value to be passed)
  CONSTRUCTOR
  Constructor - Initializes NO_DATA
  NODATA (No data character). The constructor is called automatically when the object is created.
  RUN_SESSION
  Launches a session with RSBDCBTC
  None
  CALL_TRANSACTION
  Calls a transaction with the current BDC Data
  MODE (Display Mode)
  UPDATE (Update Mode)
  TCODE (Transaction to be called)
  BDC_INSERT
  Inserts the BDC scenario in the session
  TCODE (Transaction to be called)
  BDC techniques used in programs:
  1) Building a BDC table and calling a transaction,
  2) Building a session and a set of BDC scenarios and keeping the session available in SM35,
  3) Building a session and lauching the transaction right after closing the session.
  BDC using Call Transaction
  BDC using Call transaction involves calling an SAP transaction in back ground from within the ABAP
  program. The process involves building an Internal BDC table containing the screen information needed to
  execute the required transaction and then passing this to the Call transaction command (See code example).
  The full procedure for creating a BDC program is as follows:
  What is the difference between batch input and call transaction in BDC?
  Session method.
  1) synchronous processing.
  2) can tranfer large amount of data.
  3) processing is slower.
  4) error log is created
  5) data is not updated until session is processed.
  Call transaction.
  1) asynchronous processing
  2) can transfer small amount of data
  3) processing is faster.
  4) errors need to be handled explicitly
  5) data is updated automatically
  BATINPUT/DIRECT INPUT
  A: Batch-inputs can not be used to fill the "delivery due list" screen because it is not a dynpro. This is a standard SAP report. A SAP report (check with "System -> Status") may be called using SUBMIT sentence with the appropriate options . It is preferred to call a report than create a Batch-input program.
  GO THROUGH THIS LINK
  http://www.guidancetech.com/people/holland/sap/abap/zzsni001.htm
  The LSM Workbench is an SAP R/3 based tool that supports the one-time or periodic transfer of data from non-SAP systems ("legacy systems") to SAP systems.
  The LSM Workbench helps you to organize your data migration project and guides you through the process by using a clear sequence of steps.
  The most common conversion rules are predefined. Reusable conversion rules assure consistent data conversion for different data objects.
  LSMW vs DX Workbench
  The LSM Workbench covers the following steps:
  Read the legacy data from one or several files (e.g. spreadsheet tables, sequential files).
  Convert the data from source format to target format.
  Import the data using standard interfaces (Batch Input, Direct Input, BAPI, IDoc).
  Experiences made in successful implementation projects have shown that using the LSM Workbench significantly contributes to accelerating data migration.
  SAP provides this tool along with documentation to customers and partners free of charge.
  Users of the LSM Workbench receive the usual support via SAP Net - R/3 Frontend (component BC-SRV-DX-LSM).
  Releases:
  Version 1.7.2 of the LSM Workbench ("LSMW 1.7.2") available
  Attention : LSMW 1.7.2 requires an SAP R/3 system with SAP R/3 4.0 or SAP R/3 4.5.
  Version 1.8.0 of the LSM Workbench (1.21mb) ("LSMW 1.8.0") available
  Attention : LSMW 1.8.0 requires an SAP R/3 system with SAP R/3 4.6.
  Version 3.0 of the LSM Workbench (1.89mb) ("LSMW 3.0") available for Web Application Server 6.10
  Attention : LSMW 3.0 requires a SAP WAS 6.10. Functionality of version 1.7.2 and 3.0 are identical !
  Version 4.0 of the LSM Workbench ("LSMW 4.0") integrated in Web Application Server 6.20
  Attention : LSMW 4.0 is an integrated part of SAP WAS 6.20.
  Thanks & regards
  Sreenivasulu P
  Message was edited by: Sreenivasulu Ponnadi

• Differences between @EJB and @Resouce?

  Hi,
  I am confused about the differences between @EJB and @Resource?
  1.
  Can Session Beans be injected for both?
  If so what are the pro's / con's?
  2.
  Are the any difference between the type of components that cna be registered for one but not the other?
  3.
  Are they both equally usable with the ENC?
  Many thanks.

  @EJBs are 'special' resources. For example, @EJB (for a stateful session bean) results in
  1. Creation of the Stateful Session Bean,
  2. Other dependencies are injected into this newly created bean,
  3. If the bean has a @PostConstruct bean then that method is invoked (after invoking applicable interceptors)
  Hope this helps

• MAIN DIFFERENCES BETWEEN PARALLEL AND SEQUENTAIL PRCESSING???

  HI PALS,
  I WANT THE COMPLETE DIFFERENCES BETWEEN PARALLEL AND SEQUENTIAL PROCESSING!
  IN THE CONTEXT OF RFC.

  Hi
  Parallel Processing
  To achieve a balanced distribution of the system load, you can use destination additions to execute function modules in parallel tasks in any application server or in a predefined application server group of an SAP system.
  Parallel-processing is implemented with a special variant of asynchonous RFC. Itu2019s important that you use only the correct variant for your own parallel processing applications: the CALL FUNCTION STARTING NEW TASK DESTINATION IN GROUP keyword. Using other variants of asynchronous RFC circumvents the built-in safeguards in the correct keyword, and can bring your system to its knees
  Details are discussed in the following subsections:
  ·        Prerequisites for Parallel Processing
  ·        Function Modules and ABAP Keywords for Parallel Processing
  ·        Managing Resources in Parallel Processing
  Prerequisites for Parallel Processing
  Before you implement parallel processing, make sure that your application and your SAP system meet these requirements:
  ·        Logically-independent units of work:
  The data processing task that is to be carried out in parallel must be logically independent of other instances of the task. That is, the task can be carried out without reference to other records from the same data set that are also being processed in parallel, and the task is not dependent upon the results of others of the parallel operations. For example, parallel processing is not suitable for data that must be sequentially processed or in which the processing of one data item is dependent upon the processing of another item of the data.
  By definition, there is no guarantee that data will be processed in a particular order in parallel processing or that a particular result will be available at a given point in processing. 
  ·        ABAP requirements:
  ¡        The function module that you call must be marked as externally callable. This attribute is specified in the Remote function call supported field in the function module definition (transaction SE37).
  ¡        The called function module may not include a function call to the destination u201CBACK.u201D
  ¡        The calling program should not change to a new internal session after making an asynchronous RFC call. That is, you should not use SUBMIT or CALL TRANSACTION in such a report after using CALL FUNCTION STARTING NEW TASK.  
  ¡        You cannot use the CALL FUNCTION STARTING NEW TASK DESTINATION IN GROUP keyword to start external programs. 
  ·        System resources: 
  In order to process tasks from parallel jobs, a server in your SAP system must have at least 3 dialog work processes. It must also meet the workload criteria of the parallel processing system: Dispatcher queue less than 10% full, at least one dialog work process free for processing tasks from the parallel job.
  Function Modules and ABAP Keywords for Parallel Processing
  You can implement parallel processing in your applications by using the following function modules and ABAP keywords:
  ·        SPBT_INITIALIZE: Optional function module. 
  Use to determine the availability of resources for parallel processing. 
  You can do the following:
  ¡        check that the parallel processing group that you have specified is correct.
  ¡        find out how many work processes are available so that you can more efficiently size the packets of data that are to be processed in your data.
  ·        CALL FUNCTION Remotefunction STARTING NEW TASK Taskname DESTINATION IN GROUP:
  With this ABAP statement, you are telling the SAP system to process function module calls in parallel. Typically, youu2019ll place this keyword in a loop in which you divide up the data that is to be processed into work packets. You can pass the data that is to be processed in the form of an internal table (EXPORT, TABLE arguments). The keyword implements parallel processing by dispatching asynchronous RFC calls to the servers that are available in the RFC server group specified for the processing.
  Note that your RFC calls with CALL FUNCTION are processed in work processes of type DIALOG. The DIALOG limit on processing of one dialog step (by default 300 seconds, system profile parameter rdisp/max_wprun_time) applies to these RFC calls. Keep this limit in mind when you divide up data for parallel processing calls. 
  ·        SPBT_GET_PP_DESTINATION: Optional function module. 
  Call immediately after the CALL FUNCTION keyword to get the name of the server on which the parallel processing task will be run. 
  ·        SPBT_DO_NOT_USE_SERVER: Optional function module. 
  Excludes a particular server from further use for processing parallel processing tasks. Use in conjunction with SPBT_GET_PP_DESTINATION if you determine that a particular server is not available for parallel processing (for example, COMMUNICATION FAILURE exception if a server becomes unavailable).
  ·        WAIT: ABAP keyword
  WAIT UNTIL
  Required if you wish to wait for all of the asynchronous parallel tasks created with CALL FUNCTION to return. This is normally a requirement for orderly background processing. May be used only if the CALL FUNCTION includes the PERFORMING ON RETURN addition.
  ·        RECEIVE: ABAP keyword
  RECEIVE RESULTS FROM FUNCTION Remotefunction
  Required if you wish to receive the results of the processing of an asynchronous RFC. RECEIVE retrieves IMPORT and TABLE parameters as well as messages and return codes.
  Managing Resources in Parallel Processing
  You use the following destination additions to perform parallel execution of function modules (asynchronous calls) in the SAP system:
  In a predefined group of application servers:
  CALL FUNCTION Remotefunction STARTING NEW TASK Taskname
  DESTINATION IN GROUP Groupname
  In all currently available and active application servers:
  CALL FUNCTION Remotefunction STARTING NEW TASK Taskname
  DESTINATION IN GROUP DEFAULT
  Sequential Processing
  In the following cases, the system chooses sequential (non-parallel) processing:
  ●      In table RSADMIN, entry QUERY_MAX_WP_DIAG has value (column value) 1.
  ●      The entire query consists of one sub-access only.
  ●      The query is running in a batch process.
  ●      The query was started from the query monitor (transaction RSRT) using various debug options (for example, SQL query display, execution plan display). See, Dividing a MultiProvider Query into Sub-Queries.
  ●      The query requests non-cumulative key figures.
  ●      Insufficient dialog processes are available when the query is executed. These are required for parallel processing.
  ●      The query is configured for non-parallel processing.
  ●      You want to save the result of the query in a file or a table.
  In Release SAP NetWeaver 7.0, the system can efficiently manage the large intermediate results produced by parallel processing. In previous releases, the system terminated when it reached a particular intermediate result size and proceeded to read data sequentially. This is no longer the case. Therefore, the RSADMIN parameter that was used in previous releases for reading a MultiProvider sequentially is no longer used.
  Reward If Helpfull,
  Naresh

• Difference between getSession() and getSession(true)

  I am new to servlets. I couldn't find any difference between request.getSession()
  and request.getSession(true) methods. Could any one help me plese.
  Thanks.

  I am new to servlets. I couldn't find any difference
  between request.getSession()
  and request.getSession(true) methods. Could
  any one help me plese.
  Thanks.getSession() is a convenience method shortcut for getSession(true). There is no difference. There is a difference between getSession() and getSession(false) though...
  (ie, if getSession(false) will not make a new session if one does not already exist...)

• Difference between sapscripts and BDCs

  what is the difference between sapscripts and BDCs

  BDC for data communication between sap to non sap(vice-versa)
  where scripts is a business layout(we create)
  <b>bdc help</b>
  They are the only 3 methods mostly we use in BDC.
  Call _Dialog is outdated. it is there in the intial stages of SAP.
  BDC:
  Batch Data Communication (BDC) is the process of transferring data from one SAP System to another SAP system or from a non-SAP system to SAP System.
  Features :
  BDC is an automatic procedure.
  This method is used to transfer large amount of data that is available in electronic medium.
  BDC can be used primarily when installing the SAP system and when transferring data from a legacy system (external system).
  BDC uses normal transaction codes to transfer data.
  Types of BDC :
  CLASSICAL BATCH INPUT (Session Method)
  CALL TRANSACTION
  BATCH INPUT METHOD:
  This method is also called as ‘CLASSICAL METHOD’.
  Features:
  Asynchronous processing.
  Synchronous Processing in database update.
  Transfer data for more than one transaction.
  Batch input processing log will be generated.
  During processing, no transaction is started until the previous transaction has been written to the database.
  CALL TRANSACTION METHOD :
  This is another method to transfer data from the legacy system.
  Features:
  Synchronous processing. The system performs a database commit immediately before and after the CALL TRANSACTION USING statement.
  Updating the database can be either synchronous or asynchronous. The program specifies the update type.
  Transfer data for a single transaction.
  Transfers data for a sequence of dialog screens.
  No batch input processing log is generated.
  For BDC:
  http://myweb.dal.ca/hchinni/sap/bdc_home.htm
  https://www.sdn.sap.com/irj/sdn/wiki?path=/display/home/bdc&
  http://www.sap-img.com/abap/learning-bdc-programming.htm
  http://www.sapdevelopment.co.uk/bdc/bdchome.htm
  http://www.sap-img.com/abap/difference-between-batch-input-and-call-transaction-in-bdc.htm
  http://help.sap.com/saphelp_47x200/helpdata/en/69/c250684ba111d189750000e8322d00/frameset.htm
  http://www.sapbrain.com/TUTORIALS/TECHNICAL/BDC_tutorial.html
  Check these link:
  http://www.sap-img.com/abap/difference-between-batch-input-and-call-transaction-in-bdc.htm
  http://www.sap-img.com/abap/question-about-bdc-program.htm
  http://www.itcserver.com/blog/2006/06/30/batch-input-vs-call-transaction/
  http://www.planetsap.com/bdc_main_page.htm
  call Transaction or session method ?
  These are the Function modules used for the Session Method.
  BDC_OPEN_GROUP
  BDC_INSERT
  BDC_CLOSE_GROUP
  BDC_DELETE_SESSION to create a session
  You can schedule the execution of BDC session using the program RSBDCSUB.
  another one call transaction
  open dataset
  close dataset
  reward if it helps u
  vijay pawar

• What is the difference between tkprof and explainplan

  Hi,
  what is the difference between tkprof and explainplan.

  Execution Plans and the EXPLAIN PLAN Statement
  Before the database server can execute a SQL statement, Oracle must first parse the statement and develop an execution plan. The execution plan is a task list of sorts that decomposes a potentially complex SQL operation into a series of basic data access operations. For example, a query against the dept table might have an execution plan that consists of an index lookup on the deptno index, followed by a table access by ROWID.
  The EXPLAIN PLAN statement allows you to submit a SQL statement to Oracle and have the database prepare the execution plan for the statement without actually executing it. The execution plan is made available to you in the form of rows inserted into a special table called a plan table. You may query the rows in the plan table using ordinary SELECT statements in order to see the steps of the execution plan for the statement you explained. You may keep multiple execution plans in the plan table by assigning each a unique statement_id. Or you may choose to delete the rows from the plan table after you are finished looking at the execution plan. You can also roll back an EXPLAIN PLAN statement in order to remove the execution plan from the plan table.
  The EXPLAIN PLAN statement runs very quickly, even if the statement being explained is a query that might run for hours. This is because the statement is simply parsed and its execution plan saved into the plan table. The actual statement is never executed by EXPLAIN PLAN. Along these same lines, if the statement being explained includes bind variables, the variables never need to actually be bound. The values that would be bound are not relevant since the statement is not actually executed.
  You don’t need any special system privileges in order to use the EXPLAIN PLAN statement. However, you do need to have INSERT privileges on the plan table, and you must have sufficient privileges to execute the statement you are trying to explain. The one difference is that in order to explain a statement that involves views, you must have privileges on all of the tables that make up the view. If you don’t, you’ll get an “ORA-01039: insufficient privileges on underlying objects of the view” error.
  The columns that make up the plan table are as follows:
  Name Null? Type
  STATEMENT_ID VARCHAR2(30)
  TIMESTAMP DATE
  REMARKS VARCHAR2(80)
  OPERATION VARCHAR2(30)
  OPTIONS VARCHAR2(30)
  OBJECT_NODE VARCHAR2(128)
  OBJECT_OWNER VARCHAR2(30)
  OBJECT_NAME VARCHAR2(30)
  OBJECT_INSTANCE NUMBER(38)
  OBJECT_TYPE VARCHAR2(30)
  OPTIMIZER VARCHAR2(255)
  SEARCH_COLUMNS NUMBER
  ID NUMBER(38)
  PARENT_ID NUMBER(38)
  POSITION NUMBER(38)
  COST NUMBER(38)
  CARDINALITY NUMBER(38)
  BYTES NUMBER(38)
  OTHER_TAG VARCHAR2(255)
  PARTITION_START VARCHAR2(255)
  PARTITION_STOP VARCHAR2(255)
  PARTITION_ID NUMBER(38)
  OTHER LONG
  DISTRIBUTION VARCHAR2(30)
  There are other ways to view execution plans besides issuing the EXPLAIN PLAN statement and querying the plan table. SQL*Plus can automatically display an execution plan after each statement is executed. Also, there are many GUI tools available that allow you to click on a SQL statement in the shared pool and view its execution plan. In addition, TKPROF can optionally include execution plans in its reports as well.
  Trace Files and the TKPROF Utility
  TKPROF is a utility that you invoke at the operating system level in order to analyze SQL trace files and generate reports that present the trace information in a readable form. Although the details of how you invoke TKPROF vary from one platform to the next, Oracle Corporation provides TKPROF with all releases of the database and the basic functionality is the same on all platforms.
  The term trace file may be a bit confusing. More recent releases of the database offer a product called Oracle Trace Collection Services. Also, Net8 is capable of generating trace files. SQL trace files are entirely different. SQL trace is a facility that you enable or disable for individual database sessions or for the entire instance as a whole. When SQL trace is enabled for a database session, the Oracle server process handling that session writes detailed information about all database calls and operations to a trace file. Special database events may be set in order to cause Oracle to write even more specific information—such as the values of bind variables—into the trace file.
  SQL trace files are text files that, strictly speaking, are human readable. However, they are extremely verbose, repetitive, and cryptic. For example, if an application opens a cursor and fetches 1000 rows from the cursor one row at a time, there will be over 1000 separate entries in the trace file.
  TKPROF is a program that you invoke at the operating system command prompt in order to reformat the trace file into a format that is much easier to comprehend. Each SQL statement is displayed in the report, along with counts of how many times it was parsed, executed, and fetched. CPU time, elapsed time, logical reads, physical reads, and rows processed are also reported, along with information about recursion level and misses in the library cache. TKPROF can also optionally include the execution plan for each SQL statement in the report, along with counts of how many rows were processed at each step of the execution plan.
  The SQL statements can be listed in a TKPROF report in the order of how much resource they used, if desired. Also, recursive SQL statements issued by the SYS user to manage the data dictionary can be included or excluded, and TKPROF can write SQL statements from the traced session into a spool file.
  How EXPLAIN PLAN and TKPROF Aid in the Application Tuning Process
  EXPLAIN PLAN and TKPROF are valuable tools in the tuning process. Tuning at the application level typically yields the most dramatic results, and these two tools can help with the tuning in many different ways.
  EXPLAIN PLAN and TKPROF allow you to proactively tune an application while it is in development. It is relatively easy to enable SQL trace, run an application in a test environment, run TKPROF on the trace file, and review the output to determine if application or schema changes are called for. EXPLAIN PLAN is handy for evaluating individual SQL statements.
  By reviewing execution plans, you can also validate the scalability of an application. If the database operations are dependent upon full table scans of tables that could grow quite large, then there may be scalability problems ahead. On the other hand, if large tables are accessed via selective indexes, then scalability may not be a problem.
  EXPLAIN PLAN and TKPROF may also be used in an existing production environment in order to zero in on resource intensive operations and get insights into how the code may be optimized. TKPROF can further be used to quantify the resources required by specific database operations or application functions.
  EXPLAIN PLAN is also handy for estimating resource requirements in advance. Suppose you have an ad hoc reporting request against a very large database. Running queries through EXPLAIN PLAN will let you determine in advance if the queries are feasible or if they will be resource intensive and will take unacceptably long to run.

• What is the difference between HttpSessionBindingListener and HttpSessionLi

  What is the difference between HttpSessionBindingListener and HttpSessionListener?

  HttpSessionBindingListener gets notified if a value has been added to or remove from a session.
  HttpSessionListener gets notified if a session is created or destroyed.

• A CONFUSION:The difference between cluster and multi-IP--DNS mapping??

            I have a test about simplest cluster,admin and managed server all told me "start
            cluster service"!the two IP address use ONE DomainName,If one down,when I send
            request with dn,It first look up admin server,no found and then go dns to search
            another server,about one minute then the server send response to me!
            But when I do not config a cluster,only start two admin server and give them the
            same dns,the same appearance as cluster!
            I don't understand the difference between cluster and multi-IP--DNS mapping??
            

            <[email protected]> wrote in message news:3b16f1db$[email protected]..
            |
            | I have a test about simplest cluster,admin and managed server all told me
            "start
            | cluster service"!the two IP address use ONE DomainName,If one down,when I
            send
            | request with dn,It first look up admin server,no found and then go dns to
            search
            | another server,about one minute then the server send response to me!
            |
            This is DNS fail-over.
            | But when I do not config a cluster,only start two admin server and give
            them the
            | same dns,the same appearance as cluster!
            | I don't understand the difference between cluster and multi-IP--DNS
            mapping??
            It is totally different. regarding the last failover example you've given,
            of course the 2 servers can have identical files maintained under
            public_html. DNS will failover requests to "foo.html" to the other one if
            the first server is down, but if you have something saved in a session, say
            shopping cart example, it's totally lost, but with WLS clustering, the
            session is replicated to the other server in the cluster, you may just
            check-out, don't have to order again.
            This is just a simple example of WLS cluster session-replication. WLS
            supports EJB, RMI Objects, JMS (6.0) clustering.. check the doc at
            http://www.weblogic.com/docs50/cluster/index.html