source-engine/gcsdk/sharedobjecttransaction.cpp

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2020-04-22 16:56:21 +00:00
//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose:
//
//=============================================================================
#include "stdafx.h"
#include "sharedobjecttransaction.h"
#include "sqlaccess/sqlaccess.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
namespace GCSDK
{
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
class CTrustedHelper_OutputAndSetErrorState
{
public:
CTrustedHelper_OutputAndSetErrorState( CSharedObjectTransactionEx& SharedObjectTransaction, const char *pszFunctionContext, const CSteamID& CacheOwnerSteamID, const CSharedObject *pObject )
: m_SharedObjectTransaction( SharedObjectTransaction )
, m_pszFunctionContext( pszFunctionContext )
, m_CacheOwnerSteamID( CacheOwnerSteamID )
, m_pObject( pObject )
{
}
void operator()( const bool bExpResult, const char *pszExp ) const
{
if ( !bExpResult )
{
AssertMsg4( bExpResult, "Failed verification: %s (context '%s'; owner '%s'; object '%s')", pszExp, m_pszFunctionContext, m_CacheOwnerSteamID.Render(), m_pObject ? m_pObject->GetDebugString().String() : "[none]" );
m_SharedObjectTransaction.SetErrorState();
}
}
private:
CSharedObjectTransactionEx& m_SharedObjectTransaction;
const char *m_pszFunctionContext;
const CSteamID& m_CacheOwnerSteamID;
const CSharedObject *m_pObject;
};
#define CSOTVerifyBase( exp_, obj_ ) \
CVerifyIfTrustedHelper( CTrustedHelper_OutputAndSetErrorState( *this, __FUNCTION__, m_pLockedSOCache->GetOwner(), obj_ ), (exp_), #exp_ ).GetResult()
#define CSOTVerify( exp_ ) \
CSOTVerifyBase( exp_, NULL )
#define CSOTVerifyObj( exp_ ) \
CSOTVerifyBase( exp_, pObject )
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
CSharedObjectTransactionEx::CSharedObjectTransactionEx( CGCSharedObjectCache *pLockedSOCache, const char *pszTransactionName )
: m_pLockedSOCache( pLockedSOCache )
, m_pSQLAccess( &m_sqlAccessInternal )
{
Assert( pszTransactionName );
Assert( pszTransactionName[0] );
Assert( m_pLockedSOCache );
// We have to start a SQL transaction no matter what. If we don't do this, then
// any code internally or externally that tries to add operations to the open transaction
// will instead run immediately. We Verify() here because we know the only thing that
// can fail beginning a new transaction is to already be in a transaction, and that
// can't be the case because we just made this object.
m_bTransactionBuildSuccess = m_pSQLAccess->BBeginTransaction( pszTransactionName );
Verify( m_bTransactionBuildSuccess );
// Grab another lock on our user that owns the cache we got passed in. This means that,
// barring any maliscious or really terrible code happening on the outside, even if our
// calling code unlocks *their* lock, we'll still have ours and can access the cache safely.
Verify( GGCBase()->BLockSteamIDImmediate( m_pLockedSOCache->GetOwner() ) );
// Because we just constructed a fresh object, we want to guarantee that our internal state
// is consistent. This way, either we're guaranteed to fail construction or we know moving
// forward that we started in a good place so anything that's wrong since then is some kind
// of real programmer error.
Verify( BIsValidInternalState() );
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
CSharedObjectTransactionEx::~CSharedObjectTransactionEx()
{
// If we fall off the stack and we haven't been submitted, manually rollback whatever work
// we queued up in SQL and free up our local storage. This isn't an error.
if ( m_pSQLAccess->BInTransaction() )
{
Rollback();
}
// We're finally done manipulating this user's cache. If we're practicing best
// practices for locking, this will still leave us locked in our outer scope. If we're
// not, at least we'll be safe.
GGCBase()->UnlockSteamID( m_pLockedSOCache->GetOwner() );
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CSharedObjectTransactionEx::BIsValidInternalState()
{
// Sanity check basic internal data.
Assert( m_pSQLAccess );
// If we've done something bad with our transaction (ie., committed from outside, or
// tried to submit through this object) and we're still doing work, that's a case we
// can't handle.
if ( !CSOTVerify( m_pSQLAccess->BInTransaction() ) )
return false;
// Verify we have a cache and it's a cache we understand how to manipulate.
if ( !CSOTVerify( m_pLockedSOCache ) || !CSOTVerify( m_pLockedSOCache->GetOwner().IsValid() ) || !CSOTVerify( m_pLockedSOCache->GetOwner().BIndividualAccount() ) )
return false;
// Transactions can yield when trying to commit, so we need to be running a job. We also want
// to be paranoid and make sure that the lock is actively held by our current job.
AssertRunningJob();
if ( !CSOTVerify( GGCBase()->IsSteamIDLockedByJob( m_pLockedSOCache->GetOwner(), &GJobCur() ) ) )
return false;
// Internal state is such that we can at least try to perform operations, at least.
return true;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CSharedObjectTransactionEx::BIsValidInput( const CSharedObject *pObject )
{
if ( !BIsValidInternalState() )
return false;
if ( !CSOTVerifyObj( pObject ) )
return false;
// Make sure we have a valid type ID for this object. There aren't any objects that return negative
// IDs, but if we pass in a deleted or bogus pointer, we'll probably crash here when we hit the vtable.
if ( !CSOTVerifyObj( pObject->GetTypeID() > 0 ) )
return false;
return true;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CSharedObjectTransactionEx::BTrackModifiedObjectInternal( CSharedObject *pObject, CSharedObject **out_ppWritableObject )
{
if ( !BIsValidInput( pObject ) )
return false;
if ( !CSOTVerifyObj( out_ppWritableObject ) )
return false;
// If an object is in the added list, we're going to do a full write so modifying it at this point adds nothing
// new. We'll return the current only version of it as our writable object.
{
const CreateOrDestroyCommitInfo_t *pInfo = InternalFindCommitInfo( pObject, m_vecObjects_Added );
if ( pInfo )
{
*out_ppWritableObject = pInfo->m_pObject;
return true;
}
}
// If an object is in the modified list, we've already made a copy that we can make modifications to, so we'll
// return that copy.
{
const ModifyCommitInfo_t *pInfo = InternalFindCommitInfo( pObject, m_vecObjects_Modified );
if ( pInfo )
{
*out_ppWritableObject = pInfo->m_pWriteableObject;
return true;
}
}
// We aren't already tracking this object. We're acting as if we've never seen it before, so first make sure that
// we're in the cache we think we're in.
if ( !CSOTVerify( m_pLockedSOCache->FindSharedObject( *pObject ) ) )
return false;
// Make a copy of our current state that we can make modifications to and track the association.
*out_ppWritableObject = CSharedObject::Create( pObject->GetTypeID() );
(*out_ppWritableObject)->Copy( *pObject );
m_vecObjects_Modified.AddToTail( ModifyCommitInfo_t( *out_ppWritableObject, pObject ) );
return true;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CSharedObjectTransactionEx::BAddNewObjectInternal( CSharedObject *pObject )
{
// Make sure we pass basic sanity check measures for our inputs (ie., we have inputs, we have appropriate
// locks to manipulate those inputs, etc.).
if ( !BIsValidInput( pObject ) )
return false;
// Make sure this object isn't already in this cache. This can cause problems during rollback if we didn't
// really add it as part of the transaction and remove it when a transaction fails.
if ( !CSOTVerifyObj( m_pLockedSOCache->FindSharedObject( *pObject ) == NULL ) )
return false;
// Make sure this object isn't already in the list of objects we're adding as part of this transaction.
// Having the object in the list multiple times is potentially harmless, but it probably indicates some
// calling code is doing something we don't expect.
if ( !CSOTVerifyObj( InternalFindCommitInfo( pObject, m_vecObjects_Added ) == NULL ) )
return false;
// Success.
m_vecObjects_Added.AddToTail( CreateOrDestroyCommitInfo_t( pObject ) );
return true;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CSharedObjectTransactionEx::BRemoveObjectInternal( CSharedObject *pObject )
{
// Make sure we pass basic sanity check measures for our inputs (ie., we have inputs, we have appropriate
// locks to manipulate those inputs, etc.).
if ( !BIsValidInput( pObject ) )
return false;
// Make sure the object we're removing is in the cache we're trying to remove it from.
if ( !CSOTVerifyObj( m_pLockedSOCache->FindSharedObject( *pObject ) ) )
return false;
// Look through our lists of objects that we're adding and objects that we're modifying. If we're
// removing an object that we're adding in the same transaction through the same pointer, this will
// result in a broken SO cache. Removing a modified object may or may not be safe but it's probably
// indicative of a higher-level logic bug regardless.
if ( !CSOTVerifyObj( InternalFindCommitInfo( pObject, m_vecObjects_Added ) == NULL ) )
return false;
if ( !CSOTVerifyObj( InternalFindCommitInfo( pObject, m_vecObjects_Modified ) == NULL ) )
return false;
// Success.
m_vecObjects_Removed.AddToTail( CreateOrDestroyCommitInfo_t( pObject ) );
return true;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
const CSharedObject *CSharedObjectTransactionEx::InternalFindSharedObject( CGCSharedObjectCache *pSOCache, const CSharedObject& soIndex ) const
{
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
auto& info = m_vecObjects_Modified[i];
if ( info.m_pObject->BIsKeyEqual( soIndex ) )
return info.m_pObject;
}
FOR_EACH_VEC( m_vecObjects_Added, i )
{
auto& info = m_vecObjects_Added[i];
if ( info.m_pObject->BIsKeyEqual( soIndex ) )
return info.m_pObject;
}
return NULL;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
const char *CSharedObjectTransactionEx::InternalPreCommit()
{
// ...
if ( !BIsValidInternalState() )
return "invalid internal state";
// ...
if ( !CSOTVerify( m_pSQLAccess->BInTransaction() ) )
return "transaction closed before commit";
// Did we run into some error internally building this transaction? This doesn't assert because it
// could be a SQL error or something else that doesn't necessarily indicate a problem with the way
// we're using this class. It *probably* indicates the calling code has a problem, but it isn't
// guaranteed so we don't assert.
if ( !m_bTransactionBuildSuccess )
return "error(s) building transaction";
// Nothing wrong so far.
return NULL;
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
bool CSharedObjectTransactionEx::BYieldingCommit()
{
const char *pszPreCommitFailureDesc = InternalPreCommit();
if ( pszPreCommitFailureDesc )
{
// We can't spit out information about which cache we're dealing with here because it's possible at
// this point that the error we're displaying is "we don't have the cache anymore!" which means pulling
// memory is probably unsafe.
EmitError( SPEW_GC, "Failed to commit CSharedObjectTransaction '%s': %s!\n", GetInternalTransactionDesc(), pszPreCommitFailureDesc );
Rollback();
return false;
}
bool bNetworkRelevantObjectsChanged = false;
bool bDBRelevantObjectsChanged = false;
bool bGeneratedCommitSQL = true;
// Add insert statements to SQL access instance for everything that needs to be written to the
// database. Some types only exist in memory and have no database backing.
FOR_EACH_VEC( m_vecObjects_Added, i )
{
CreateOrDestroyCommitInfo_t& info = m_vecObjects_Added[i];
if ( info.m_pObject->BIsDatabaseBacked() )
{
bGeneratedCommitSQL &= info.m_pObject->BYieldingAddInsertToTransaction( *m_pSQLAccess );
bDBRelevantObjectsChanged |= true;
}
bNetworkRelevantObjectsChanged |= info.m_pObject->BIsNetworked();
}
// For every object that we've changed state on, we've also been tracking information on which
// fields we modified. Here we ask each of the modified objects (which aren't currently in the
// SO cache, but are clones living outside of it) to queue up their updates to the SQL transaction.
{
CUtlVector< int > vecDirtyFields;
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
const ModifyCommitInfo_t& info = m_vecObjects_Modified[i];
Assert( info.m_pObject );
Assert( info.m_pWriteableObject );
Assert( info.m_pObject != info.m_pWriteableObject );
if ( info.m_pWriteableObject->BIsDatabaseBacked() )
{
vecDirtyFields.RemoveAll();
m_SODirtyList.GetDirtyFieldSetByObj( info.m_pWriteableObject, vecDirtyFields );
bGeneratedCommitSQL &= info.m_pWriteableObject->BYieldingAddWriteToTransaction( *m_pSQLAccess, vecDirtyFields );
bDBRelevantObjectsChanged |= true;
}
bNetworkRelevantObjectsChanged |= info.m_pWriteableObject->BIsNetworked();
AssertMsg4( info.m_pWriteableObject->BIsDatabaseBacked() == info.m_pObject->BIsDatabaseBacked(),
"Disagreement over DB backing state between SOs '%s' and '%s' in transaction '%s' for user '%s'!",
info.m_pObject->GetDebugString().String(),
info.m_pWriteableObject->GetDebugString().String(),
GetInternalTransactionDesc(),
m_pLockedSOCache->GetOwner().Render() );
AssertMsg4( info.m_pWriteableObject->BIsNetworked() == info.m_pObject->BIsNetworked(),
"Disagreement over network state between SOs '%s' and '%s' in transaction '%s' for user '%s'!",
info.m_pObject->GetDebugString().String(),
info.m_pWriteableObject->GetDebugString().String(),
GetInternalTransactionDesc(),
m_pLockedSOCache->GetOwner().Render() );
}
}
// Have each object that we'd like to remove queue up the SQL work necessary to do so.
FOR_EACH_VEC( m_vecObjects_Removed, i )
{
CreateOrDestroyCommitInfo_t& info = m_vecObjects_Removed[i];
if ( info.m_pObject->BIsDatabaseBacked() )
{
bGeneratedCommitSQL &= info.m_pObject->BYieldingAddRemoveToTransaction( *m_pSQLAccess );
bDBRelevantObjectsChanged |= true;
}
// We don't have to update network state here as removes are sent immediately to the client
// before we've even flushed our dirty updates.
}
// Our "did we generate the SQL to do this work in the DB" variable starts off true, so the only
// way we'd expect it to be false here is if we attempted to do work above and ran into some errors.
// If we don't have any SQL work to do at all, for example if we're only adding/modifying/removing
// memory-only items, then "bGeneratedCommitSQL" will be true and "bDBRelevantObjectsChanged" will
// be false.
if ( !bGeneratedCommitSQL )
{
EmitError( SPEW_GC, "Failed to commit CSharedObjectTransaction '%s' for user '%s': failed to add inserts/writes.\n", GetInternalTransactionDesc(), m_pLockedSOCache->GetOwner().Render() );
Rollback();
return false;
}
// Try to commit DB transaction. We don't know for sure whether we're the only code that's adding commands
// to this transaction, so we can't completely skip this if we didn't do any SQL work internally. We can
// say "did we do anything internally?; if not, maybe we'll be empty".
if ( !m_pSQLAccess->BCommitTransaction( !bDBRelevantObjectsChanged ) )
{
EmitError( SPEW_GC, "Failed to commit CSharedObjectTransaction '%s' for user '%s': SQL transaction failure.\n", GetInternalTransactionDesc(), m_pLockedSOCache->GetOwner().Render() );
Rollback();
return false;
}
// The database work committed successfully, so we update our memory state to match the state we just wrote
// to the DB.
FOR_EACH_VEC( m_vecObjects_Added, i )
{
CreateOrDestroyCommitInfo_t& info = m_vecObjects_Added[i];
m_pLockedSOCache->AddObject( info.m_pObject ); // internally will assert if cache isn't locked
}
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
ModifyCommitInfo_t& info = m_vecObjects_Modified[i];
info.m_pObject->Copy( *info.m_pWriteableObject ); // stomp the version that's already in the cache with the properties from where we've been writing
delete info.m_pWriteableObject;
}
FOR_EACH_VEC( m_vecObjects_Removed, i )
{
CreateOrDestroyCommitInfo_t &info = m_vecObjects_Removed[i];
Verify( m_pLockedSOCache->BDestroyObject( *info.m_pObject, false ) ); // internally will assert if cache isn't locked
}
// Did we change anything that affected network state? If so, tell our cache to flush the dirty
// state list.
if ( bNetworkRelevantObjectsChanged )
{
// Our cache is responsible for sending all the network updates, including creates from the
// AddObject() calls above, so now that our commit has succeeded we copy over our list of
// dirty objects from inside this transaction.
for ( const ModifyCommitInfo_t& info : m_vecObjects_Modified )
{
m_pLockedSOCache->DirtyNetworkObject( info.m_pObject );
}
m_pLockedSOCache->SendAllNetworkUpdates();
}
// Cleanup.
m_vecObjects_Added.RemoveAll();
m_vecObjects_Modified.RemoveAll();
m_vecObjects_Removed.RemoveAll();
return true;
}
void CSharedObjectTransactionEx::Rollback()
{
// Clean up any memory allocated to handle any database work that is outstanding but not yet
// committed.
m_pSQLAccess->RollbackTransaction();
Assert( !m_pSQLAccess->BInTransaction() );
// Clean up any in-memory changes that are currently outstanding.
// We made new objects for our adds, so we need to free up that memory.
FOR_EACH_VEC( m_vecObjects_Added, i )
{
delete m_vecObjects_Added[i].m_pObject;
}
m_vecObjects_Added.RemoveAll();
// For our modifies, we haven't done any work on the versions that are in the cache, so all we have
// to do is delete the temp memory that we allocated for a writable version.
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
ModifyCommitInfo_t& info = m_vecObjects_Modified[i];
delete info.m_pWriteableObject;
}
m_vecObjects_Modified.RemoveAll();
// We didn't actually do any in-memory work for our items that were set to be deleted, so we
// can just free the memory for our tracking state.
m_vecObjects_Removed.RemoveAll();
}
CSharedObjectTransaction::CSharedObjectTransaction( CSQLAccess &sqlAccess, const char *pName )
: m_sqlAccess( sqlAccess )
{
if ( m_sqlAccess.BInTransaction() == false )
{
m_sqlAccess.BBeginTransaction( pName );
}
}
CSharedObjectTransaction::~CSharedObjectTransaction()
{
Rollback();
}
CSharedObjectTransaction::undoinfo_t *CSharedObjectTransaction::FindObjectInVector( const CSharedObject *pObject, CUtlVector<undoinfo_t> &vec ) const
{
FOR_EACH_VEC( vec, i )
{
if ( vec[i].pObject == pObject )
return &vec[i];
}
return NULL;
}
bool CSharedObjectTransaction::AssertValidInput( const CGCSharedObjectCache *pSOCache, const CSharedObject *pObject, const char *pszContext )
{
Assert( pszContext );
Assert( pSOCache );
Assert( pObject );
if ( pSOCache == NULL || pObject == NULL )
{
SetError( CFmtStr( "%s: attempt to manipulate invalid SO cache %s, object %s", pszContext, pSOCache ? pSOCache->GetOwner().Render() : "[none]", pObject ? pObject->GetDebugString().String() : "[none]" ) );
return false;
}
const bool bSOCachedLocked = GGCBase()->IsSteamIDLockedByCurJob( pSOCache->GetOwner() );
Assert( bSOCachedLocked );
if ( !bSOCachedLocked )
{
SetError( CFmtStr( "%s: attempt to manipulate non-locked SO cache %s to add object %s", pszContext, pSOCache->GetOwner().Render(), pObject->GetDebugString().String() ) );
return false;
}
return pSOCache != NULL && pObject != NULL && bSOCachedLocked;
}
void CSharedObjectTransaction::AddManagedObject( CGCSharedObjectCache *pSOCache, CSharedObject *pObject )
{
if ( !AssertValidInput( pSOCache, pObject, "AddManagedObject()" ) )
return;
// if an object is in the added list, we're going to do a full write so modifying it at this point adds nothing
// new; if an object is in the modified list, we already tracked the initial state; either way we have no new
// data to track here
if ( FindObjectInVector( pObject, m_vecObjects_Added ) || FindObjectInVector( pObject, m_vecObjects_Modified ) )
return;
undoinfo_t info = { pObject, pSOCache, NULL };
info.pOriginalCopy = CSharedObject::Create( pObject->GetTypeID() );
info.pOriginalCopy->Copy( *pObject );
m_vecObjects_Modified.AddToTail( info );
}
void CSharedObjectTransaction::AddNewObject( CGCSharedObjectCache *pSOCache, CSharedObject *pObject )
{
if ( !AssertValidInput( pSOCache, pObject, "AddNewObject()" ) )
return;
if ( FindObjectInVector( pObject, m_vecObjects_Added ) )
return;
undoinfo_t info = { pObject, pSOCache, NULL };
m_vecObjects_Added.AddToTail( info );
}
void CSharedObjectTransaction::RemoveObject( CGCSharedObjectCache *pSOCache, CSharedObject *pObject )
{
if ( !AssertValidInput( pSOCache, pObject, "RemoveObject()" ) )
return;
// make sure the object we're removing is in the cache we're trying to remove it from.
AssertMsg1( pSOCache->FindSharedObject( *pObject ), "Attempting to remove object '%s' from non-owning cache!", pObject->GetDebugString().Get() );
// look through our lists of objects that we're adding and objects that we're modifying. If we're
// removing an object that we're adding in the same transaction through the same pointer, this will
// result in a broken SO cache. Removing a modified object may or may not be safe but it's probably
// indicative of a higher-level logic bug regardless.
if ( undoinfo_t *pInfo = FindObjectInVector( pObject, m_vecObjects_Added ) )
{
EmitError( SPEW_GC, "Attempting to add and remove the same object from the same CSharedObjectTransaction! Object: %s", pInfo->pObject->GetDebugString().Get() );
Assert( !"Attempting to add and remove the same object from the same CSharedObjectTransaction!" );
m_vecObjects_Added.FindAndFastRemove( *pInfo );
}
if ( undoinfo_t *pInfo = FindObjectInVector( pObject, m_vecObjects_Modified ) )
{
EmitError( SPEW_GC, "Attempting to modify and remove the same object from the same CSharedObjectTransaction! Object: %s", pInfo->pObject->GetDebugString().Get() );
Assert( !"Attempting to modify and remove the same object from the same CSharedObjectTransaction!" );
m_vecObjects_Modified.FindAndFastRemove( *pInfo );
}
// @note Tom Bui: the act of removing an item may change the object, so to roll that back,
// we need the original version
undoinfo_t info = { pObject, pSOCache, NULL };
info.pOriginalCopy = CSharedObject::Create( pObject->GetTypeID() );
info.pOriginalCopy->Copy( *pObject );
m_vecObjects_Removed.AddToTail( info );
if ( !pObject->BYieldingAddRemoveToTransaction( m_sqlAccess ) )
{
SetError( "RemoveObject(): BYieldingAddRemoveToTransaction() failed" );
return;
}
}
void CSharedObjectTransaction::ModifiedObject( CGCSharedObjectCache *pSOCache, CSharedObject *pObject, uint32 unFieldIdx )
{
if ( !AssertValidInput( pSOCache, pObject, "ModifiedObject()" ) )
return;
// look for an object in the transaction -- this might be a new object created for this
// transaction or it might be an object we've already tagged for modification; we don't
// use FindSharedObject() for this because we might not be in an SO cache yet
// if we're in the add list, we aren't intended to be in a cache yet, and so we also don't
// have to dirty any fields -- we don't exist for real yet so when we finalize this transaction,
// effectively *everything* is dirty
if ( FindObjectInVector( pObject, m_vecObjects_Added ) )
return;
// make sure the object we're removing is in the cache we think it is. This check has to happen
// after the "is in the added list?" check above because we won't actually put items in the cache
// for real until after the SQL transaction succeeds
AssertMsg1( pSOCache->FindSharedObject( *pObject ), "Attempting to modify object '%s' in non-owning cache!", pObject->GetDebugString().Get() );
undoinfo_t *pInfo = FindObjectInVector( pObject, m_vecObjects_Modified );
if ( pInfo )
{
pInfo->pSOCache->DirtyObjectField( pObject, unFieldIdx );
return;
}
Assert( !"Attempt to modify an unmanaged object in CSharedObjectTransaction!" );
SetError( CFmtStr( "ModifiedObject(): attempt to modify an unmanaged object %s", pObject->GetDebugString().String() ) );
}
CSharedObject *CSharedObjectTransaction::FindSharedObject( CGCSharedObjectCache *pSOCache, const CSharedObject &soIndex )
{
// search in modified objects
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
undoinfo_t &info = m_vecObjects_Modified[i];
if ( info.pSOCache == pSOCache && info.pObject->BIsKeyEqual( soIndex ) )
return info.pObject;
}
// search in new objects
FOR_EACH_VEC( m_vecObjects_Added, i )
{
undoinfo_t &info = m_vecObjects_Added[i];
if ( info.pSOCache == pSOCache && info.pObject->BIsKeyEqual( soIndex ) )
return info.pObject;
}
return NULL;
}
void CSharedObjectTransaction::Rollback()
{
if ( m_sqlAccess.BInTransaction() )
{
m_sqlAccess.RollbackTransaction();
}
Undo();
}
bool CSharedObjectTransaction::BYieldingCommit( bool bAllowEmpty )
{
const char *pszPreExistingError = GetError();
if ( pszPreExistingError )
{
EmitError( SPEW_GC, "Failed to commit CSharedObjectTransaction '%s': %s.\n", PchName(), pszPreExistingError );
Undo();
return false;
}
Assert( m_sqlAccess.BInTransaction() );
if ( !m_sqlAccess.BInTransaction() )
{
EmitError( SPEW_GC, "Failed to commit CSharedObjectTransaction '%s': transaction closed before commit!\n", PchName() );
Undo();
return false;
}
bool bSuccess = true;
bool bDBRelevantObjectsChanged = false;
// add insert statements to sql access
FOR_EACH_VEC( m_vecObjects_Added, i )
{
undoinfo_t &info = m_vecObjects_Added[i];
if ( info.pObject->BIsDatabaseBacked() )
{
bSuccess &= info.pObject->BYieldingAddInsertToTransaction( m_sqlAccess );
bDBRelevantObjectsChanged = true;
}
}
// add update statements to sql access
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
undoinfo_t &info = m_vecObjects_Modified[i];
if ( info.pObject->BIsDatabaseBacked() )
{
bSuccess &= info.pSOCache->BYieldingAddWriteToTransaction( info.pObject, m_sqlAccess );
bDBRelevantObjectsChanged = true;
}
}
if ( bSuccess == false )
{
EmitError( SPEW_GC, "Failed to commit CSharedObjectTransaction '%s': failed to add inserts/writes.\n", PchName() );
Undo();
return false;
}
// try to commit db transaction.
if ( m_sqlAccess.BCommitTransaction( bAllowEmpty && !bDBRelevantObjectsChanged ) == false )
{
EmitError( SPEW_GC, "Failed to commit CSharedObjectTransaction '%s': SQL transaction failure.\n", PchName() );
Undo();
return false;
}
// remove objects from SO cache
FOR_EACH_VEC( m_vecObjects_Removed, i )
{
undoinfo_t &info = m_vecObjects_Removed[i];
DbgVerify( info.pSOCache->BDestroyObject( *info.pObject, false ) ); // internally will assert if cache isn't locked
delete info.pOriginalCopy;
}
m_vecObjects_Removed.RemoveAll();
// add new objects to SO cache
FOR_EACH_VEC( m_vecObjects_Added, i )
{
undoinfo_t &info = m_vecObjects_Added[i];
info.pSOCache->AddObject( info.pObject ); // internally will assert if cache isn't locked
Assert( info.pOriginalCopy == NULL );
}
// free up memory for original state of modified objects
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
undoinfo_t &info = m_vecObjects_Modified[i];
info.pSOCache->DirtyNetworkObject( info.pObject );
delete info.pOriginalCopy;
}
// send network updates for objects that were added or modified
// this is OK to call more than once on a CGCSharedObjectCache, because internally
// it keeps a list of things that were marked dirty
FOR_EACH_VEC( m_vecObjects_Added, i )
{
m_vecObjects_Added[i].pSOCache->SendAllNetworkUpdates();
}
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
m_vecObjects_Modified[i].pSOCache->SendAllNetworkUpdates();
}
m_vecObjects_Added.RemoveAll();
m_vecObjects_Modified.RemoveAll();
return true;
}
void CSharedObjectTransaction::Undo()
{
FOR_EACH_VEC( m_vecObjects_Added, i )
{
undoinfo_t &info = m_vecObjects_Added[i];
delete info.pObject;
}
m_vecObjects_Added.RemoveAll();
FOR_EACH_VEC( m_vecObjects_Removed, i )
{
undoinfo_t &info = m_vecObjects_Removed[i];
AssertMsg1( GGCBase()->IsSteamIDLockedByCurJob( info.pSOCache->GetOwner() ), "Attempt to modify in-memory object '%s' during CSharedObjectTransaction removal rollback.", info.pObject->GetDebugString().Get() );
info.pObject->Copy( *info.pOriginalCopy );
delete info.pOriginalCopy;
}
m_vecObjects_Removed.RemoveAll();
FOR_EACH_VEC( m_vecObjects_Modified, i )
{
undoinfo_t &info = m_vecObjects_Modified[i];
AssertMsg1( GGCBase()->IsSteamIDLockedByCurJob( info.pSOCache->GetOwner() ), "Attempt to modify in-memory object '%s' during CSharedObjectTransaction modify rollback.", info.pObject->GetDebugString().Get() );
info.pObject->Copy( *info.pOriginalCopy );
delete info.pOriginalCopy;
}
m_vecObjects_Modified.RemoveAll();
ClearError();
}
const char *CSharedObjectTransaction::PchName() const
{
return m_sqlAccess.PchTransactionName();
}
};