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nexedi
linux
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b1e1f21f
Commit
b1e1f21f
authored
May 01, 2018
by
Paul E. McKenney
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doc: Update data-structure documentation for ->gp_seq
Signed-off-by:
Paul E. McKenney
<
paulmck@linux.vnet.ibm.com
>
parent
e44e73ca
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Documentation/RCU/Design/Data-Structures/Data-Structures.html
...mentation/RCU/Design/Data-Structures/Data-Structures.html
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Documentation/RCU/Design/Data-Structures/Data-Structures.html
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b1e1f21f
...
...
@@ -380,31 +380,26 @@ and therefore need no protection.
as follows:
<pre>
1 unsigned long gpnum;
2 unsigned long completed;
1 unsigned long gp_seq;
</pre>
<p>
RCU grace periods are numbered, and
the
<tt>
-
>
gpnum
</tt>
field contains the number of the grace
period that started most recently.
The
<tt>
-
>
completed
</tt>
field contains the number of the
grace period that completed most recently.
If the two fields are equal, the RCU grace period that most recently
started has already completed, and therefore the corresponding
flavor of RCU is idle.
If
<tt>
-
>
gpnum
</tt>
is one greater than
<tt>
-
>
completed
</tt>
,
then
<tt>
-
>
gpnum
</tt>
gives the number of the current RCU
grace period, which has not yet completed.
Any other combination of values indicates that something is broken.
These two fields are protected by the root
<tt>
rcu_node
</tt>
's
the
<tt>
-
>
gp_seq
</tt>
field contains the current grace-period
sequence number.
The bottom two bits are the state of the current grace period,
which can be zero for not yet started or one for in progress.
In other words, if the bottom two bits of
<tt>
-
>
gp_seq
</tt>
are
zero, the corresponding flavor of RCU is idle.
Any other value in the bottom two bits indicates that something is broken.
This field is protected by the root
<tt>
rcu_node
</tt>
structure's
<tt>
-
>
lock
</tt>
field.
</p><p>
There are
<tt>
-
>
gp
num
</tt>
and
<tt>
-
>
completed
</tt>
fields
</p><p>
There are
<tt>
-
>
gp
_seq
</tt>
fields
in the
<tt>
rcu_node
</tt>
and
<tt>
rcu_data
</tt>
structures
as well.
The fields in the
<tt>
rcu_state
</tt>
structure represent the
most current value
s
, and those of the other structures are compared
in order to detect the
start of a new grace period
in a distributed
most current value, and those of the other structures are compared
in order to detect the
beginnings and ends of grace periods
in a distributed
fashion.
The values flow from
<tt>
rcu_state
</tt>
to
<tt>
rcu_node
</tt>
(down the tree from the root to the leaves) to
<tt>
rcu_data
</tt>
.
...
...
@@ -512,27 +507,47 @@ than to be heisenbugged out of existence.
as follows:
<pre>
1 unsigned long gp
num
;
2 unsigned long
complet
ed;
1 unsigned long gp
_seq
;
2 unsigned long
gp_seq_need
ed;
</pre>
<p>
These fields are the counterparts of the fields of the same name in
the
<tt>
rcu_state
</tt>
structure.
They each may lag up to one behind their
<tt>
rcu_state
</tt>
counterparts.
If a given
<tt>
rcu_node
</tt>
structure's
<tt>
-
>
gpnum
</tt>
and
<tt>
-
>
complete
</tt>
fields are equal, then this
<tt>
rcu_node
</tt>
<p>
The
<tt>
rcu_node
</tt>
structures'
<tt>
-
>
gp_seq
</tt>
fields are
the counterparts of the field of the same name in the
<tt>
rcu_state
</tt>
structure.
They each may lag up to one step behind their
<tt>
rcu_state
</tt>
counterpart.
If the bottom two bits of a given
<tt>
rcu_node
</tt>
structure's
<tt>
-
>
gp_seq
</tt>
field is zero, then this
<tt>
rcu_node
</tt>
structure believes that RCU is idle.
Otherwise, as with the
<tt>
rcu_state
</tt>
structure,
the
<tt>
-
>
gpnum
</tt>
field will be one greater than the
<tt>
-
>
complete
</tt>
fields, with
<tt>
-
>
gpnum
</tt>
indicating which grace period this
<tt>
rcu_node
</tt>
believes
is still being waited for.
</p><p>
The
<tt>
>
gp_seq
</tt>
field of each
<tt>
rcu_node
</tt>
structure is updated at the beginning and the end
of each grace period.
<p>
The
<tt>
-
>
gp_seq_needed
</tt>
fields record the
furthest-in-the-future grace period request seen by the corresponding
<tt>
rcu_node
</tt>
structure. The request is considered fulfilled when
the value of the
<tt>
-
>
gp_seq
</tt>
field equals or exceeds that of
the
<tt>
-
>
gp_seq_needed
</tt>
field.
</p><p>
The
<tt>
>
gpnum
</tt>
field of each
<tt>
rcu_node
</tt>
structure is updated at the beginning
of each grace period, and the
<tt>
-
>
completed
</tt>
fields are
updated at the end of each grace period.
<table>
<tr><th>
</th></tr>
<tr><th
align=
"left"
>
Quick Quiz:
</th></tr>
<tr><td>
Suppose that this
<tt>
rcu_node
</tt>
structure doesn't see
a request for a very long time.
Won't wrapping of the
<tt>
-
>
gp_seq
</tt>
field cause
problems?
</td></tr>
<tr><th
align=
"left"
>
Answer:
</th></tr>
<tr><td
bgcolor=
"#ffffff"
><font
color=
"ffffff"
>
No, because if the
<tt>
-
>
gp_seq_needed
</tt>
field lags behind the
<tt>
-
>
gp_seq
</tt>
field, the
<tt>
-
>
gp_seq_needed
</tt>
field
will be updated at the end of the grace period.
Modulo-arithmetic comparisons therefore will always get the
correct answer, even with wrapping.
</font></td></tr>
<tr><td>
</td></tr>
</table>
<h5>
Quiescent-State Tracking
</h5>
...
...
@@ -626,9 +641,8 @@ normal and expedited grace periods, respectively.
</ol>
<p><font
color=
"ffffff"
>
So the locking is absolutely required in
order to coordinate
clearing of the bits with the grace-period numbers in
<tt>
-
>
gpnum
</tt>
and
<tt>
-
>
completed
</tt>
.
order to coordinate clearing of the bits with updating of the
grace-period sequence number in
<tt>
-
>
gp_seq
</tt>
.
</font></td></tr>
<tr><td>
</td></tr>
</table>
...
...
@@ -1038,15 +1052,15 @@ out any <tt>rcu_data</tt> structure for which this flag is not set.
as follows:
<pre>
1 unsigned long
completed
;
2 unsigned long gp
num
;
1 unsigned long
gp_seq
;
2 unsigned long gp
_seq_needed
;
3 bool cpu_no_qs;
4 bool core_needs_qs;
5 bool gpwrap;
6 unsigned long rcu_qs_ctr_snap;
</pre>
<p>
The
<tt>
completed
</tt>
and
<tt>
gpnum
</tt>
<p>
The
<tt>
-
>
gp_seq
</tt>
and
<tt>
-
>
gp_seq_needed
</tt>
fields are the counterparts of the fields of the same name
in the
<tt>
rcu_state
</tt>
and
<tt>
rcu_node
</tt>
structures.
They may each lag up to one behind their
<tt>
rcu_node
</tt>
...
...
@@ -1054,15 +1068,9 @@ counterparts, but in <tt>CONFIG_NO_HZ_IDLE</tt> and
<tt>
CONFIG_NO_HZ_FULL
</tt>
kernels can lag
arbitrarily far behind for CPUs in dyntick-idle mode (but these counters
will catch up upon exit from dyntick-idle mode).
If
a given
<tt>
rcu_data
</tt>
structure's
<tt>
-
>
gpnum
</tt>
and
<tt>
-
>
complete
</tt>
fields are equal
, then this
<tt>
rcu_data
</tt>
If
the lower two bits of a given
<tt>
rcu_data
</tt>
structure's
<tt>
-
>
gp_seq
</tt>
are zero
, then this
<tt>
rcu_data
</tt>
structure believes that RCU is idle.
Otherwise, as with the
<tt>
rcu_state
</tt>
and
<tt>
rcu_node
</tt>
structure,
the
<tt>
-
>
gpnum
</tt>
field will be one greater than the
<tt>
-
>
complete
</tt>
fields, with
<tt>
-
>
gpnum
</tt>
indicating which grace period this
<tt>
rcu_data
</tt>
believes
is still being waited for.
<table>
<tr><th>
</th></tr>
...
...
@@ -1070,13 +1078,13 @@ is still being waited for.
<tr><td>
All this replication of the grace period numbers can only cause
massive confusion.
Why not just keep a global
pair of counters
and be done with it???
Why not just keep a global
sequence number
and be done with it???
</td></tr>
<tr><th
align=
"left"
>
Answer:
</th></tr>
<tr><td
bgcolor=
"#ffffff"
><font
color=
"ffffff"
>
Because if there was only a single global
pair of grace-period
Because if there was only a single global
sequence
numbers, there would need to be a single global lock to allow
safely accessing and updating
them
.
safely accessing and updating
it
.
And if we are not going to have a single global lock, we need
to carefully manage the numbers on a per-node basis.
Recall from the answer to a previous Quick Quiz that the consequences
...
...
@@ -1091,8 +1099,8 @@ CPU has not yet passed through a quiescent state,
while the
<tt>
-
>
core_needs_qs
</tt>
flag indicates that the
RCU core needs a quiescent state from the corresponding CPU.
The
<tt>
-
>
gpwrap
</tt>
field indicates that the corresponding
CPU has remained idle for so long that the
<tt>
completed
</tt>
and
<tt>
gpnum
</tt>
counters are
in danger of overflow, which
CPU has remained idle for so long that the
<tt>
gp_seq
</tt>
counter is
in danger of overflow, which
will cause the CPU to disregard the values of its counters on
its next exit from idle.
Finally, the
<tt>
rcu_qs_ctr_snap
</tt>
field is used to detect
...
...
@@ -1130,10 +1138,10 @@ The CPU advances the callbacks in its <tt>rcu_data</tt> structure
whenever it notices that another RCU grace period has completed.
The CPU detects the completion of an RCU grace period by noticing
that the value of its
<tt>
rcu_data
</tt>
structure's
<tt>
-
>
completed
</tt>
field differs from that of its leaf
<tt>
-
>
gp_seq
</tt>
field differs from that of its leaf
<tt>
rcu_node
</tt>
structure.
Recall that each
<tt>
rcu_node
</tt>
structure's
<tt>
-
>
completed
</tt>
field is updated at the end
of each
<tt>
-
>
gp_seq
</tt>
field is updated at the beginnings and ends
of each
grace period.
<p>
...
...
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