Skip to content
Projects
Groups
Snippets
Help
Loading...
Help
Support
Keyboard shortcuts
?
Submit feedback
Contribute to GitLab
Sign in / Register
Toggle navigation
W
wendelin.core
Project overview
Project overview
Details
Activity
Releases
Repository
Repository
Files
Commits
Branches
Tags
Contributors
Graph
Compare
Labels
Merge Requests
0
Merge Requests
0
Analytics
Analytics
Repository
Value Stream
Members
Members
Collapse sidebar
Close sidebar
Activity
Graph
Commits
Open sidebar
Kirill Smelkov
wendelin.core
Commits
66e106ec
Commit
66e106ec
authored
Mar 05, 2020
by
Kirill Smelkov
Browse files
Options
Browse Files
Download
Email Patches
Plain Diff
.
parent
10a7981d
Changes
1
Show whitespace changes
Inline
Side-by-side
Showing
1 changed file
with
42 additions
and
16 deletions
+42
-16
wcfs/client/wcfs.cpp
wcfs/client/wcfs.cpp
+42
-16
No files found.
wcfs/client/wcfs.cpp
View file @
66e106ec
...
@@ -116,15 +116,29 @@
...
@@ -116,15 +116,29 @@
// Wcfs client locking organization
// Wcfs client locking organization
//
//
// XXX locking -> explain atMu + slaves and refer to "Locking" in wcfs.go
// Wcfs client needs to synchronize regular user threads vs each other and vs
// pinner. A major lock Conn.atMu protects updates to changes to Conn's view of
// the database. Whenever atMu.W is taken - Conn.at is changing (Conn.resync),
// and contrary whenever atMu.R is taken - Conn.at is stable (roughly speaking
// Conn.resync is not running).
//
//
// Conn.atMu > Conn.filehMu > FileH.mmapMu
// Similarly to wcfs.go(*) several locks that protect internal data structures
// are minor to Conn.atMu - they need to be taken only under atMu.R (to
// synchronize e.g. multiple fileh open running simultaneously), but do not
// need to be taken at all if atMu.W is taken. In data structures such locks
// are noted as follows
//
// sync::Mutex xMu; // atMu.W | atMu.R + xMu
//
// After atMu, Conn.filehMu protects registry of opened file handles
// (Conn._filehTab), and FileH.mmapMu protects registry of created Mappings
// (FileH.mmaps) and FileH.pinned.
//
//
// Several locks are RWMutex instead of just Mutex not only to allow more
// Several locks are RWMutex instead of just Mutex not only to allow more
// concurrency, but, in the first place for correctness: pinner thread being
// concurrency, but, in the first place for correctness: pinner thread being
// core element in handling WCFS isolation protocol, is effectively invoked
// core element in handling WCFS isolation protocol, is effectively invoked
// synchronously from other threads via messages coming through wcfs server.
// synchronously from other threads via messages coming through wcfs server.
// For example Conn.resync sends watch request to wcfs and waits for the
// For example Conn.resync sends watch request to wcfs
server
and waits for the
// answer. Wcfs server, in turn, might send corresponding pin messages to the
// answer. Wcfs server, in turn, might send corresponding pin messages to the
// pinner and _wait_ for the answer before answering to resync:
// pinner and _wait_ for the answer before answering to resync:
//
//
...
@@ -138,24 +152,36 @@
...
@@ -138,24 +152,36 @@
// client process
// client process
//
//
// This creates the necessity to use RWMutex for locks that pinner and other
// This creates the necessity to use RWMutex for locks that pinner and other
// parts of the code could be using at the same time in synchronous scenario
u
s
// parts of the code could be using at the same time in synchronous scenarios
// similar to the above. This locks are:
// similar to the above. This locks are:
//
//
// - Conn.atMu
// - Conn.atMu
// - Conn.filehMu
// - Conn.filehMu
//
//
// XXX pinner takes the following locks (XXX recheck)
// Note that FileH.mmapMu is regular - not RW - mutex, since nothing in wcfs
// client calls into wcfs server via watchlink with mmapMu held.
//
//
// - wconn.filehMu.W
// To synchronize with virtmem layer, wcfs client takes and releases big
// - wconn.filehMu.R
// virtmem lock around places that touch virtmem (calls to virt_lock and
// virt_unlock). Also virtmem calls several wcfs client entrypoints with
// virtmem lock already taken. Thus, to avoid AB-BA style deadlocks, wcfs
// client needs to take virtmem lock as the first lock, whenever it needs to
// take both virtmem lock, and another lock - e.g. atMu(%).
//
// The ordering of locks is:
//
// virt_lock > Conn.atMu > Conn.filehMu > FileH.mmapMu
//
// The pinner takes the following locks:
//
//
// - virt_lock
// - virt_lock
// - wconn.atMu.R
// - wconn.atMu.R
// - wconn.filehMu.R
// - wconn.filehMu.R
// - fileh.mmapMu (
R:.mmaps W:
.pinned)
// - fileh.mmapMu (
to read .mmaps + write
.pinned)
//
//
//
//
// XXX note on virt_lock in pinner and deadlocks.
// (*) see "Wcfs locking organization" in wcfs.go
// (%) see related comment in Conn.__pin1 for details.
#include "wcfs_misc.h"
#include "wcfs_misc.h"
...
@@ -209,7 +235,7 @@ static error mmap_into_ro(void *addr, size_t size, os::File f, off_t offset);
...
@@ -209,7 +235,7 @@ static error mmap_into_ro(void *addr, size_t size, os::File f, off_t offset);
//
//
// _headWait is currently needed, because client stats wcfs/head/f to get f
// _headWait is currently needed, because client stats wcfs/head/f to get f
// size assuming that f size only ↑. The assumption is not generally valid
// size assuming that f size only ↑. The assumption is not generally valid
// (e.g. f might be truncated = hole puched for block at tail), but holds true
// (e.g. f might be truncated = hole pu
n
ched for block at tail), but holds true
// for now. However to get correct results wcfs/head/f has to be statt'ed
// for now. However to get correct results wcfs/head/f has to be statt'ed
// _after_ wcfs view of the database becomes ≥ wconn.at.
// _after_ wcfs view of the database becomes ≥ wconn.at.
//
//
...
@@ -218,7 +244,7 @@ static error mmap_into_ro(void *addr, size_t size, os::File f, off_t offset);
...
@@ -218,7 +244,7 @@ static error mmap_into_ro(void *addr, size_t size, os::File f, off_t offset);
// file size @at will be returned by wcfs itself, which will also work if
// file size @at will be returned by wcfs itself, which will also work if
// wcfs/head/f size is changed arbitrarily.
// wcfs/head/f size is changed arbitrarily.
//
//
// (*) equival
i
ent might be to send something like "pin #<bsize>.. Z" (pin
// (*) equivalent might be to send something like "pin #<bsize>.. Z" (pin
// blocks bsize till ∞ to zeros).
// blocks bsize till ∞ to zeros).
error
WCFS
::
_headWait
(
zodb
::
Tid
at
)
{
error
WCFS
::
_headWait
(
zodb
::
Tid
at
)
{
WCFS
*
wc
=
this
;
WCFS
*
wc
=
this
;
...
@@ -578,7 +604,7 @@ error _Conn::__pin1(PinReq *req) {
...
@@ -578,7 +604,7 @@ error _Conn::__pin1(PinReq *req) {
// resync resyncs connection and its file mappings onto different database view.
// resync resyncs connection and its file mappings onto different database view.
//
//
// bigfile/_file_zob.pyx arranges to call Conn.resync at transaction boundaries
// bigfile/_file_zo
d
b.pyx arranges to call Conn.resync at transaction boundaries
// to keep Conn view in sync with updated zconn database view.
// to keep Conn view in sync with updated zconn database view.
error
_Conn
::
resync
(
zodb
::
Tid
at
)
{
error
_Conn
::
resync
(
zodb
::
Tid
at
)
{
_Conn
&
wconn
=
*
this
;
_Conn
&
wconn
=
*
this
;
...
@@ -821,8 +847,8 @@ retry:
...
@@ -821,8 +847,8 @@ retry:
f
->
_openReady
.
close
();
f
->
_openReady
.
close
();
});
});
// do the actual
l
open.
// do the actual open.
// we hold only wconn.atMu.R, but n
ie
ther wconn.filehMu, nor f.mmapMu .
// we hold only wconn.atMu.R, but n
ei
ther wconn.filehMu, nor f.mmapMu .
f
->
_openErr
=
f
->
_open
();
f
->
_openErr
=
f
->
_open
();
if
(
f
->
_openErr
!=
nil
)
if
(
f
->
_openErr
!=
nil
)
return
make_pair
(
nil
,
E
(
f
->
_openErr
));
return
make_pair
(
nil
,
E
(
f
->
_openErr
));
...
@@ -1089,7 +1115,7 @@ pair<Mapping, error> _FileH::mmap(int64_t blk_start, int64_t blk_len, VMA *vma)
...
@@ -1089,7 +1115,7 @@ pair<Mapping, error> _FileH::mmap(int64_t blk_start, int64_t blk_len, VMA *vma)
return
make_pair
(
mmap
,
nil
);
return
make_pair
(
mmap
,
nil
);
}
}
// __remmapEfault remmaps Mapping memory to cause SIGSEGV on access.
// __remmap
As
Efault remmaps Mapping memory to cause SIGSEGV on access.
//
//
// It is used on FileH shutdown to turn all fileh mappings into incorrect ones,
// It is used on FileH shutdown to turn all fileh mappings into incorrect ones,
// because after fileh is down, it is not possible to continue to provide
// because after fileh is down, it is not possible to continue to provide
...
@@ -1193,7 +1219,7 @@ error _Mapping::_remmapblk(int64_t blk, zodb::Tid at) {
...
@@ -1193,7 +1219,7 @@ error _Mapping::_remmapblk(int64_t blk, zodb::Tid at) {
ASSERT
(
mmap
->
blk_start
<=
blk
&&
blk
<
mmap
->
blk_stop
());
ASSERT
(
mmap
->
blk_start
<=
blk
&&
blk
<
mmap
->
blk_stop
());
// a mmapping is efaulted only for closed files, i.e. fileh is removed from wconn._filehTab
// a mmapping is efaulted only for closed files, i.e. fileh is removed from wconn._filehTab
// -> pinner should not see the fileh and so sh
uo
ld not see this mapping.
// -> pinner should not see the fileh and so sh
ou
ld not see this mapping.
ASSERT
(
!
mmap
->
efaulted
);
ASSERT
(
!
mmap
->
efaulted
);
uint8_t
*
blkmem
=
mmap
->
mem_start
+
(
blk
-
mmap
->
blk_start
)
*
f
->
blksize
;
uint8_t
*
blkmem
=
mmap
->
mem_start
+
(
blk
-
mmap
->
blk_start
)
*
f
->
blksize
;
...
...
Write
Preview
Markdown
is supported
0%
Try again
or
attach a new file
Attach a file
Cancel
You are about to add
0
people
to the discussion. Proceed with caution.
Finish editing this message first!
Cancel
Please
register
or
sign in
to comment