qemu-e2k/hw/core/resettable.c
Damien Hedde 310616d367 hw/core/resettable: fix reset level counting
The code for handling the reset level count in the Resettable code
has two issues:

The reset count is only decremented for the 1->0 case.  This means
that if there's ever a nested reset that takes the count to 2 then it
will never again be decremented.  Eventually the count will exceed
the '50' limit in resettable_phase_enter() and QEMU will trip over
the assertion failure.  The repro case in issue 1266 is an example of
this that happens now the SCSI subsystem uses three-phase reset.

Secondly, the count is decremented only after the exit phase handler
is called.  Moving the reset count decrement from "just after" to
"just before" calling the exit phase handler allows
resettable_is_in_reset() to return false during the handler
execution.

This simplifies reset handling in resettable devices.  Typically, a
function that updates the device state will just need to read the
current reset state and not anymore treat the "in a reset-exit
transition" as a special case.

Note that the semantics change to the *_is_in_reset() functions
will have no effect on the current codebase, because only two
devices (hw/char/cadence_uart.c and hw/misc/zynq_sclr.c) currently
call those functions, and in neither case do they do it from the
device's exit phase methed.

Fixes: 4a5fc890 ("scsi: Use device_cold_reset() and bus_cold_reset()")
Resolves: https://gitlab.com/qemu-project/qemu/-/issues/1266
Signed-off-by: Damien Hedde <damien.hedde@greensocs.com>
Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
Reported-by: Michael Peter <michael.peter@hensoldt-cyber.com>
Reviewed-by: Philippe Mathieu-Daudé <philmd@linaro.org>
Message-id: 20221020142749.3357951-1-peter.maydell@linaro.org
Buglink: https://bugs.launchpad.net/qemu/+bug/1905297
Reported-by: Michael Peter <michael.peter@hensoldt-cyber.com>
[PMM: adjust the docs paragraph changed to get the name of the
 'enter' phase right and to clarify exactly when the count is
 adjusted; rewrite the commit message]
Signed-off-by: Peter Maydell <peter.maydell@linaro.org>
2022-10-27 10:27:23 +01:00

301 lines
9.4 KiB
C

/*
* Resettable interface.
*
* Copyright (c) 2019 GreenSocs SAS
*
* Authors:
* Damien Hedde
*
* This work is licensed under the terms of the GNU GPL, version 2 or later.
* See the COPYING file in the top-level directory.
*/
#include "qemu/osdep.h"
#include "qemu/module.h"
#include "hw/resettable.h"
#include "trace.h"
/**
* resettable_phase_enter/hold/exit:
* Function executing a phase recursively in a resettable object and its
* children.
*/
static void resettable_phase_enter(Object *obj, void *opaque, ResetType type);
static void resettable_phase_hold(Object *obj, void *opaque, ResetType type);
static void resettable_phase_exit(Object *obj, void *opaque, ResetType type);
/**
* enter_phase_in_progress:
* True if we are currently in reset enter phase.
*
* exit_phase_in_progress:
* count the number of exit phase we are in.
*
* Note: These flags are only used to guarantee (using asserts) that the reset
* API is used correctly. We can use global variables because we rely on the
* iothread mutex to ensure only one reset operation is in a progress at a
* given time.
*/
static bool enter_phase_in_progress;
static unsigned exit_phase_in_progress;
void resettable_reset(Object *obj, ResetType type)
{
trace_resettable_reset(obj, type);
resettable_assert_reset(obj, type);
resettable_release_reset(obj, type);
}
void resettable_assert_reset(Object *obj, ResetType type)
{
/* TODO: change this assert when adding support for other reset types */
assert(type == RESET_TYPE_COLD);
trace_resettable_reset_assert_begin(obj, type);
assert(!enter_phase_in_progress);
enter_phase_in_progress = true;
resettable_phase_enter(obj, NULL, type);
enter_phase_in_progress = false;
resettable_phase_hold(obj, NULL, type);
trace_resettable_reset_assert_end(obj);
}
void resettable_release_reset(Object *obj, ResetType type)
{
/* TODO: change this assert when adding support for other reset types */
assert(type == RESET_TYPE_COLD);
trace_resettable_reset_release_begin(obj, type);
assert(!enter_phase_in_progress);
exit_phase_in_progress += 1;
resettable_phase_exit(obj, NULL, type);
exit_phase_in_progress -= 1;
trace_resettable_reset_release_end(obj);
}
bool resettable_is_in_reset(Object *obj)
{
ResettableClass *rc = RESETTABLE_GET_CLASS(obj);
ResettableState *s = rc->get_state(obj);
return s->count > 0;
}
/**
* resettable_child_foreach:
* helper to avoid checking the existence of the method.
*/
static void resettable_child_foreach(ResettableClass *rc, Object *obj,
ResettableChildCallback cb,
void *opaque, ResetType type)
{
if (rc->child_foreach) {
rc->child_foreach(obj, cb, opaque, type);
}
}
/**
* resettable_get_tr_func:
* helper to fetch transitional reset callback if any.
*/
static ResettableTrFunction resettable_get_tr_func(ResettableClass *rc,
Object *obj)
{
ResettableTrFunction tr_func = NULL;
if (rc->get_transitional_function) {
tr_func = rc->get_transitional_function(obj);
}
return tr_func;
}
static void resettable_phase_enter(Object *obj, void *opaque, ResetType type)
{
ResettableClass *rc = RESETTABLE_GET_CLASS(obj);
ResettableState *s = rc->get_state(obj);
const char *obj_typename = object_get_typename(obj);
bool action_needed = false;
/* exit phase has to finish properly before entering back in reset */
assert(!s->exit_phase_in_progress);
trace_resettable_phase_enter_begin(obj, obj_typename, s->count, type);
/* Only take action if we really enter reset for the 1st time. */
/*
* TODO: if adding more ResetType support, some additional checks
* are probably needed here.
*/
if (s->count++ == 0) {
action_needed = true;
}
/*
* We limit the count to an arbitrary "big" value. The value is big
* enough not to be triggered normally.
* The assert will stop an infinite loop if there is a cycle in the
* reset tree. The loop goes through resettable_foreach_child below
* which at some point will call us again.
*/
assert(s->count <= 50);
/*
* handle the children even if action_needed is at false so that
* child counts are incremented too
*/
resettable_child_foreach(rc, obj, resettable_phase_enter, NULL, type);
/* execute enter phase for the object if needed */
if (action_needed) {
trace_resettable_phase_enter_exec(obj, obj_typename, type,
!!rc->phases.enter);
if (rc->phases.enter && !resettable_get_tr_func(rc, obj)) {
rc->phases.enter(obj, type);
}
s->hold_phase_pending = true;
}
trace_resettable_phase_enter_end(obj, obj_typename, s->count);
}
static void resettable_phase_hold(Object *obj, void *opaque, ResetType type)
{
ResettableClass *rc = RESETTABLE_GET_CLASS(obj);
ResettableState *s = rc->get_state(obj);
const char *obj_typename = object_get_typename(obj);
/* exit phase has to finish properly before entering back in reset */
assert(!s->exit_phase_in_progress);
trace_resettable_phase_hold_begin(obj, obj_typename, s->count, type);
/* handle children first */
resettable_child_foreach(rc, obj, resettable_phase_hold, NULL, type);
/* exec hold phase */
if (s->hold_phase_pending) {
s->hold_phase_pending = false;
ResettableTrFunction tr_func = resettable_get_tr_func(rc, obj);
trace_resettable_phase_hold_exec(obj, obj_typename, !!rc->phases.hold);
if (tr_func) {
trace_resettable_transitional_function(obj, obj_typename);
tr_func(obj);
} else if (rc->phases.hold) {
rc->phases.hold(obj);
}
}
trace_resettable_phase_hold_end(obj, obj_typename, s->count);
}
static void resettable_phase_exit(Object *obj, void *opaque, ResetType type)
{
ResettableClass *rc = RESETTABLE_GET_CLASS(obj);
ResettableState *s = rc->get_state(obj);
const char *obj_typename = object_get_typename(obj);
assert(!s->exit_phase_in_progress);
trace_resettable_phase_exit_begin(obj, obj_typename, s->count, type);
/* exit_phase_in_progress ensures this phase is 'atomic' */
s->exit_phase_in_progress = true;
resettable_child_foreach(rc, obj, resettable_phase_exit, NULL, type);
assert(s->count > 0);
if (--s->count == 0) {
trace_resettable_phase_exit_exec(obj, obj_typename, !!rc->phases.exit);
if (rc->phases.exit && !resettable_get_tr_func(rc, obj)) {
rc->phases.exit(obj);
}
}
s->exit_phase_in_progress = false;
trace_resettable_phase_exit_end(obj, obj_typename, s->count);
}
/*
* resettable_get_count:
* Get the count of the Resettable object @obj. Return 0 if @obj is NULL.
*/
static unsigned resettable_get_count(Object *obj)
{
if (obj) {
ResettableClass *rc = RESETTABLE_GET_CLASS(obj);
return rc->get_state(obj)->count;
}
return 0;
}
void resettable_change_parent(Object *obj, Object *newp, Object *oldp)
{
ResettableClass *rc = RESETTABLE_GET_CLASS(obj);
ResettableState *s = rc->get_state(obj);
unsigned newp_count = resettable_get_count(newp);
unsigned oldp_count = resettable_get_count(oldp);
/*
* Ensure we do not change parent when in enter or exit phase.
* During these phases, the reset subtree being updated is partly in reset
* and partly not in reset (it depends on the actual position in
* resettable_child_foreach()s). We are not able to tell in which part is a
* leaving or arriving device. Thus we cannot set the reset count of the
* moving device to the proper value.
*/
assert(!enter_phase_in_progress && !exit_phase_in_progress);
trace_resettable_change_parent(obj, oldp, oldp_count, newp, newp_count);
/*
* At most one of the two 'for' loops will be executed below
* in order to cope with the difference between the two counts.
*/
/* if newp is more reset than oldp */
for (unsigned i = oldp_count; i < newp_count; i++) {
resettable_assert_reset(obj, RESET_TYPE_COLD);
}
/*
* if obj is leaving a bus under reset, we need to ensure
* hold phase is not pending.
*/
if (oldp_count && s->hold_phase_pending) {
resettable_phase_hold(obj, NULL, RESET_TYPE_COLD);
}
/* if oldp is more reset than newp */
for (unsigned i = newp_count; i < oldp_count; i++) {
resettable_release_reset(obj, RESET_TYPE_COLD);
}
}
void resettable_cold_reset_fn(void *opaque)
{
resettable_reset((Object *) opaque, RESET_TYPE_COLD);
}
void resettable_class_set_parent_phases(ResettableClass *rc,
ResettableEnterPhase enter,
ResettableHoldPhase hold,
ResettableExitPhase exit,
ResettablePhases *parent_phases)
{
*parent_phases = rc->phases;
if (enter) {
rc->phases.enter = enter;
}
if (hold) {
rc->phases.hold = hold;
}
if (exit) {
rc->phases.exit = exit;
}
}
static const TypeInfo resettable_interface_info = {
.name = TYPE_RESETTABLE_INTERFACE,
.parent = TYPE_INTERFACE,
.class_size = sizeof(ResettableClass),
};
static void reset_register_types(void)
{
type_register_static(&resettable_interface_info);
}
type_init(reset_register_types)