CONFIRM

The CONFIRM verb sends the contents of the local LU's send buffer and a confirmation request to the partner TP.

For the Microsoft® Windows® version 3.x system, it is recommended that you use WinAsyncAPPC rather than the blocking version of this call.

The following structure describes the verb control block used by the CONFIRM verb.

struct confirm {
    unsigned short  opcode;
    unsigned char   opext;
    unsigned char   reserv2;
    unsigned short  primary_rc;
    unsigned long   secondary_rc;
    unsigned char   tp_id[8];
    unsigned long   conv_id;
    unsigned char   rts_rcvd;
};

Members

opcode

Supplied parameter. Specifies the verb operation code, AP_B_CONFIRM.

opext

Supplied parameter. Specifies the verb operation extension, AP_BASIC_CONVERSATION.

primary_rc

Returned parameter. Specifies the primary return code set by APPC at the completion of the verb. The valid return codes vary depending on the APPC verb issued. See Return Codes for valid error codes for this verb.

secondary_rc

Returned parameter. Specifies the secondary return code set by APPC at the completion of the verb. The valid return codes vary depending on the APPC verb issued. See Return Codes for valid error codes for this verb.

tp_id

Supplied parameter. Identifies the local TP. The value of this parameter was returned by TP_STARTED.

conv_id

Returned parameter. Identifies the conversation established between the two TPs.

rts_rcvd

Returned parameter. Indicates whether the partner TP issued REQUEST_TO_SEND, which requests the local TP to change the conversation to RECEIVE state.

To change to RECEIVE state operating on Microsoft® Windows NT® or Windows 95, the local TP can use PREPARE_TO_RECEIVE, RECEIVE_AND_WAIT, or RECEIVE_AND_POST.

To change to RECEIVE state operating on Windows 3.x, the local TP can use PREPARE_TO_RECEIVE or RECEIVE_AND_WAIT.

To change to RECEIVE state operating on OS/2, the local TP can use RECEIVE_AND_POST.

Return Codes

ap_ok

Primary return code; the verb executed successfully.

ap_parameter_check

Primary return code; the verb did not execute because of a parameter error.

ap_bad_conv_id: Secondary return code; the value of conv_id did not match a conversation identifier assigned by APPC.
ap_bad_tp_id: Secondary return code; the value of tp_id did not match a TP identifier assigned by APPC.
ap_confirm_on_sync_level_none: Secondary return code; the local TP attempted to use CONFIRM in a conversation with a synchronization level of AP_NONE. The synchronization level, established by ALLOCATE, must be AP_CONFIRM_SYNC_LEVEL.

ap_state_check

Primary return code; the verb did not execute because it was issued in an invalid state.

ap_confirm_bad_state: Secondary return code; the conversation was not in SEND state.
ap_confirm_not_ll_bdy: Secondary return code; the conversation for the local TP was in SEND state, and the local TP did not finish sending a logical record.

ap_allocation_error

Primary return code; APPC has failed to allocate a conversation. The conversation state is set to RESET.

This code can be returned through a verb issued after ALLOCATE.

ap_allocation_failure_no_retry: Secondary return code; the conversation cannot be allocated because of a permanent condition, such as a configuration error or session protocol error. To determine the error, the system administrator should examine the error log file. Do not retry the allocation until the error has been corrected.
ap_allocation_failure_retry: Secondary return code; the conversation could not be allocated because of a temporary condition, such as a link failure. The reason for the failure is logged in the system error log. Retry the allocation.
ap_conversation_type_mismatch: Secondary return code; the partner LU or TP does not support the conversation type (basic or mapped) specified in the allocation request.
ap_pip_not_allowed: Secondary return code; the allocation request specified PIP data, but either the partner TP does not require this data, or the partner LU does not support it.
ap_pip_not_specified_correctly: Secondary return code; the partner TP requires PIP data, but the allocation request specified either no PIP data or an incorrect number of parameters.
ap_security_not_valid: Secondary return code; the user identifier or password specified in the allocation request was not accepted by the partner LU.
ap_sync_level_not_supported: Secondary return code; the partner TP does not support the sync_level (AP_NONE, AP_CONFIRM_SYNC_LEVEL, or AP_SYNCPT) specified in the allocation request, or the sync_level was not recognized.
ap_tp_name_not_recognized: Secondary return code; the partner LU does not recognize the TP name specified in the allocation request.
ap_trans_pgm_not_avail_no_retry: Secondary return code; the remote LU rejected the allocation request because it was unable to start the requested partner TP. The condition is permanent. The reason for the error may be logged on the remote node. Do not retry the allocation until the error has been corrected.
ap_trans_pgm_not_avail_retry: Secondary return code; the remote LU rejected the allocation request because it was unable to start the requested partner TP. The condition may be temporary, such as a time-out. The reason for the error may be logged on the remote node. Retry the allocation.

ap_comm_subsystem_abended

Primary return code; indicates one of the following conditions:

The node used by this conversation encountered an ABEND.
The connection between the TP and the PU 2.1 node has been broken (a LAN error).
The SnaBase at the TP's computer has encountered an ABEND.

The system administrator should examine the error log to determine the reason for the ABEND.

ap_conv_failure_no_retry

Primary return code; the conversation was terminated because of a permanent condition, such as a session protocol error. The system administrator should examine the system error log to determine the cause of the error. Do not retry the conversation until the error has been corrected.

ap_conv_failure_retry

Primary return code; the conversation was terminated because of a temporary error. Restart the TP to see if the problem occurs again. If it does, the system administrator should examine the error log to determine the cause of the error.

ap_conversation_type_mixed

Primary return code; the TP has issued both basic and mapped conversation verbs. Only one type can be issued in a single conversation.

ap_invalid_verb_segment

Primary return code; the VCB extended beyond the end of the data segment.

ap_prog_error_purging

Primary return code; while in RECEIVE, PENDING, PENDING_POST (Windows NT, Windows 95, and OS/2 only), CONFIRM, CONFIRM_SEND, or CONFIRM_DEALLOCATE state, the partner TP issued SEND_ERROR with err_type set to AP_PROG. Data sent but not yet received is purged.

ap_stack_too_small

Primary return code; the stack size of the application is too small to execute the verb. Increase the stack size of your application.

ap_conv_busy

Primary return code; there can only be one outstanding conversation verb at a time on any conversation. This can occur if the local TP has multiple threads, and more than one thread is issuing APPC calls using the same conv_id.

ap_thread_blocking

Primary return code; the calling thread is already in a blocking call.

ap_unexpected_dos_error

Primary return code; the operating system has returned an error to APPC while processing an APPC call from the local TP. The operating system return code is returned through the secondary_rc. It appears in Intel byte-swapped order. If the problem persists, consult the system administrator.

ap_dealloc_abend_prog

Primary return code; the conversation has been deallocated for one of the following reasons:

The partner TP issued DEALLOCATE with dealloc_type set to AP_ABEND_PROG.
The partner TP has encountered an ABEND, causing the partner LU to send a DEALLOCATE request.

ap_dealloc_abend_svc

Primary return code; the conversation has been deallocated because the partner TP issued DEALLOCATE with dealloc_type set to AP_ABEND_SVC.

ap_dealloc_abend_timer

Primary return code; the conversation has been deallocated because the partner TP issued DEALLOCATE with dealloc_type set to AP_ABEND_TIMER.

ap_svc_error_purging

Primary return code; the partner TP (or partner LU) issued SEND_ERROR with err_type set to AP_SVC while in RECEIVE, PENDING_POST (Windows NT, Windows 95, and OS/2 only), CONFIRM, CONFIRM_SEND, or CONFIRM_DEALLOCATE state. Data sent to the partner TP may have been purged.

Remarks

In response to CONFIRM, the partner TP normally issues CONFIRMED to confirm that it has received the data without error. (If the partner TP encounters an error, it issues SEND_ERROR or abnormally deallocates the conversation.)

The TP can issue CONFIRM only if the conversation's synchronization level, established by ALLOCATE, is AP_CONFIRM_SYNC_LEVEL.

The conversation must be in SEND state when the TP issues this verb. State changes, summarized in the following table, are based on the value of the primary_rc.

primary_rc	New state
ap_ok	No change
ap_allocation_error	RESET
ap_comm_subsystem_abended ap_comm_subsystem_not_loaded	RESET RESET
ap_conv_failure_retry ap_conv_failure_no_retry	RESET RESET
ap_dealloc_abend ap_dealloc_abend_prog ap_dealloc_abend_svc ap_dealloc_abend_timer	RESET RESET RESET RESET
ap_prog_error_purging ap_svc_error_purging	RECEIVE RECEIVE

CONFIRM waits for a response from the partner TP. A response is generated by one of the following verbs in the partner TP:

CONFIRMED
SEND_ERROR
DEALLOCATE with dealloc_type set to AP_ABEND_PROG, AP_ABEND_SVC, or AP_ABEND_TIMER
TP_ENDED

By issuing CONFIRM after ALLOCATE, the invoking TP can immediately determine whether the allocation was successful (if synclevel is set to AP_CONFIRM_SYNC_LEVEL).

Normally, the value of the ALLOCATE verb's mode_name parameter must match the name of a mode configured for the invoked TP's node and associated during configuration with the partner LU.

If one of the modes associated with the partner LU on the invoked TP's node is an implicit mode, the session established between the two LUs will be of the implicit mode when no mode name associated with the partner LU matches the value of mode_name. For more information, see the Microsoft SNA Server Administration Guide.

Several parameters of ALLOCATE are EBCDIC or ASCII strings. A TP can use the CSV CONVERT to translate a string from one character set to the other.

To send the ALLOCATE request immediately, the invoking TP can issue FLUSH or CONFIRM immediately after ALLOCATE. Otherwise, the ALLOCATE request accumulates with other data in the local LU's send buffer until the buffer is full.