LogMapImpl.mesa
Copyright © 1985 by Xerox Corporation. All rights reserved.
Last edited by
Taft on November 19, 1982 5:59 pm
Kolling on January 30, 1984 3:13 pm
MBrown on January 30, 1984 9:20:26 pm PST
Hauser, March 27, 1985 10:49:29 am PST
Carl Hauser, January 5, 1987 1:34:30 pm PST
DIRECTORY
AlpineEnvironment
USING[FileVersion, PageCount, PageNumber, PageRun],
AlpineInternal
USING[FileHandle, LeaderPageHandle, LogRecordID, TransHandle],
Basics
USING[CompareInt],
FileMap
USING[ClearLogMapHandle, Handle, VerifyLogMapHandle],
LogMap
USING[CheckOutOption, CallingErrorType, FileDescription, Location, MappedPageRun],
LogMapPrivate
USING[IntentionObject, Intention],
RedBlackTree
USING[Compare, Create, Delete, GetKey, Insert, Lookup, LookupLargest, LookupNextLarger,
LookupNextSmaller, LookupSmallest, Node, Table],
SafeStorage
USING[GetSystemZone],
TransactionMap
USING[IsCommitted];
LogMapImpl:
CEDAR
MONITOR
LOCKS logMapHandle
USING logMapHandle: Handle
IMPORTS Basics, FileMap, RedBlackTree, SafeStorage, TM: TransactionMap
EXPORTS AlpineInternal, LogMap =
BEGIN OPEN AE: AlpineEnvironment, AI: AlpineInternal, LM: LogMap, LMP: LogMapPrivate;
Handle: TYPE = REF LogMapObject;
LogMapObject:
PUBLIC
TYPE =
MONITORED
RECORD[
createTrans: AI.TransHandle,
deleteTrans: AI.TransHandle,
versionUncommitted: AE.FileVersion,
versionUncommittedTrans: AI.TransHandle,
versionCommitted: AE.FileVersion,
sizeUncommitted: AE.PageCount,
sizeUncommittedTrans: AI.TransHandle,
sizeCommitted: AE.PageCount,
highWaterMarkCommitted: AE.PageCount,
leaderPage: AI.LeaderPageHandle,
leaderPageTrans: AI.TransHandle,
intentionsTable: RedBlackTree.Table,
leaderPageIntention: LeaderPageIntention,
rbKeyRef should be initialized at creation to refer to an AlpineEnvironment.PageNumber object. It is used thereafter for the key parameter to RedBlackTree routines, called from FilePageMgrMainImpl. This avoids allocating an object to get a reference each time such a call is made.
rbKeyRef: REF AE.PageNumber
];
LeaderPageIntention: TYPE = RECORD[trans: AI.TransHandle, logRecordID: AI.LogRecordID];
Error: PUBLIC --CALLING-- ERROR [error: LM.CallingErrorType] = CODE;
fatal errors:
ProbableLockingFailure: --CALLING-- ERROR = CODE;
Horrible: --CALLING-- ERROR = CODE;
DescribeFile:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle]
RETURNS
[fileDesc: LM.FileDescription] =
BEGIN
-- non-fatal errors: none.
MonitoredDescribeFile:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
fileDesc.registered ← TRUE;
fileDesc.created ← trans = logMapHandle.createTrans;
fileDesc.deleted ← trans = logMapHandle.deleteTrans;
TRUSTED
BEGIN fileDesc.exists ← (
((fileDesc.created)
OR (logMapHandle.createTrans =
NIL)
OR
(TM.IsCommitted[logMapHandle.createTrans]))
AND
NOT ((fileDesc.deleted)
OR ((logMapHandle.deleteTrans #
NIL)
AND
(TM.IsCommitted[logMapHandle.deleteTrans])))); END;
fileDesc.sizeChanged ← trans = logMapHandle.sizeUncommittedTrans;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle #
NIL
THEN MonitoredDescribeFile[logMapHandle]
ELSE fileDesc.registered ← FALSE;
A fatal error is raised if the LogMapObject createTrans field is not NIL.
RegisterCreate:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle] =
BEGIN
-- non-fatal errors: none.
MonitoredRegisterCreate:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF logMapHandle.createTrans # NIL THEN RETURN WITH ERROR ProbableLockingFailure;
logMapHandle.createTrans ← trans;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredRegisterCreate[logMapHandle];
END;
A fatal error is raised if the LogMapObject deleteTrans field is not NIL.
RegisterDelete:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle] =
BEGIN
-- non-fatal errors: none.
MonitoredRegisterDelete:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF logMapHandle.deleteTrans # NIL THEN RETURN WITH ERROR ProbableLockingFailure;
logMapHandle.deleteTrans ← trans;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredRegisterDelete[logMapHandle];
END;
Remembers the uncommitted version number of the file and which trans is setting it. If trans # NIL and the previous trans that set the uncommitted version number # NIL and these transactions do not match, a fatal error is raised.
SetUncommittedVersion:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle,
version: AE.FileVersion] =
BEGIN
-- non-fatal errors: none.
MonitoredSetUncommittedVersion:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF ((logMapHandle.versionUncommittedTrans =
NIL)
OR
(trans = NIL) OR
(trans = logMapHandle.versionUncommittedTrans))
THEN
BEGIN logMapHandle.versionUncommittedTrans ← trans;
logMapHandle.versionUncommitted ← version;
END
ELSE RETURN WITH ERROR ProbableLockingFailure;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredSetUncommittedVersion[logMapHandle];
Returns the uncommitted version number (zero if it has never been set). If the previous trans that set the uncommitted version number # NIL and if trans does not match the previous trans, then if the previous trans is committed a fatal error is raised else zero is returned.
GetUncommittedVersion:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle]
RETURNS[version: AE.FileVersion] =
BEGIN
-- non-fatal errors: none.
MonitoredGetUncommittedVersion:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF ((trans # logMapHandle.versionUncommittedTrans)
AND
(logMapHandle.versionUncommittedTrans #
NIL))
THEN
TRUSTED
BEGIN
IF
TM.IsCommitted[logMapHandle.versionUncommittedTrans]
THEN RETURN WITH ERROR ProbableLockingFailure
ELSE version ← 0;
END
ELSE version ← logMapHandle.versionUncommitted;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[0];
MonitoredGetUncommittedVersion[logMapHandle];
Remembers the committed version number of the file.
SetCommittedVersion:
PUBLIC
PROCEDURE[file:
AI.FileHandle, version:
AE.FileVersion] =
BEGIN
-- non-fatal errors: none.
MonitoredSetCommittedVersion:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
logMapHandle.versionCommitted ← version;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredSetCommittedVersion[logMapHandle];
END;
Returns the committed version number of the file (zero if it has never been set).
GetCommittedVersion:
PUBLIC
PROCEDURE[file:
AI.FileHandle]
RETURNS[version:
AE.FileVersion] =
BEGIN
-- non-fatal errors: none.
MonitoredGetCommittedVersion:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
version ← logMapHandle.versionCommitted;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[0];
MonitoredGetCommittedVersion[logMapHandle];
Remembers the uncommitted size of the file and which trans is setting it. If trans # NIL and the previous trans that set the uncommitted size # NIL and these transactions do not match, a fatal error is raised.
SetUncommittedSize:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle, size:
AE.PageCount] =
BEGIN
-- non-fatal errors: none.
MonitoredSetUncommittedSize:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF ((logMapHandle.sizeUncommittedTrans =
NIL)
OR
(trans = NIL) OR
(trans = logMapHandle.sizeUncommittedTrans))
THEN
BEGIN logMapHandle.sizeUncommittedTrans ← trans;
logMapHandle.sizeUncommitted ← size;
END
ELSE RETURN WITH ERROR ProbableLockingFailure;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredSetUncommittedSize[logMapHandle];
Returns the uncommitted size (LAST[PageCount] if it has never been set). If the previous trans that set the uncommitted size # NIL and if trans does not match the previous trans, then if the previous trans is committed a fatal error is raised else LAST[PageCount] is returned.
GetUncommittedSize:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle]
RETURNS[size: AE.PageCount] =
BEGIN
-- non-fatal errors: none.
MonitoredGetUncommittedSize:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF ((trans # logMapHandle.sizeUncommittedTrans)
AND
(logMapHandle.sizeUncommittedTrans #
NIL))
THEN
TRUSTED
BEGIN
IF
TM.IsCommitted[logMapHandle.sizeUncommittedTrans]
THEN RETURN WITH ERROR ProbableLockingFailure
ELSE size ← LAST[AE.PageCount];
END
ELSE size ← logMapHandle.sizeUncommitted;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[LAST[AE.PageCount]];
MonitoredGetUncommittedSize[logMapHandle];
Remembers the committed size of the file.
SetCommittedSize:
PUBLIC
PROCEDURE[file:
AI.FileHandle, size:
AE.PageCount] =
BEGIN
-- non-fatal errors: none.
MonitoredSetCommittedSize:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
logMapHandle.sizeCommitted ← size;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredSetCommittedSize[logMapHandle];
END;
Returns the committed size of the file (LAST[PageCount] if it has never been set).
GetCommittedSize:
PUBLIC
PROCEDURE[file:
AI.FileHandle]
RETURNS[size:
AE.PageCount] =
BEGIN
-- non-fatal errors: none.
MonitoredGetCommittedSize:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
size ← logMapHandle.sizeCommitted;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[LAST[AE.PageCount]];
MonitoredGetCommittedSize[logMapHandle];
END;
Remembers the committed high water mark for the file.
SetCommittedHighWaterMark:
PUBLIC
PROCEDURE[file:
AI.FileHandle, highWaterMark:
AE.PageCount] =
BEGIN
-- non-fatal errors: none.
MonitoredSetCommittedHighWaterMark:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
logMapHandle.highWaterMarkCommitted ← highWaterMark;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredSetCommittedHighWaterMark[logMapHandle];
Returns the committed high water mark for the file (LAST[PageCount] if it has never been set).
GetCommittedHighWaterMark:
PUBLIC
PROCEDURE[file:
AI.FileHandle]
RETURNS
[highWaterMark: AE.PageCount] =
BEGIN
-- non-fatal errors: none.
MonitoredGetCommittedHighWaterMark:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
highWaterMark ← logMapHandle.highWaterMarkCommitted;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[LAST[AE.PageCount]];
MonitoredGetCommittedHighWaterMark[logMapHandle];
Remembers the new LeaderPageHandle for the file and which trans is setting it. If either the previous transaction that set it or current trans = NIL, this is okay; otherwise a fatal error is raised. Two (or more) processes that concurrently replace the saved LeaderPageHandle will interfere with one another, yet cannot be warned of this interference, so updates may be lost.
SetLeaderPageHandle:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle,
leaderPage: AI.LeaderPageHandle] =
BEGIN
-- non-fatal errors: Error[alreadySet].
MonitoredSetLeaderPageHandle:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: Error[alreadySet].
IF ((logMapHandle.leaderPageTrans =
NIL)
OR
(trans =
NIL)
OR (logMapHandle.leaderPageTrans = trans))
THEN
BEGIN logMapHandle.leaderPageTrans ← trans;
logMapHandle.leaderPage ← leaderPage;
RETURN;
END
ELSE
BEGIN
RETURN WITH ERROR ProbableLockingFailure
END;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredSetLeaderPageHandle[logMapHandle];
Gets the LeaderPageHandle for the file, if it was set by the same transaction. Otherwise, returns NIL.
GetLeaderPageHandle:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle]
RETURNS[leaderPage: AI.LeaderPageHandle] =
BEGIN
-- non-fatal errors: none.
MonitoredGetLeaderPageHandle:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
leaderPage ← (
IF trans = logMapHandle.leaderPageTrans
THEN logMapHandle.leaderPage ELSE NIL);
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[NIL];
MonitoredGetLeaderPageHandle[logMapHandle];
For file pages, the LogMap remembers only the LogRecordID for the data written, rather than the actual data; it is the client's responsibility to subsequently read the log, if necessary.
Registers a logged write of the pages identified by <file, pageRun> for transaction trans, identified in the log by logRecordID. The log record contains exactly this pageRun. If writes are already registered for any of those pages by the same transaction, the old writes are forgotten. If writes are already registered for a different transaction, a fatal error is raised.
RegisterPages:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle, pageRun:
AE.PageRun, logRecordID: AI.LogRecordID] =
BEGIN
-- non-fatal errors: none.
MonitoredRegisterPages:
ENTRY
PROCEDURE[logMapHandle: Handle] =
BEGIN
-- non-fatal errors: none.
currentFirstPage: AE.PageNumber ← pageRun.firstPage;
currentCount: INT ← pageRun.count;
int:
LMP.Intention ←
RBTLookupNextSmaller[logMapHandle,
currentFirstPage];
IF ((int #
NIL)
AND
(int.pageRun.firstPage + int.pageRun.count > currentFirstPage))
THEN
-- fission off the higher part.
BEGIN
higherPartInt:
LMP.Intention ← IntentionZone.
NEW[
LMP.IntentionObject ←
[int.trans, [currentFirstPage, int.pageRun.count - (currentFirstPage -
int.pageRun.firstPage)], int.logRecordID, FALSE, , , ]];
RBTInsert[logMapHandle, higherPartInt,
higherPartInt.pageRun.firstPage];
int.pageRun.count ← int.pageRun.count - higherPartInt.pageRun.count;
int ← higherPartInt;
END
ELSE int ← RBTLookup[logMapHandle, currentFirstPage];
DO
-- on entry int starts at currentFirstPage or is NIL if nothing starts there.
IF int =
NIL
THEN
BEGIN
overlap: BOOLEAN;
newInt: LMP.Intention;
int ← RBTLookupNextLarger[logMapHandle, currentFirstPage];
overlap ← ((int #
NIL)
AND (int.pageRun.firstPage < currentFirstPage +
currentCount));
newInt ← IntentionZone.
NEW[
LMP.IntentionObject ← [trans, [currentFirstPage,
(IF overlap THEN int.pageRun.firstPage - currentFirstPage ELSE
currentCount)], logRecordID, FALSE, , , ]]; -- newInt starts at currentFirstPage.
RBTInsert[logMapHandle, newInt, newInt.pageRun.firstPage];
IF NOT overlap THEN EXIT;
currentCount ← currentCount - newInt.pageRun.count;
currentFirstPage ← int.pageRun.firstPage;
END;
here int starts at (possibly changed) currentFirstPage.
IF ((int.trans # trans)
OR (int.checkedOut))
THEN RETURN WITH ERROR ProbableLockingFailure;
IF int.pageRun.count > currentCount
THEN
BEGIN
-- fission off the higher part.
higherPartInt: LMP.Intention ← IntentionZone.NEW[LMP.IntentionObject ←
[trans, [currentFirstPage + currentCount, int.pageRun.count - currentCount],
int.logRecordID, FALSE, , , ]];
RBTInsert[logMapHandle, higherPartInt,
higherPartInt.pageRun.firstPage];
int.pageRun.count ← currentCount;
END;
int.logRecordID ← logRecordID;
IF (currentCount ← currentCount - int.pageRun.count) = 0 THEN EXIT;
currentFirstPage ← currentFirstPage + int.pageRun.count;
int ← RBTLookup[logMapHandle, currentFirstPage];
ENDLOOP;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
TRUSTED BEGIN IF TM.IsCommitted[trans] THEN ERROR Horrible; END;
MonitoredRegisterPages[logMapHandle];
Forgets registered writes for the specified pageRun. If the <file, pageRun> does not exactly match a checked out entry in the LogMap, a fatal error is raised.
UnregisterPages:
PUBLIC
PROCEDURE[file:
AI.FileHandle, pageRun:
AE.PageRun] =
BEGIN
-- non-fatal errors: none.
MonitoredUnregisterPages:
ENTRY
PROCEDURE[logMapHandle: Handle] =
BEGIN
-- non-fatal errors: none.
intention: LMP.Intention ← RBTLookup[logMapHandle, pageRun.firstPage];
IF ((intention =
NIL)
OR (
NOT intention.checkedOut)
OR (intention.pageRun.count # pageRun.count))
THEN RETURN WITH ERROR Horrible;
[] ← RBTDelete[logMapHandle, pageRun.firstPage];
BROADCAST IntentionFreed;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN ERROR Horrible;
MonitoredUnregisterPages[logMapHandle];
END;
IntentionFreed: CONDITION;
A caller who checks out an entry is required to carry out the operation described by that entry and then Unregister the entry from the LogMap before proceeding further. Checking out an entry prevents other clients from checking out the same entry. If the entry is already checked out, the checkOut option waits until that entry has been unregistered (or, more likely, on something less specific) and then tries again.
Returns a MappedPageRun describing the initial interval of pageRun. If the LogMap knows the size of the file as seen by this transaction (precisely, if SetUncommittedSize has been done by this trans or, failing that, if SetCommittedSize has been done), exceedsFileSize is errored if any part of the pageRun is past the eof. No checking is done to see if the file exists. If the initial interval of pageRun is not represented in the LogMap or if it is represented but for an uncommitted different transaction, returns location = base. Otherwise, handles the CheckOutOption, and if it doesn't have to wait and retry, returns location = log and a MappedPageRun log field containing the data which describes the initial interval. The pageRun describes the initial interval available.
LocatePages:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle, pageRun:
AE.PageRun, checkOut: LM.CheckOutOption] RETURNS[mappedPageRun:
LM.MappedPageRun] =
BEGIN -- non-fatal errors: Error[exceedsFileSize].
MonitoredLocatePages:
ENTRY
PROCEDURE[logMapHandle: Handle]
RETURNS[mappedPageRun: LM.MappedPageRun] =
BEGIN
-- non-fatal errors: Error[exceedsFileSize].
int: LMP.Intention;
currentCount: INT;
DO
IF pageRun.firstPage + pageRun.count > (
IF logMapHandle.sizeUncommittedTrans = trans
THEN logMapHandle.sizeUncommitted
ELSE logMapHandle.sizeCommitted)
THEN RETURN WITH ERROR Error[exceedsFileSize];
int ← RBTLookup[logMapHandle, pageRun.firstPage];
IF (int #
NIL)
THEN currentCount ← MIN[pageRun.count, int.pageRun.count]
ELSE
BEGIN
int ← RBTLookupNextSmaller[logMapHandle, pageRun.firstPage];
IF ((int #
NIL)
AND (int.pageRun.firstPage + int.pageRun.count >
pageRun.firstPage))
THEN currentCount ←
MIN[int.pageRun.firstPage + int.pageRun.count,
pageRun.firstPage + pageRun.count] - pageRun.firstPage
ELSE
BEGIN
int ←
RBTLookupNextLarger[logMapHandle,
pageRun.firstPage];
IF int # NIL
THEN
BEGIN
currentCount ← IF int.pageRun.firstPage < pageRun.firstPage +
pageRun.count
THEN int.pageRun.firstPage - pageRun.firstPage
ELSE pageRun.count;
ELSE currentCount ← pageRun.count;
END;
END;
TRUSTED
BEGIN
IF ((int =
NIL)
OR
((int.trans # trans)
AND (
NOT
TM.IsCommitted[int.trans])))
THEN RETURN[[[pageRun.firstPage, currentCount], base[]]]; END;
IF int.trans = trans
THEN
RETURN[[[pageRun.firstPage, currentCount], log[int.logRecordID, int.pageRun,
FALSE]]];
IF checkOut = checkOut
THEN
BEGIN
IF int.checkedOut
THEN BEGIN WAIT IntentionFreed; LOOP; END
ELSE int.checkedOut ← TRUE;
END;
RETURN[[[pageRun.firstPage,
currentCount], log[int.logRecordID, int.pageRun, (checkOut = checkOut)]]];
ENDLOOP;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[[pageRun, base[]]];
RETURN[MonitoredLocatePages[logMapHandle]];
Looks for registered writes for this trans in file. If there is an unchecked out one, checks it out, and returns it. Otherwise, if the only ones it can find are ones which have already been checked out, it waits until they all go away. When unable to find any, returns found = FALSE.
LocateAnyPagesForTrans:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle]
RETURNS[found: BOOLEAN, logRecordID: AI.LogRecordID, logMapPageRun: AE.PageRun] =
BEGIN
-- non-fatal errors: none.
MonitoredLocateAnyPagesForTrans:
ENTRY
PROCEDURE[logMapHandle: Handle] =
BEGIN
-- non-fatal errors: none.
FOR intention:
LMP.Intention ←
RBTLookupSmallest[logMapHandle],
RBTLookupNextLarger[logMapHandle, intention.pageRun.firstPage]
UNTIL intention =
NIL
DO
IF ((intention.trans = trans)
AND (
NOT intention.checkedOut))
THEN
BEGIN
found ← TRUE;
intention.checkedOut ← TRUE;
logRecordID ← intention.logRecordID;
logMapPageRun ← intention.pageRun;
RETURN;
END;
ENDLOOP;
DO
FOR intention:
LMP.Intention ←
RBTLookupSmallest[logMapHandle],
RBTLookupNextLarger[logMapHandle, intention.pageRun.firstPage]
UNTIL intention =
NIL
DO
IF intention.trans = trans
THEN
BEGIN
IF (NOT intention.checkedOut) THEN RETURN WITH ERROR Horrible;
WAIT IntentionFreed;
EXIT;
END;
REPEAT FINISHED => GOTO allDone;
ENDLOOP;
REPEAT allDone => NULL;
ENDLOOP;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
found ← FALSE;
IF logMapHandle # NIL THEN MonitoredLocateAnyPagesForTrans[logMapHandle];
Registers a logged write of the leader page of file for transaction trans, identified in the log by logRecordID. If a write is already registered for this page by the same transaction, the old write is forgotten. If a write is already registered for a different transaction, a fatal error is raised.
RegisterLeaderPage:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle,
logRecordID: AI.LogRecordID] =
BEGIN
-- non-fatal errors: none.
MonitoredRegisterLeaderPage:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF ((logMapHandle.leaderPageIntention.trans =
NIL)
OR
(logMapHandle.leaderPageIntention.trans = trans))
THEN logMapHandle.leaderPageIntention ← [trans, logRecordID]
ELSE RETURN WITH ERROR ProbableLockingFailure;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, TRUE];
MonitoredRegisterLeaderPage[logMapHandle];
Forgets leader page write for the specified file. If the leader page is not in the LogMap, a fatal error is raised.
UnregisterLeaderPage:
PUBLIC
PROCEDURE[file:
AI.FileHandle] =
BEGIN
-- non-fatal errors: none.
MonitoredUnregisterLeaderPage:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
logMapHandle.leaderPageIntention ← [NIL, [0, 0]];
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN ERROR ProbableLockingFailure;
MonitoredUnregisterLeaderPage[logMapHandle];
END;
Returns location = base if the leader page of the file is not represented in the LogMap or if it is represented but for an uncommitted different transaction, without any other checking (e.g., to see whether the file exists at all). Finding it represented in the LogMap for a different committed transaction causes a fatal error to be raised. Otherwise, returns location = log and the LogRecordID of the logged leader page.
LocateLeaderPage:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle]
RETURNS[location: LM.Location, logRecordID: AI.LogRecordID] =
BEGIN
-- non-fatal errors: none.
MonitoredLocateLeaderPage:
ENTRY
PROCEDURE[logMapHandle: Handle] =
INLINE
BEGIN
-- non-fatal errors: none.
IF logMapHandle.leaderPageIntention.trans = trans
THEN
BEGIN location ← log;
logRecordID ← logMapHandle.leaderPageIntention.logRecordID;
END
ELSE
TRUSTED
BEGIN
IF ((logMapHandle.leaderPageIntention.trans =
NIL)
OR (
NOT
TM.IsCommitted[logMapHandle.leaderPageIntention.trans]))
THEN location ← base
ELSE RETURN WITH ERROR ProbableLockingFailure;
END;
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle = NIL THEN RETURN[base, [0, 0]];
MonitoredLocateLeaderPage[logMapHandle];
Removes from the LogMap all information that was set by transaction trans for this file. If fields that were associated with this trans will persist, they are set to their default initial values. If the intentionsTable becomes empty and no trans fields in the LogMapObject contain references to other transactions, the LogMapObject is thrown away.
UnregisterTrans:
PUBLIC
PROCEDURE[file:
AI.FileHandle, trans:
AI.TransHandle] =
BEGIN
-- non-fatal errors: none.
MonitoredUnregisterTrans:
ENTRY
PROCEDURE[logMapHandle: Handle] =
BEGIN
-- non-fatal errors: none.
ClearTransFromLogMapHandle:
INTERNAL PROCEDURE
RETURNS[Handle] =
BEGIN
-- non system fatal errors: none.
FOR intention:
LMP.Intention ←
RBTLookupSmallest[logMapHandle],
RBTLookupNextLarger[logMapHandle,
intention.pageRun.firstPage]
UNTIL intention =
NIL
DO
IF intention.trans = trans
THEN
BEGIN
IF intention.checkedOut THEN RETURN WITH ERROR Horrible;
[] ←
RBTDelete[logMapHandle,
intention.pageRun.firstPage];
END;
ENDLOOP;
IF logMapHandle.createTrans = trans THEN logMapHandle.createTrans ← NIL;
IF logMapHandle.deleteTrans = trans THEN logMapHandle.deleteTrans ← NIL;
IF logMapHandle.versionUncommittedTrans = trans
THEN
BEGIN logMapHandle.versionUncommittedTrans ←
NIL;
logMapHandle.versionUncommitted ← 0;
END;
IF logMapHandle.sizeUncommittedTrans = trans
THEN
BEGIN logMapHandle.sizeUncommittedTrans ←
NIL;
logMapHandle.sizeUncommitted ← LAST[AE.PageCount];
END;
IF logMapHandle.leaderPageTrans = trans
THEN
BEGIN logMapHandle.leaderPageTrans ←
NIL;
logMapHandle.leaderPage ← NIL;
END;
IF logMapHandle.leaderPageIntention.trans = trans
THEN logMapHandle.leaderPageIntention ← [NIL, [0, 0]];
IF ((
RBTLookupSmallest[logMapHandle] =
NIL)
AND
(logMapHandle.createTrans = NIL) AND
(logMapHandle.deleteTrans = NIL) AND
(logMapHandle.versionUncommittedTrans = NIL) AND
(logMapHandle.sizeUncommittedTrans = NIL) AND
(logMapHandle.leaderPageTrans = NIL) AND
(logMapHandle.leaderPageIntention.trans =
NIL))
THEN RETURN[NIL]
ELSE RETURN[logMapHandle];
END;
FileMap.ClearLogMapHandle[file, ClearTransFromLogMapHandle];
END;
logMapHandle: Handle ← GetOrReportOnLogMapHandle[file, FALSE];
IF logMapHandle # NIL THEN MonitoredUnregisterTrans[logMapHandle];
utility routines:
GetKeyProc: RedBlackTree.GetKey -- PROC [data: UserData] RETURNS [Key]
CompareProc: RedBlackTree.Compare -- PROC [k: Key, data: UserData] RETURNS [Basics.Comparison]
= {
dataIntention: LMP.Intention = NARROW[ data ];
WITH k
SELECT
FROM
pnRef: REF AE.PageNumber => RETURN[Basics.CompareInt[pnRef^, dataIntention.pageRun.firstPage]];
keyIntention: LMP.Intention => RETURN[Basics.CompareInt[keyIntention.pageRun.firstPage, dataIntention.pageRun.firstPage]];
ENDCASE => ERROR;
};
If create is FALSE and the logMapHandle doesn't exist, will return NIL.
GetOrReportOnLogMapHandle:
PROCEDURE[fileHandle: FileMap.Handle, create:
BOOLEAN]
RETURNS[logMapHandle: Handle] =
BEGIN
-- non system fatal errors: none.
CreateLogMapHandle:
PROCEDURE
RETURNS[logMapHandle: Handle] =
BEGIN
-- non system fatal errors: none.
logMapHandle ←
IF create
THEN LogMapObjectZone.
NEW[LogMapObject ← [
createTrans: NIL,
deleteTrans: NIL,
versionUncommitted: 0,
versionUncommittedTrans: NIL,
versionCommitted: 0,
sizeUncommitted: LAST[AE.PageCount],
sizeUncommittedTrans: NIL,
sizeCommitted: LAST[AE.PageCount],
highWaterMarkCommitted: LAST[AE.PageCount],
leaderPage: NIL,
leaderPageTrans: NIL,
intentionsTable: RedBlackTree.Create[getKey: GetKeyProc, compare: CompareProc],
leaderPageIntention: [trans: NIL, logRecordID: [0, 0]],
rbKeyRef: NEW[AE.PageNumber ← 0]]
]
ELSE NIL;
END;
logMapHandle ← FileMap.VerifyLogMapHandle[fileHandle, CreateLogMapHandle];
A thin interface over RedBlackTree handling the coercions.
RBTLookupProc: TYPE = PROCEDURE[ logMapHandle: Handle, key: AlpineEnvironment.PageNumber ] RETURNS [LMP.Intention];
RBTLookup: INTERNAL RBTLookupProc = {
logMapHandle.rbKeyRef^ ← key;
RETURN[ NARROW[RedBlackTree.Lookup[ logMapHandle.intentionsTable, logMapHandle.rbKeyRef]] ];
};
RBTLookupNextLarger: INTERNAL RBTLookupProc = {
logMapHandle.rbKeyRef^ ← key;
RETURN[ NARROW[RedBlackTree.LookupNextLarger[ logMapHandle.intentionsTable, logMapHandle.rbKeyRef]] ];
};
RBTLookupNextSmaller: INTERNAL RBTLookupProc = {
logMapHandle.rbKeyRef^ ← key;
RETURN[ NARROW[RedBlackTree.LookupNextSmaller[ logMapHandle.intentionsTable, logMapHandle.rbKeyRef]] ];
};
RBTLookupLargest: INTERNAL PROCEDURE[ logMapHandle: Handle ] RETURNS [LMP.Intention] = {
RETURN[ NARROW[RedBlackTree.LookupLargest[ logMapHandle.intentionsTable]] ];
};
RBTLookupSmallest: INTERNAL PROCEDURE[ logMapHandle: Handle ] RETURNS [LMP.Intention] = {
RETURN[ NARROW[RedBlackTree.LookupSmallest[ logMapHandle.intentionsTable ]] ];
};
RBTDelete: INTERNAL PROCEDURE[ logMapHandle: Handle, key: AlpineEnvironment.PageNumber ] RETURNS [LMP.Intention] = {
n: RedBlackTree.Node;
logMapHandle.rbKeyRef^ ← key;
n ← RedBlackTree.Delete[ logMapHandle.intentionsTable, logMapHandle.rbKeyRef];
RETURN[ IF n=NIL THEN NIL ELSE NARROW[n.data] ];
};
RBTInsert: INTERNAL PROCEDURE[ logMapHandle: Handle, refChunk: LMP.Intention, key: AlpineEnvironment.PageNumber ] = {
logMapHandle.rbKeyRef^ ← key;
RedBlackTree.Insert[ logMapHandle.intentionsTable, refChunk, logMapHandle.rbKeyRef ];
};
main line code:
LogMapObjectZone: ZONE ← SafeStorage.GetSystemZone[];
IntentionZone: ZONE ← SafeStorage.GetSystemZone[];
END.
Hauser: March 1, 1985: Nodified. Removed check for AlreadySet leader page handle.
Hauser, March 8, 1985 10:54:42 am PST
Added copyright