kolibrios/kernel/branches/Kolibri-F/docs/events_subsystem.txt

249 lines
12 KiB
Plaintext
Raw Normal View History

Last edit: 26/07/2013
Kernel event subsystem may be useful when writing drivers and kernel space
services. It is not related to the subsystem of GUI events. An event, from the
kernel's point of view, is a kernel space object which is owned by the thread
that created it.
struc EVENT
{
.magic dd ? ; 'EVNT'
.destroy dd ? ; internal destructor
.fd dd ? ; next object in list
.bk dd ? ; prev object in list
.pid dd ? ; owner (thread) id
.id dd ? ; event uid. (just a number)
.state dd ? ; internal flags; see below
.code dd ? ; MSB: event class; next byte: priority
; (used by kernel only, always 0 for reading),
; The higher dword value the higher event priority.
; Two LSBs: event code.
rd 5 ; .data: the structure of this field is not defined and
; depends on .code field. (Pass any data you need here)
.size = $ - .magic
.codesize = $ - .code
}
Realtime events have class 0хFF. Currently defined:
EVENT.code= ; (Used in sound subsystem)
RT_INP_EMPTY = 0xFF000001
RT_OUT_EMPTY = 0xFF000002
RT_INP_FULL = 0xFF000003
RT_OUT_FULL = 0xFF000004
Flags of EVENT.state field are defined in gui/event.inc.
EVENT_SIGNALED = 0x20000000 ; bit 29: event is active/inactive
EVENT_WATCHED = 0x10000000 ; bit 28: owner thread is waiting for the
; event to be active
MANUAL_RESET = 0x40000000 ; bit 30: do not deactivate event
: automatically on receive
MANUAL_DESTROY = 0x80000000 ; bit 31: do not return event to a list of
; free ones on receive
As of SVN r3732 (assume same below) the definition is located in
/kernel/trunk/const.inc and is as follows:
struct APPOBJ ; common object header
magic dd ? ;
destroy dd ? ; internal destructor
fd dd ? ; next object in list
bk dd ? ; prev object in list
pid dd ? ; owner id
ends
struct EVENT APPOBJ
id dd ? ; event uid
state dd ? ; internal flags
code dd ?
rd 5 ; .data
ends
Code is located in gui/event.inc.
Event objects live in kernel memory as a double-linked list (see fields .bk and
.fd). While initialization the kernel reserves memory, creates 512 events and
places them into FreeEvents list. When out of free event, kernel creates another
512 ones etc. Each thread has own double-linked lists where an event may be
placed to:
ObjList -- a list of kernel objects associated with the thread;
EventList -- a list of kernel events for the thread.
When events are moved between lists or reordered their data are not copied. This
is done only via modification of .fd and .bk fields. These lists work as FIFO
queues. Sending does not block, receiving blocks. Addressing is direct, by
thread id. There always is an owner thread for an event.
Event's life cycle is defined by flags while creation. By default the kernel
uses values MANUAL_RESET = 0 and MANUAL_DESTROY = 0. Such an event is oneshot
and is automatically freed by the kernel and returned to the FreeEvents list
when received. An event with flag MANUAL_DESTROY = 1 becomes inactive when
received but remains in thread's object list and can be reused. An event with
flags MANUAL_DESTROY = 1 and MANUAL_RESET = 1 remains active when received and
can be reset via call to ClearEvent.
A life cycle example of a sound subsystem event:
* For an audio buffer (possibly several) the driver creates an event in ObjList
by calling CreateEvent with flag MANUAL_DESTROY.
* Then driver calls WaitEvent for the event (waits for EVENT_SIGNALED event
flag) and blocks waiting for buffer update request.
* The buffer update request is sent with RaiseEvent from another thread.
* Sending (RaiseEvent) and receiving (WaitEvent) are repeated as buffer gets
empty.
* Driver deactivates the event with ClearEvent when playback is stopped.
Actually, the event structure is described here only for understanding of
subsystem work principles. Direct field access is discouraged due to possible
compatibility issues in the future. Only API calls should be used. A pair
"pointer to an event" and "event id" is considered a single 64-bit id. This id
should be stored somewhere after a call to CreateEvent for further work with the
event.
The kernel exports following event related functions:
(for drivers, etc; called from kernel mode)
CreateEvent
RaiseEvent
ClearEvent
SendEvent
DestroyEvent
WaitEvent
WaitEventTimeout
GetEvent
For user applications sysfn 68.14 (a wrapper to GetEvent)
--------------------------------------------------------------------------------
CreateEvent:
Creates a new event in ObjList queue of current thread.
Sets:
EVENT.destroy <= default internal destructor
EVENT.pid <= current Process id
EVENT.id <= unique id
EVENT.state <= ecx: flags
EVENT.code <= [esi]: size is 6*dword, do not copy if esi=0
Returns:
eax -- pointer to the event or 0 for error.
edx -- Event.id.
Destroys: eax,ebx,edx,ecx,esi,edi
--------------------------------------------------------------------------------
RaiseEvent:
Activates existing event (may be owned by another thread) by setting
EVENT_SIGNALED flag. Sets EVENT.code data if necessary. Does nothing
more if EVENT_SIGNALED flag is already active in the event. If
EVENT_SIGNALED flag is not set in the event it will be set, except when
EVENT_WATCHED in edx = 1 and EVENT_WATCHED in the event = 0. I.e. while
setting EVENT_WATCHED in edx it is checked if owner thread is waiting
for event activation. No flags, except EVENT_SIGNALED, are modified in
the event.
Gets:
eax -- pointer to event
ebx -- id
edx -- flags (see EVENT.state)
Sets:
EVENT.code <= [esi]: size is 6*dword, do not copy if esi=0
Returns: ?
Destroys: eax,ebx,edx,ecx,esi,edi
--------------------------------------------------------------------------------
ClearEvent:
Move event to ObjList of owner thread. (May be it was already there.)
Reset flags EVENT_SIGNALED and EVENT_WATCHED, keep other fields (.code,
.id).
Gets:
eax -- pointer to event
ebx -- id
Returns: ?
Destroys: eax,ebx,ecx,edi
--------------------------------------------------------------------------------
SendEvent:
Create a new event in the event list of target thread. Sets
EVENT_SIGNALED flag in the event.
Gets:
EVENT.pid <= eax: target thread id;
EVENT.code <= [esi]: size is 6*dword, do not copy if esi=0
Returns:
eax -- pointer to event or 0 for error
edx -- Event.id
Destroys: eax,ebx,ecx,esi,edi
--------------------------------------------------------------------------------
DestroyEvent:
Moves event to FreeEvents, clears fields .magic, .destroy, .pid, .id.
The event may be owned by other thread.
Gets:
eax -- pointer to event
ebx -- event id
Returns:
eax -- 0 for error, non-zero for success
Destroy: eax,ebx,ecx
--------------------------------------------------------------------------------
WaitEvent:
Wait infinitely until flag EVENT_SIGNALED is set in the event owned by
the caller thread. This flag is set by signaling thread via RaiseEvent.
Waiting thread is frozen by setting TASKDATA.state <= TSTATE_WAITING=5.
Flag EVENT_WATCHED is set in the event before freeze.
If flag MANUAL_RESET is NOT set in the event then:
EVENT_SIGNALED and EVENT_WATCHED are reset when the event is
received.
When MANUAL_DESTROY is
inactive: the event is destroyed by DestroyEvent,
active: the event is moved to ObjList of current thread.
Gets:
eax -- pointer to event
ebx -- event id
Returns: ?
Destroys: eax,ebx,edx,ecx,esi,edi
--------------------------------------------------------------------------------
WaitEventTimeout:
Wait with a timeout until flag EVENT_SIGNALED is set in the event owned
by caller thread. This flag is set by signaling thread via RaiseEvent.
Waiting thread is frozen by setting TASKDATA.state <= TSTATE_WAITING=5.
Flag EVENT_WATCHED is set in the event before freeze.
If flag MANUAL_RESET is NOT set in the event then:
EVENT_SIGNALED and EVENT_WATCHED are reset when the event is
received.
When MANUAL_DESTROY is
inactive: the event is destroyed by DestroyEvent,
active: the event is moved to ObjList of current thread.
Gets:
eax -- pointer to event
ebx -- event id
ecx -- timeout, in ticks of system timer
Returns:
eax -- 0 if the event was not activated, or
not 0 if activated
Destroys: eax,ebx,edx,ecx,esi,edi
--------------------------------------------------------------------------------
GetEvent:
Waits infinitely for any event in the queue of current thread. Thread is
frozen by setting TASKDATA.state <= TSTATE_WAITING = 5. Event data
(EVENT.code + 5*dword) are copied to specified buffer when received.
Reset priority byte (see above) in the buffer.
If flag MANUAL_RESET is NOT set in the event then:
EVENT_SIGNALED and EVENT_WATCHED are reset when the event is
received.
When MANUAL_DESTROY is
inactive: the event is destroyed by DestroyEvent,
active: the event is moved to ObjList of current thread.
Gets:
edi -- pointer to buffer to copy data
Returns:
buffer with following data:
+0: (EVENT.code) dword: id of following signal data
+4: (EVENT.data) 5*dword: signal data, format depends on
EVENT.code
Destroys: eax,ebx,edx,ecx,esi,edi
--------------------------------------------------------------------------------
SysFn 68.14 for application: ; wrapped GetEvent
Waits infinitely for any event in the queue of current thread. Thread is
frozen by setting TASKDATA.state <= TSTATE_WAITING = 5. Event data
(EVENT.code + 5*dword) are copied to specified buffer when received.
Reset priority byte (see above) in the buffer.
Gets:
eax -- 68: function number
ebx -- 14: subfunction number
ecx -- pointer to data buffer (size is 6*dword)
Returns:
ecx = buffer with following data:
+0: (EVENT.code) dword: id of following signal data
+4: (EVENT.data) 5*dword: signal data, format depends on
EVENT.code
Destroys:
eax