forked from Imagelibrary/rtems
3a4ae6c210
Configuration Table Template file added and all tests modified to use this. All gvar.h and conftbl.h files removed from test directories. Configuration parameter maximum_devices added. Core semaphore and mutex handlers added and RTEMS API Semaphore Manager updated to reflect this. Initialization sequence changed to invoke API specific initialization routines. Initialization tasks table now owned by RTEMS Tasks Manager. Added user extension for post-switch. Utilized user extensions to implement API specific functionality like signal dispatching. Added extensions to the System Initialization Thread so that an API can register a function to be invoked while the system is being initialized. These are largely equivalent to the pre-driver and post-driver hooks. Added the Modules file oar-go32_p5, modified oar-go32, and modified the file make/custom/go32.cfg to look at an environment varable which determines what CPU model is being used. All BSPs updated to reflect named devices and clock driver's IOCTL used by the Shared Memory Driver. Also merged clock isr into main file and removed ckisr.c where possible. Updated spsize to reflect new and moved variables. Makefiles for the executive source and include files updated to show break down of files into Core, RTEMS API, and Neither. Header and inline files installed into subdirectory based on whether logically in the Core or a part of the RTEMS API.
384 lines
11 KiB
C
384 lines
11 KiB
C
/*
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* @(#)object.c 1.7 - 95/08/02
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*
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*
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* RTEMS Monitor "object" support.
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*
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* Used to traverse object lists and print them out.
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* An object can be an RTEMS object (chain based stuff) or
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* a "misc" object such as a device driver.
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*
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* Each object has its own file in this directory (eg: extension.c)
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* That file provides routines to convert a "native" structure
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* to its canonical form, print a canonical structure, etc.
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*
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* TODO:
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* should allow for non-numeric id's???
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*
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* $Id$
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*/
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#include <rtems.h>
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#include "monitor.h"
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#include <stdio.h>
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#include <stdlib.h> /* strtoul() */
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#include <monitor.h>
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#define NUMELEMS(arr) (sizeof(arr) / sizeof(arr[0]))
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/*
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* add:
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* next
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*/
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rtems_monitor_object_info_t rtems_monitor_object_info[] =
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{
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{ RTEMS_OBJECT_CONFIG,
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(void *) 0,
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sizeof(rtems_monitor_config_t),
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(rtems_monitor_object_next_fn) rtems_monitor_config_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_config_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_config_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_config_dump,
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},
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{ RTEMS_OBJECT_MPCI,
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(void *) 0,
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sizeof(rtems_monitor_mpci_t),
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(rtems_monitor_object_next_fn) rtems_monitor_mpci_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_mpci_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_mpci_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_mpci_dump,
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},
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{ RTEMS_OBJECT_INIT_TASK,
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(void *) 0,
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sizeof(rtems_monitor_init_task_t),
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(rtems_monitor_object_next_fn) rtems_monitor_init_task_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_init_task_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_init_task_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_init_task_dump,
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},
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{ RTEMS_OBJECT_TASK,
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(void *) &_RTEMS_tasks_Information,
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sizeof(rtems_monitor_task_t),
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(rtems_monitor_object_next_fn) rtems_monitor_manager_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_task_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_task_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_task_dump,
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},
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{ RTEMS_OBJECT_QUEUE,
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(void *) &_Message_queue_Information,
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sizeof(rtems_monitor_queue_t),
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(rtems_monitor_object_next_fn) rtems_monitor_manager_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_queue_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_queue_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_queue_dump,
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},
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{ RTEMS_OBJECT_EXTENSION,
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(void *) &_Extension_Information,
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sizeof(rtems_monitor_extension_t),
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(rtems_monitor_object_next_fn) rtems_monitor_manager_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_extension_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_extension_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_extension_dump,
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},
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{ RTEMS_OBJECT_DRIVER,
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(void *) 0,
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sizeof(rtems_monitor_driver_t),
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(rtems_monitor_object_next_fn) rtems_monitor_driver_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_driver_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_driver_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_driver_dump,
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},
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{ RTEMS_OBJECT_DNAME,
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/* XXX now that the driver name table is allocated from the */
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/* XXX Workspace, this does not work */
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(void *) 0,
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/* (void *) _IO_Driver_name_table, */
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sizeof(rtems_monitor_dname_t),
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(rtems_monitor_object_next_fn) rtems_monitor_dname_next,
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(rtems_monitor_object_canonical_fn) rtems_monitor_dname_canonical,
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(rtems_monitor_object_dump_header_fn) rtems_monitor_dname_dump_header,
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(rtems_monitor_object_dump_fn) rtems_monitor_dname_dump,
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},
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};
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/*
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* Allow id's to be specified without the node number or
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* type for convenience.
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*/
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rtems_id
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rtems_monitor_id_fixup(
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rtems_id id,
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unsigned32 default_node,
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rtems_object_type_t type
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)
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{
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unsigned32 node;
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node = rtems_get_node(id);
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if (node == 0)
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{
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#if 0
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/* XXX Uncomment this when types are added to id's */
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if (rtems_get_class(id) != OBJECTS_NO_CLASS)
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type = rtems_get_class(id);
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id = _Objects_Build_id(type, default_node, rtems_get_index(id));
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#else
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#warning "TONY... FIX ME!!!!!"
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#if defined(hppa1_1)
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#error "TONY... I SAID TO FIX ME!!!!! <HAHAHAHAHA>"
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#endif
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id = _Objects_Build_id(0, default_node, rtems_get_index(id));
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#endif
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}
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return id;
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}
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rtems_monitor_object_info_t *
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rtems_monitor_object_lookup(
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rtems_object_type_t type
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)
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{
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rtems_monitor_object_info_t *p;
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for (p = &rtems_monitor_object_info[0];
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p < &rtems_monitor_object_info[NUMELEMS(rtems_monitor_object_info)];
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p++)
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{
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if (p->type == type)
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return p;
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}
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return 0;
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}
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rtems_id
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rtems_monitor_object_canonical_next_remote(
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rtems_object_type_t type,
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rtems_id id,
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void *canonical
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)
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{
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rtems_id next_id;
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rtems_status_code status;
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rtems_monitor_server_request_t request;
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rtems_monitor_server_response_t response;
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/*
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* Send request
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*/
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request.command = RTEMS_MONITOR_SERVER_CANONICAL;
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request.argument0 = (unsigned32) type;
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request.argument1 = (unsigned32) id;
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status = rtems_monitor_server_request(rtems_get_node(id), &request, &response);
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if (status != RTEMS_SUCCESSFUL)
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goto failed;
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/*
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* process response
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*/
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next_id = (rtems_id) response.result0;
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if (next_id != RTEMS_OBJECT_ID_FINAL)
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(void) memcpy(canonical, &response.payload, response.result1);
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return next_id;
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failed:
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return RTEMS_OBJECT_ID_FINAL;
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}
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rtems_id
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rtems_monitor_object_canonical_next(
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rtems_monitor_object_info_t *info,
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rtems_id id,
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void *canonical
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)
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{
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rtems_id next_id;
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void *raw_item;
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if ( ! _Objects_Is_local_id(id))
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next_id = rtems_monitor_object_canonical_next_remote(info->type,
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id,
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canonical);
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else
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{
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next_id = id;
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raw_item = (void *) info->next(info->object_information,
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canonical,
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&next_id);
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if (raw_item)
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{
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info->canonical(canonical, raw_item);
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_Thread_Enable_dispatch();
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}
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}
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return next_id;
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}
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/*
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* this is routine server invokes locally to get the type
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*/
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rtems_id
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rtems_monitor_object_canonical_get(
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rtems_object_type_t type,
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rtems_id id,
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void *canonical,
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unsigned32 *size_p
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)
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{
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rtems_monitor_object_info_t *info;
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rtems_id next_id;
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*size_p = 0;
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info = rtems_monitor_object_lookup(type);
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if (info == 0)
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return RTEMS_OBJECT_ID_FINAL;
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next_id = rtems_monitor_object_canonical_next(info, id, canonical);
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*size_p = info->size;
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return next_id;
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}
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void
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rtems_monitor_object_dump_1(
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rtems_monitor_object_info_t *info,
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rtems_id id,
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boolean verbose
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)
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{
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rtems_id next_id;
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rtems_monitor_union_t canonical;
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if ((next_id = rtems_monitor_object_canonical_next(
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info,
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id,
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&canonical)) != RTEMS_OBJECT_ID_FINAL)
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{
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/*
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* If the one we actually got is the one we wanted, then
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* print it out.
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* For ones that have an id field, this works fine,
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* for all others, always dump it out.
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*
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* HACK: the way we determine whether there is an id is a hack.
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*
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* by the way: the reason we try to not have an id, is that some
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* of the canonical structures are almost too big for shared
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* memory driver (eg: mpci)
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*/
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if ((info->next != rtems_monitor_manager_next) ||
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(id == canonical.generic.id))
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info->dump(&canonical, verbose);
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}
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}
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void
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rtems_monitor_object_dump_all(
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rtems_monitor_object_info_t *info,
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boolean verbose
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)
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{
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rtems_id next_id;
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rtems_monitor_union_t canonical;
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next_id = RTEMS_OBJECT_ID_INITIAL(rtems_monitor_default_node);
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while ((next_id = rtems_monitor_object_canonical_next(
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info,
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next_id,
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&canonical)) != RTEMS_OBJECT_ID_FINAL)
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{
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info->dump(&canonical, verbose);
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}
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}
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void
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rtems_monitor_object_cmd(
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int argc,
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char **argv,
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unsigned32 command_arg,
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boolean verbose
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)
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{
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int arg;
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rtems_monitor_object_info_t *info = 0;
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rtems_object_type_t type = (rtems_object_type_t) command_arg;
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/* what is the default type? */
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type = (rtems_object_type_t) command_arg;
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if (argc == 1)
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{
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if (type == RTEMS_OBJECT_INVALID)
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{
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printf("A type must be specified to \"dump all\"\n");
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goto done;
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}
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info = rtems_monitor_object_lookup(type);
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if (info == 0)
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goto not_found;
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if (info->dump_header)
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info->dump_header(verbose);
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rtems_monitor_object_dump_all(info, verbose);
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}
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else
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{
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unsigned32 default_node = rtems_monitor_default_node;
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rtems_object_type_t last_type = RTEMS_OBJECT_INVALID;
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rtems_id id;
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for (arg=1; argv[arg]; arg++)
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{
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id = (rtems_id) strtoul(argv[arg], 0, 0);
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id = rtems_monitor_id_fixup(id, default_node, type);
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#if 0
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type = rtems_get_type(id);
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#endif
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/*
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* Allow the item type to change in the middle
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* of the command. If the type changes, then
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* just dump out a new header and keep on going.
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*/
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if (type != last_type)
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{
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info = rtems_monitor_object_lookup(type);
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if (info == 0)
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{
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not_found: printf("Invalid or unsupported type %d\n", type);
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goto done;
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}
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if (info->dump_header)
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info->dump_header(verbose);
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}
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rtems_monitor_object_dump_1(info, id, verbose);
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default_node = rtems_get_node(id);
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last_type = type;
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}
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}
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done:
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}
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