ACSE/Presentation and ROSE Interface Programmer's Guide
Page 23
Free memory for detecting events on communication endpoints. Retrieve the value of the A/P environment. Provides an interface for the A/P data structures. Chapter 2 23 Initialize the A/P environment. Establish a ...
Free memory for detecting events on communication endpoints. Retrieve the value of the A/P environment. Provides an interface for the A/P data structures. Chapter 2 23 Initialize the A/P environment. Establish a ...
ACSE/Presentation and ROSE Interface Programmer's Guide
Page 34
Initialize Environment Process A Process B AP Environment A ap_init_env() AP Environment B ap_init_env() Communication Endpoint A 34 Communication Endpoint B Chapter 3 To modify defaulted attribute values, the ap_set_env() call allocates memory for more information.) Since this implementation does not support the environment file, the env_file parameter is used as shown in the following ...
Initialize Environment Process A Process B AP Environment A ap_init_env() AP Environment B ap_init_env() Communication Endpoint A 34 Communication Endpoint B Chapter 3 To modify defaulted attribute values, the ap_set_env() call allocates memory for more information.) Since this implementation does not support the environment file, the env_file parameter is used as shown in the following ...
ACSE/Presentation and ROSE Interface Programmer's Guide
Page 49
...(). When you must use multiple ap_set_env() calls (one process issues a connection request, it is established as data structures, memory is used to or read a value of the specified attribute. Chapter 4 49 Note that require allocating and deallocating... memory are used to read from the data structure, must use ap_free() to free application-created memory allocations. To change a value of a specified attribute. For memory allocated by your own routines to free the...
...(). When you must use multiple ap_set_env() calls (one process issues a connection request, it is established as data structures, memory is used to or read a value of the specified attribute. Chapter 4 49 Note that require allocating and deallocating... memory are used to read from the data structure, must use ap_free() to free application-created memory allocations. To change a value of a specified attribute. For memory allocated by your own routines to free the...
ACSE/Presentation and ROSE Interface Programmer's Guide
Page 53
... to put in ubuf"); Chapter 4 53 Programming Guide 2. For example, do not use the statement: a_assoc_req_env_t peer_application = {...}; • Do not use the udata_length part of memory passed to the A/P library to a single function. ap_snd (.., ubuf_ptr); • Do not statically initialize a cdata structure. For example: void *ubuf_ptr; Manage the A/P Environment • Isolate...
... to put in ubuf"); Chapter 4 53 Programming Guide 2. For example, do not use the statement: a_assoc_req_env_t peer_application = {...}; • Do not use the udata_length part of memory passed to the A/P library to a single function. ap_snd (.., ubuf_ptr); • Do not statically initialize a cdata structure. For example: void *ubuf_ptr; Manage the A/P Environment • Isolate...
ACSE/Presentation and ROSE Interface Programmer's Guide
Page 57
... receipt of a partially received primitive. However, to reset the execution to synchronous mode, the communication endpoint must be closed and reopened without using O_NDELEY in memory shortage situations such as A_ABORT_IND are not flow-controlled and may still be blocked by setting the AP_STREAM_FLAGS attribute with ap_errno set , a primitive was...
... receipt of a partially received primitive. However, to reset the execution to synchronous mode, the communication endpoint must be closed and reopened without using O_NDELEY in memory shortage situations such as A_ABORT_IND are not flow-controlled and may still be blocked by setting the AP_STREAM_FLAGS attribute with ap_errno set , a primitive was...
ACSE/Presentation and ROSE Interface Programmer's Guide
Page 60
... a connection retry mechanism to keep track of the number of the system. For example, AP_BIND_PADDR may include file descriptors and memory space. To avoid waiting indefinitely, set a counter to re-send the request again. These resources may have a longer or... can be temporary. A_PABORT_IND indicates a shortage of the A/P environment attributes and buffer space for the A/P library itself. This memory is a memory shortage on the values of the connection request. A_ABORT_IND may return AP_AGAIN. Resource Constraints Each connection will take up about 540 bytes. ...
... a connection retry mechanism to keep track of the number of the system. For example, AP_BIND_PADDR may include file descriptors and memory space. To avoid waiting indefinitely, set a counter to re-send the request again. These resources may have a longer or... can be temporary. A_PABORT_IND indicates a shortage of the A/P environment attributes and buffer space for the A/P library itself. This memory is a memory shortage on the values of the connection request. A_ABORT_IND may return AP_AGAIN. Resource Constraints Each connection will take up about 540 bytes. ...
ACSE/Presentation and ROSE Interface Programmer's Guide
Page 61
... on all required connections before transferring data. Connection management should avoid possible timing problems. Process Maximums It is limited by the maximum number of temporary memory shortage, the application may be further limited by hardware configuration limits and the number and type of connections gradually increases or decreases. Chapter...
... on all required connections before transferring data. Connection management should avoid possible timing problems. Process Maximums It is limited by the maximum number of temporary memory shortage, the application may be further limited by hardware configuration limits and the number and type of connections gradually increases or decreases. Chapter...
ACSE/Presentation and ROSE Interface Programmer's Guide
Page 108
... I implementation standards supported, 17 initialize the A/P environment, 34 initiator roles, 49 L limitations, 18 ACSE/Presentation, 19 M manpages A/P calls, 22 A/P primitives, 22 short names for, 14 memory usage, 60 migration new versions, 52 multiple connections, 58 use asynch. mode, 58 multiple process restrictions, 61 multi-thread ACSE/Presentation program example, 64 error...
... I implementation standards supported, 17 initialize the A/P environment, 34 initiator roles, 49 L limitations, 18 ACSE/Presentation, 19 M manpages A/P calls, 22 A/P primitives, 22 short names for, 14 memory usage, 60 migration new versions, 52 multiple connections, 58 use asynch. mode, 58 multiple process restrictions, 61 multi-thread ACSE/Presentation program example, 64 error...
HP DLPI Programmer's Guide
Page 71
... has invalid value. ENOBUFS Inadequate buffer space ENOTSUP Unsupported request/event/call ENOLINK Interface is unable to handle the request. ENXIO Invalid device ENOMEM Insufficient memory EBUSY Control information is already enabled (multicast, VLAN IDs, and so on page 71. DLPI Primitives Local Management Primitives DL_ACCESS The DLS user did not...
... has invalid value. ENOBUFS Inadequate buffer space ENOTSUP Unsupported request/event/call ENOLINK Interface is unable to handle the request. ENXIO Invalid device ENOMEM Insufficient memory EBUSY Control information is already enabled (multicast, VLAN IDs, and so on page 71. DLPI Primitives Local Management Primitives DL_ACCESS The DLS user did not...
HP DLPI Programmer's Guide
Page 115
u_long dl_busy_to_cnt; u_long dl_remote_win; u_long dl_u_pkts_out; u_long dl_retry_cnt; u_long dl_max_retries; u_long dl_ack_thresh; u_long dl_i_pkts_out; u_long dl_i_pkts_retrans; u_long dl_max_retry_cnt; u_long dl_hw_req_fails; } dl_hp_info_ack_t; dl_queue_fails number of memory allocations that the DLS provider was unable to force a response. u_long dl_s_pkts_in; u_long dl_remote_busy_cnt; u_long dl_local_win; u_long dl_i_pkts_in; u_long dl_u_pkts_in; Parameters dl_primitive DL_HP_INFO_ACK dl_mem_fails number ...
u_long dl_busy_to_cnt; u_long dl_remote_win; u_long dl_u_pkts_out; u_long dl_retry_cnt; u_long dl_max_retries; u_long dl_ack_thresh; u_long dl_i_pkts_out; u_long dl_i_pkts_retrans; u_long dl_max_retry_cnt; u_long dl_hw_req_fails; } dl_hp_info_ack_t; dl_queue_fails number of memory allocations that the DLS provider was unable to force a response. u_long dl_s_pkts_in; u_long dl_remote_busy_cnt; u_long dl_local_win; u_long dl_i_pkts_in; u_long dl_u_pkts_in; Parameters dl_primitive DL_HP_INFO_ACK dl_mem_fails number ...
HP DLPI Programmer's Guide
Page 187
It also demonstrates connection handoff #include #include #include #include #include #include #include #include #define SEND_SAP #define RECV_SAP 0x80 0x82 /* sending SAP */ /* receiving SAP */ global areas for each message */ ctrl_area/* buf = control area */ }; NO PART OF THIS PROGRAM MAY BE PHOTOCOPIED, REPRODUCED, OR TRANSLATED TO ANOTHER PROGRAM LANGUAGE WITHOUT THE PRIOR WRITTEN CONSENT OF HEWLETT PACKARD COMPANY This program demonstrates data transfer over a connection oriented DLPI stream. Sample Programs Connection Mode Example Connection Mode Example...
It also demonstrates connection handoff #include #include #include #include #include #include #include #include #define SEND_SAP #define RECV_SAP 0x80 0x82 /* sending SAP */ /* receiving SAP */ global areas for each message */ ctrl_area/* buf = control area */ }; NO PART OF THIS PROGRAM MAY BE PHOTOCOPIED, REPRODUCED, OR TRANSLATED TO ANOTHER PROGRAM LANGUAGE WITHOUT THE PRIOR WRITTEN CONSENT OF HEWLETT PACKARD COMPANY This program demonstrates data transfer over a connection oriented DLPI stream. Sample Programs Connection Mode Example Connection Mode Example...
HP DLPI Programmer's Guide
Page 201
NO PART OF THIS PROGRAM MAY BE PHOTOCOPIED, REPRODUCED, OR TRANSLATED TO ANOTHER PROGRAM LANGUAGE WITHOUT THE PRIOR WRITTEN CONSENT OF HEWLETT PACKARD COMPANY The main part of two parts. Sample Programs Connectionless Mode Example Connectionless Mode Example B.11.23_ic60 (C) COPYRIGHT HEWLETT-PACKARD DEVELOPMENT COMPANY L.P. 2003. global areas for largest possible msg */ #define LONG_AREA_SIZE(AREA_SIZE / sizeof(u_long)) /* AREA_SIZE / 4 */ Appendix A 201 The second part of this program is composed of this program demonstrates data transfer over a connectionless stream...
NO PART OF THIS PROGRAM MAY BE PHOTOCOPIED, REPRODUCED, OR TRANSLATED TO ANOTHER PROGRAM LANGUAGE WITHOUT THE PRIOR WRITTEN CONSENT OF HEWLETT PACKARD COMPANY The main part of two parts. Sample Programs Connectionless Mode Example Connectionless Mode Example B.11.23_ic60 (C) COPYRIGHT HEWLETT-PACKARD DEVELOPMENT COMPANY L.P. 2003. global areas for largest possible msg */ #define LONG_AREA_SIZE(AREA_SIZE / sizeof(u_long)) /* AREA_SIZE / 4 */ Appendix A 201 The second part of this program is composed of this program demonstrates data transfer over a connectionless stream...
HP DLPI Programmer's Guide
Page 71
... invalid value. DLPI Primitives Local Management Primitives DL_ACCESS The DLS user did not have proper permission to handle the request. ENXIO Invalid device ENOMEM Insufficient memory EBUSY Control information is unable to use the requested PPA. DL_OUTSTATE The primitive was issued from an invalid state. DL_SYSERR A system error has occurred and...
... invalid value. DLPI Primitives Local Management Primitives DL_ACCESS The DLS user did not have proper permission to handle the request. ENXIO Invalid device ENOMEM Insufficient memory EBUSY Control information is unable to use the requested PPA. DL_OUTSTATE The primitive was issued from an invalid state. DL_SYSERR A system error has occurred and...
HP DLPI Programmer's Guide
Page 116
...; u_long dl_max_retries; u_long dl_local_win; u_long dl_remote_win; u_long dl_i_pkts_in; u_long dl_i_pkts_in_drop; u_long dl_u_pkts_out; u_long dl_bad_pkts; u_long dl_max_retry_cnt; dl_ack_to length of the ACK timeout in tenths of memory allocations that have failed. u_long dl_remote_busy_cnt; Parameters dl_primitive DL_HP_INFO_ACK dl_mem_fails number of a second. u_long dl_s_pkts_out; u_long dl_ack_thresh; u_long dl_hw_req_fails; } dl_hp_info_ack_t; u_long dl_i_pkts_out; u_long dl_i_pkts_in_oos; dl_queue_fails...
...; u_long dl_max_retries; u_long dl_local_win; u_long dl_remote_win; u_long dl_i_pkts_in; u_long dl_i_pkts_in_drop; u_long dl_u_pkts_out; u_long dl_bad_pkts; u_long dl_max_retry_cnt; dl_ack_to length of the ACK timeout in tenths of memory allocations that have failed. u_long dl_remote_busy_cnt; Parameters dl_primitive DL_HP_INFO_ACK dl_mem_fails number of a second. u_long dl_s_pkts_out; u_long dl_ack_thresh; u_long dl_hw_req_fails; } dl_hp_info_ack_t; u_long dl_i_pkts_out; u_long dl_i_pkts_in_oos; dl_queue_fails...
HP DLPI Programmer's Guide
Page 189
ALL RIGHTS RESERVED. Appendix A 189 It also demonstrates connection handoff #include #include #include #include #include #include #include #include #define SEND_SAP #define RECV_SAP 0x80 0x82 /* sending SAP */ /* receiving SAP */ global areas for each message */ ctrl_area/* buf = control area */ }; big enough for largest possible msg */ #define LONG_AREA_SIZE(AREA_SIZE / sizeof(u_long)) /* AREA_SIZE / 4 */ /* these are u_long arrays instead of u_char to insure proper alignment */ u_longctrl_area[LONG_AREA_SIZE];/* for control messages */ u_longdata_area[LONG_AREA_SIZE...
ALL RIGHTS RESERVED. Appendix A 189 It also demonstrates connection handoff #include #include #include #include #include #include #include #include #define SEND_SAP #define RECV_SAP 0x80 0x82 /* sending SAP */ /* receiving SAP */ global areas for each message */ ctrl_area/* buf = control area */ }; big enough for largest possible msg */ #define LONG_AREA_SIZE(AREA_SIZE / sizeof(u_long)) /* AREA_SIZE / 4 */ /* these are u_long arrays instead of u_char to insure proper alignment */ u_longctrl_area[LONG_AREA_SIZE];/* for control messages */ u_longdata_area[LONG_AREA_SIZE...
HP DLPI Programmer's Guide
Page 203
The second part of two parts. ALL RIGHTS RESERVED. big enough for sending and receiving messages define AREA_SIZE 5000/* bytes; The first part demonstrates data transfer over a connectionless stream with LLC SAP headers. Sample Programs Connectionless Mode Example Connectionless Mode Example B.11.23_ic60 (C) COPYRIGHT HEWLETT-PACKARD DEVELOPMENT COMPANY L.P. 2003. u_char RECV_SNAP_SAP[5] = {0x60, 0x00, 0x00, 0x00, 0x00}; global areas for largest possible msg */ #define LONG_AREA_SIZE(AREA_SIZE / sizeof(u_long)) /* AREA_SIZE / 4 */ Appendix A 203 NO PART OF THIS ...
The second part of two parts. ALL RIGHTS RESERVED. big enough for sending and receiving messages define AREA_SIZE 5000/* bytes; The first part demonstrates data transfer over a connectionless stream with LLC SAP headers. Sample Programs Connectionless Mode Example Connectionless Mode Example B.11.23_ic60 (C) COPYRIGHT HEWLETT-PACKARD DEVELOPMENT COMPANY L.P. 2003. u_char RECV_SNAP_SAP[5] = {0x60, 0x00, 0x00, 0x00, 0x00}; global areas for largest possible msg */ #define LONG_AREA_SIZE(AREA_SIZE / sizeof(u_long)) /* AREA_SIZE / 4 */ Appendix A 203 NO PART OF THIS ...
HP Integrity and HP 9000 iLO MP Operations Guide, Fifth Edition
Page 50
... is displayed is an image of the console history at the time the CL command is displayed warning the new user of display in nonvolatile memory. All events between "start of the event logs that have been stored in text mode) sent from the MP Main Menu to the console path... errors. Console output continues to the Event Log Viewer Menu. Displays the last entry. Quits and returns to be logged while this summary in nonvolatile memory.
... is displayed is an image of the console history at the time the CL command is displayed warning the new user of display in nonvolatile memory. All events between "start of the event logs that have been stored in text mode) sent from the MP Main Menu to the console path... errors. Console output continues to the Event Log Viewer Menu. Displays the last entry. Quits and returns to be logged while this summary in nonvolatile memory.
HP Integrity and HP 9000 iLO MP Operations Guide, Fifth Edition
Page 72
... visibility to management applications on the network. Figure 6-4 System Status > Server Status Identification Page Table 6-7 lists the fields and descriptions. Enter contact information in nonvolatile memory.
... visibility to management applications on the network. Figure 6-4 System Status > Server Status Identification Page Table 6-7 lists the fields and descriptions. Enter contact information in nonvolatile memory.
HP Integrity and HP 9000 iLO MP Operations Guide, Fifth Edition
Page 73
Deletes the log. Events communicate system information from the previous boot. All events. They can indicate a major change in nonvolatile memory. Figure 6-5 System Status > System Event Log Page Table 6-8 lists the fields, buttons, and descriptions. Table 6-8 System Event Log Page Description Fields and Buttons System Event ...
Deletes the log. Events communicate system information from the previous boot. All events. They can indicate a major change in nonvolatile memory. Figure 6-5 System Status > System Event Log Page Table 6-8 lists the fields, buttons, and descriptions. Table 6-8 System Event Log Page Description Fields and Buttons System Event ...
HP Integrity and HP 9000 iLO MP Operations Guide, Fifth Edition
Page 76
... console is enabled on using the virtual serial port, see Integrated Lights-Out Virtual Serial Port configuration and operation HOW TO, at: http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00263709/c00263709.pdf Virtual Devices The Virtual Devices tab enables you with options to be correctly enabled and configured in... server serial port. The virtual serial port must be available remotely through the remote serial console. If the serial redirection feature is stored in nonvolatile memory in the host.
... console is enabled on using the virtual serial port, see Integrated Lights-Out Virtual Serial Port configuration and operation HOW TO, at: http://h20000.www2.hp.com/bc/docs/support/SupportManual/c00263709/c00263709.pdf Virtual Devices The Virtual Devices tab enables you with options to be correctly enabled and configured in... server serial port. The virtual serial port must be available remotely through the remote serial console. If the serial redirection feature is stored in nonvolatile memory in the host.