void Contract::GetItemRow( InventoryItemRef item, PyPackedRow* into ) const
{
into->SetField( "contractID", new PyInt( contractID() ) );
into->SetField( "itemID", new PyInt( item->itemID() ) );
into->SetField( "quantity", new PyInt( item->quantity() ) );
into->SetField( "itemTypeID", new PyInt( item->typeID() ) );
into->SetField( "inCrate", new PyBool( true ) );
if( item->categoryID() == EVEDB::invCategories::Blueprint )
{
BlueprintRef bp = m_itemFactory.GetBlueprint( item->itemID() );
into->SetField( "parentID", new PyInt( bp->parentBlueprintTypeID() ) );
into->SetField( "productivityLevel", new PyInt( bp->productivityLevel() ) );
into->SetField( "materialLevel", new PyInt( bp->materialLevel() ) );
into->SetField( "copy", new PyInt( bp->copy() ) );
into->SetField( "licensedProductionRunsRemaining", new PyInt( bp->licensedProductionRunsRemaining() ) );
}
else
{
into->SetField( "parentID", new PyInt( 0 ) );
into->SetField( "productivityLevel", new PyInt( 0 ) );
into->SetField( "materialLevel", new PyInt( 0 ) );
into->SetField( "copy", new PyInt( 0 ) );
into->SetField( "licensedProductionRunsRemaining", new PyInt( 0 ) );
}
if( item->HasAttribute( AttrDamage ) )
into->SetField( "damage", new PyInt( item->GetAttribute( AttrDamage ).get_int() ) );
else
into->SetField( "damage", new PyInt( 0 ) );
into->SetField( "flagID", new PyInt( item->flag() ) );
}
void RamProxyService::_VerifyInstallJob_Call(const Call_InstallJob &args, InventoryItemRef installedItem, const PathElement &bomLocation, Client *const c) {
// ACTIVITY CHECK
// ***************
const ItemType *productType;
switch(args.activityID) {
/*
* Manufacturing
*/
case ramActivityManufacturing: {
if(installedItem->categoryID() != EVEDB::invCategories::Blueprint)
throw(PyException(MakeUserError("RamActivityRequiresABlueprint")));
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
if(!bp->infinite() && (bp->licensedProductionRunsRemaining() - args.runs) < 0)
throw(PyException(MakeUserError("RamTooManyProductionRuns")));
productType = &bp->productType();
break;
}
/*
* Time/Material Research
*/
case ramActivityResearchingMaterialProductivity:
case ramActivityResearchingTimeProductivity: {
if(installedItem->categoryID() != EVEDB::invCategories::Blueprint)
throw(PyException(MakeUserError("RamActivityRequiresABlueprint")));
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
if(bp->copy())
throw(PyException(MakeUserError("RamCannotResearchABlueprintCopy")));
productType = &bp->type();
break;
}
/*
* Copying
*/
case ramActivityCopying: {
if(installedItem->categoryID() != EVEDB::invCategories::Blueprint)
throw(PyException(MakeUserError("RamActivityRequiresABlueprint")));
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
if(bp->copy())
throw(PyException(MakeUserError("RamCannotCopyABlueprintCopy")));
productType = &bp->type();
break;
}
/*
* The rest
*/
case ramActivityResearchingTechnology:
case ramActivityDuplicating:
case ramActivityReverseEngineering:
case ramActivityInvention: /* {
if(installedItem->categoryID() != EVEDB::invCategories::Blueprint)
throw(PyException(MakeUserError("RamActivityRequiresABlueprint")));
Blueprint *bp = (Blueprint *)installedItem;
if(!bp->copy())
throw(PyException(MakeUserError("RamCannotInventABlueprintOriginal")));
uint32 productTypeID = m_db.GetTech2Blueprint(installedItem->typeID());
if(productTypeID == NULL)
throw(PyException(MakeUserError("RamInventionNoOutput")));
productType = m_manager->item_factory.type(productTypeID);
break;
} */
default: {
// not supported
throw(PyException(MakeUserError("RamActivityInvalid")));
//throw(PyException(MakeUserError("RamNoKnownOutputType")));
}
}
if(!m_db.IsProducableBy(args.installationAssemblyLineID, productType->groupID()))
throw(PyException(MakeUserError("RamBadEndProductForActivity")));
// JOBS CHECK
// ***********
if(args.activityID == ramActivityManufacturing) {
uint32 jobCount = m_db.CountManufacturingJobs(c->GetCharacterID());
if(c->GetChar()->GetAttribute(AttrManufactureSlotLimit).get_int() <= jobCount) {
std::map<std::string, PyRep *> exceptArgs;
exceptArgs["current"] = new PyInt(jobCount);
exceptArgs["max"] = c->GetChar()->GetAttribute(AttrManufactureSlotLimit).GetPyObject();
throw(PyException(MakeUserError("MaxFactorySlotUsageReached", exceptArgs)));
}
} else {
uint32 jobCount = m_db.CountResearchJobs(c->GetCharacterID());
if(c->GetChar()->GetAttribute(AttrMaxLaborotorySlots).get_int() <= jobCount) {
std::map<std::string, PyRep *> exceptArgs;
exceptArgs["current"] = new PyInt(jobCount);
exceptArgs["max"] = c->GetChar()->GetAttribute(AttrMaxLaborotorySlots).GetPyObject();
throw(PyException(MakeUserError("MaxResearchFacilitySlotUsageReached", exceptArgs)));
}
}
// INSTALLATION CHECK
// *******************
uint32 regionID = m_db.GetRegionOfContainer(args.installationContainerID);
if(regionID == 0)
throw(PyException(MakeUserError("RamIsNotAnInstallation")));
if(c->GetRegionID() != regionID)
throw(PyException(MakeUserError("RamRangeLimitationRegion")));
// RamStructureNotInSpace
// RamStructureNotIsSolarsystem
// RamRangeLimitation
// RamRangeLimitationJumps
// RamRangeLimitationJumpsNoSkill
// ASSEMBLY LINE CHECK
// *********************
uint32 ownerID;
double minCharSec, maxCharSec;
EVERamRestrictionMask restrictionMask;
EVERamActivity activity;
// get properties
if(!m_db.GetAssemblyLineVerifyProperties(args.installationAssemblyLineID, ownerID, minCharSec, maxCharSec, restrictionMask, activity))
throw(PyException(MakeUserError("RamInstallationHasNoDefaultContent")));
// check validity of activity
if(activity < ramActivityManufacturing || activity > ramActivityInvention)
throw(PyException(MakeUserError("RamAssemblyLineHasNoActivity")));
// check security rating if required
if((restrictionMask & ramRestrictBySecurity) == ramRestrictBySecurity) {
if(minCharSec > c->GetSecurityRating())
throw(PyException(MakeUserError("RamAccessDeniedSecStatusTooLow")));
if(maxCharSec < c->GetSecurityRating())
throw(PyException(MakeUserError("RamAccessDeniedSecStatusTooHigh")));
// RamAccessDeniedCorpSecStatusTooHigh
// RamAccessDeniedCorpSecStatusTooLow
}
// check standing if required
if((restrictionMask & ramRestrictByStanding) == ramRestrictByStanding) {
// RamAccessDeniedCorpStandingTooLow
// RamAccessDeniedStandingTooLow
}
if((restrictionMask & ramRestrictByAlliance) == ramRestrictByAlliance) {
// if(...)
throw(PyException(MakeUserError("RamAccessDeniedWrongAlliance")));
} else if((restrictionMask & ramRestrictByCorp) == ramRestrictByCorp) {
if(ownerID != c->GetCorporationID())
throw(PyException(MakeUserError("RamAccessDeniedWrongCorp")));
}
if(args.isCorpJob) {
if((c->GetCorpRole() & corpRoleFactoryManager) != corpRoleFactoryManager)
throw(PyException(MakeUserError("RamCannotInstallForCorpByRoleFactoryManager")));
if(args.activityID == ramActivityManufacturing) {
if((c->GetCorpRole() & corpRoleCanRentFactorySlot) != corpRoleCanRentFactorySlot)
throw(PyException(MakeUserError("RamCannotInstallForCorpByRole")));
} else {
if((c->GetCorpRole() & corpRoleCanRentResearchSlot) != corpRoleCanRentResearchSlot)
throw(PyException(MakeUserError("RamCannotInstallForCorpByRole")));
}
}
// INSTALLED ITEM CHECK
// *********************
// ownership
if(args.isCorpJob) {
if(installedItem->ownerID() != c->GetCorporationID())
throw(PyException(MakeUserError("RamCannotInstallItemForAnotherCorp")));
} else {
if(installedItem->ownerID() != c->GetCharacterID())
throw(PyException(MakeUserError("RamCannotInstallItemForAnother")));
}
// corp hangar permission
if( (installedItem->flag() == flagCorpSecurityAccessGroup2 && (c->GetCorpRole() & corpRoleHangarCanTake2) != corpRoleHangarCanTake2)
|| (installedItem->flag() == flagCorpSecurityAccessGroup3 && (c->GetCorpRole() & corpRoleHangarCanTake3) != corpRoleHangarCanTake3)
|| (installedItem->flag() == flagCorpSecurityAccessGroup4 && (c->GetCorpRole() & corpRoleHangarCanTake4) != corpRoleHangarCanTake4)
|| (installedItem->flag() == flagCorpSecurityAccessGroup5 && (c->GetCorpRole() & corpRoleHangarCanTake5) != corpRoleHangarCanTake5)
|| (installedItem->flag() == flagCorpSecurityAccessGroup6 && (c->GetCorpRole() & corpRoleHangarCanTake6) != corpRoleHangarCanTake6)
|| (installedItem->flag() == flagCorpSecurityAccessGroup7 && (c->GetCorpRole() & corpRoleHangarCanTake7) != corpRoleHangarCanTake7)
)
throw(PyException(MakeUserError("RamAccessDeniedToBOMHangar")));
// large location check
if(IsStation(args.installationContainerID)) {
if(/*args.isCorpJob && */installedItem->flag() == flagCargoHold)
throw(PyException(MakeUserError("RamCorpInstalledItemNotInCargo")));
if(installedItem->locationID() != (uint32)args.installationContainerID) {
if((uint32)args.installationContainerID == c->GetLocationID()) {
std::map<std::string, PyRep *> exceptArgs;
exceptArgs["location"] = new PyString(m_db.GetStationName(args.installationContainerID));
if(args.isCorpJob)
throw(PyException(MakeUserError("RamCorpInstalledItemWrongLocation", exceptArgs)));
else
throw(PyException(MakeUserError("RamInstalledItemWrongLocation", exceptArgs)));
} else
throw(PyException(MakeUserError("RamRemoteInstalledItemNotInStation")));
} else {
if(args.isCorpJob) {
if(installedItem->flag() < flagCorpSecurityAccessGroup2 || installedItem->flag() > flagCorpSecurityAccessGroup7) {
if((uint32)args.installationContainerID == c->GetLocationID()) {
std::map<std::string, PyRep *> exceptArgs;
exceptArgs["location"] = new PyString(m_db.GetStationName(args.installationContainerID));
throw(PyException(MakeUserError("RamCorpInstalledItemWrongLocation", exceptArgs)));
} else
throw(PyException(MakeUserError("RamRemoteInstalledItemNotInOffice")));
}
} else {
if(installedItem->flag() != flagHangar) {
if((uint32)args.installationInvLocationID == c->GetLocationID()) {
std::map<std::string, PyRep *> exceptArgs;
exceptArgs["location"] = new PyString(m_db.GetStationName(args.installationContainerID));
throw(PyException(MakeUserError("RamInstalledItemWrongLocation", exceptArgs)));
} else {
throw(PyException(MakeUserError("RamRemoteInstalledItemInStationNotHangar")));
}
}
}
}
} else if((uint32)args.installationContainerID == c->GetShipID()) {
if(c->GetChar()->flag() != flagPilot)
throw(PyException(MakeUserError("RamAccessDeniedNotPilot")));
if(installedItem->locationID() != (uint32)args.installationContainerID)
throw(PyException(MakeUserError("RamInstalledItemMustBeInShip")));
} else {
// here should be stuff around POS, but I dont certainly know how it should work, so ...
// RamInstalledItemBadLocationStructure
// RamInstalledItemInStructureNotInContainer
// RamInstalledItemInStructureUnknownLocation
}
// BOM LOCATION CHECK
// *******************
// corp hangar permission
if( (bomLocation.flag == flagCorpSecurityAccessGroup2 && (c->GetCorpRole() & corpRoleHangarCanTake2) != corpRoleHangarCanTake2)
|| (bomLocation.flag == flagCorpSecurityAccessGroup3 && (c->GetCorpRole() & corpRoleHangarCanTake3) != corpRoleHangarCanTake3)
|| (bomLocation.flag == flagCorpSecurityAccessGroup4 && (c->GetCorpRole() & corpRoleHangarCanTake4) != corpRoleHangarCanTake4)
|| (bomLocation.flag == flagCorpSecurityAccessGroup5 && (c->GetCorpRole() & corpRoleHangarCanTake5) != corpRoleHangarCanTake5)
|| (bomLocation.flag == flagCorpSecurityAccessGroup6 && (c->GetCorpRole() & corpRoleHangarCanTake6) != corpRoleHangarCanTake6)
|| (bomLocation.flag == flagCorpSecurityAccessGroup7 && (c->GetCorpRole() & corpRoleHangarCanTake7) != corpRoleHangarCanTake7)
)
throw(PyException(MakeUserError("RamAccessDeniedToBOMHangar")));
}
PyResult ContractMgrService::Handle_GetContract( PyCallArgs& call )
{
Call_SingleIntegerArg arg;
PyDict* _contract = new PyDict;
if( !arg.Decode( &call.tuple ) )
{
codelog(SERVICE__ERROR, "%s: Bad arguments to GetContract in contractMgr", call.client->GetCharacterName() );
return NULL;
}
// Manual creation of PyPackedRow
DBRowDescriptor *header = new DBRowDescriptor();
header->AddColumn( "contractID", DBTYPE_I4 );
header->AddColumn( "issuerID", DBTYPE_I4 );
header->AddColumn( "issuerCorpID", DBTYPE_I4 );
header->AddColumn( "type", DBTYPE_UI1 );
header->AddColumn( "availability", DBTYPE_I4 );
header->AddColumn( "assigneeID", DBTYPE_I4 );
header->AddColumn( "numDays", DBTYPE_I4 );
header->AddColumn( "startStationID", DBTYPE_I4 );
header->AddColumn( "endStationID", DBTYPE_I4 );
header->AddColumn( "startSolarSystemID", DBTYPE_I4 );
header->AddColumn( "endSolarSystemID", DBTYPE_I4 );
header->AddColumn( "startRegionID", DBTYPE_I4 );
header->AddColumn( "endRegionID", DBTYPE_I4 );
header->AddColumn( "price", DBTYPE_CY );
header->AddColumn( "reward", DBTYPE_CY );
header->AddColumn( "collateral", DBTYPE_CY );
header->AddColumn( "title", DBTYPE_WSTR );
header->AddColumn( "description", DBTYPE_WSTR );
header->AddColumn( "forCorp", DBTYPE_BOOL );
header->AddColumn( "status", DBTYPE_UI1 );
header->AddColumn( "acceptorID", DBTYPE_I4 );
header->AddColumn( "dateIssued", DBTYPE_FILETIME );
header->AddColumn( "dateExpired", DBTYPE_FILETIME );
header->AddColumn( "dateAccepted", DBTYPE_FILETIME );
header->AddColumn( "dateCompleted", DBTYPE_FILETIME );
header->AddColumn( "volume", DBTYPE_R8 );
header->AddColumn( "issuerAllianceID", DBTYPE_I4 );
header->AddColumn( "issuerWalletKey", DBTYPE_I4 );
header->AddColumn( "acceptorWalletKey", DBTYPE_I4 );
header->AddColumn( "crateID", DBTYPE_I4 );
ContractRef contract = m_contractManager->GetContract( arg.arg );
uint32 n = 0;
PyPackedRow* into = new PyPackedRow( header );
into->SetField( "contractID", new PyInt( contract->contractID() ) );
into->SetField( "issuerID", new PyInt( contract->issuerID() ) );
into->SetField( "issuerCorpID", new PyInt( contract->issuerCorpID() ) );
into->SetField( "type", new PyInt( contract->type() ) );
into->SetField( "availability", new PyInt( contract->avail() ) );
into->SetField( "assigneeID", new PyInt( contract->assigneeID() ) );
into->SetField( "numDays", new PyInt( 0 ) );
into->SetField( "startStationID", new PyInt( contract->startStationID() ) );
into->SetField( "endStationID", new PyInt( contract->endStationID() ) );
into->SetField( "startSolarSystemID", new PyInt( contract->startSolarSystemID() ) );
into->SetField( "endSolarSystemID", new PyInt( contract->endSolarSystemID() ) );
into->SetField( "startRegionID", new PyInt( contract->startRegionID() ) );
into->SetField( "endRegionID", new PyInt( contract->endRegionID() ) );
into->SetField( "price", new PyFloat( contract->price() ) );
into->SetField( "reward", new PyFloat( contract->reward() ) );
into->SetField( "collateral", new PyFloat( contract->collateral() ) );
into->SetField( "title", new PyString( "title" ) );
into->SetField( "description", new PyString( "description" ) );
into->SetField( "forCorp", new PyBool( contract->forCorp() ) );
into->SetField( "status", new PyInt( contract->status() ) );
into->SetField( "acceptorID", new PyInt( contract->acceptorID() ) );
into->SetField( "dateIssued", new PyLong( contract->dateIssued() ) );
into->SetField( "dateExpired", new PyLong( contract->dateExpired() ) );
into->SetField( "dateAccepted", new PyLong( contract->dateAccepted() ) );
into->SetField( "dateCompleted", new PyLong( contract->dateCompleted() ) );
into->SetField( "volume", new PyFloat( contract->volume() ) );
into->SetField( "issuerAllianceID", new PyInt( contract->issuerAllianceID() ) );
into->SetField( "issuerWalletKey", new PyInt( contract->issuerWalletKey() ) );
into->SetField( "acceptorWalletKey", new PyInt( 0 ) );
into->SetField( "crateID", new PyInt( 0 ) );
PyList* itemList = new PyList;
DBRowDescriptor *itemHeader = new DBRowDescriptor();
itemHeader->AddColumn( "contractID", DBTYPE_I4 );
itemHeader->AddColumn( "itemID", DBTYPE_I4 );
itemHeader->AddColumn( "quantity", DBTYPE_I4 );
itemHeader->AddColumn( "itemTypeID", DBTYPE_I4 );
itemHeader->AddColumn( "inCrate", DBTYPE_BOOL );
itemHeader->AddColumn( "parentID", DBTYPE_I4 );
itemHeader->AddColumn( "productivityLevel", DBTYPE_I4 );
itemHeader->AddColumn( "materialLevel", DBTYPE_I4 );
itemHeader->AddColumn( "copy", DBTYPE_I4 );
itemHeader->AddColumn( "licensedProductionRunsRemaining", DBTYPE_I4 );
itemHeader->AddColumn( "damage", DBTYPE_R8 );
itemHeader->AddColumn( "flagID", DBTYPE_I2 );
std::map<uint32, ContractGetItemsRef>::const_iterator cur, end;
std::map<uint32, ContractGetItemsRef> items = contract->items();
cur = items.begin();
end = items.end();
for(; cur != end; cur++ )
{
PyPackedRow* data = new PyPackedRow( itemHeader );
InventoryItemRef item = m_manager->item_factory.GetItem( cur->second->m_itemID );
data->SetField( "contractID", new PyInt( contract->contractID() ) );
data->SetField( "itemID", new PyInt( item->itemID() ) );
data->SetField( "quantity", new PyInt( cur->second->m_quantity ) );
data->SetField( "itemTypeID", new PyInt( item->typeID() ) );
data->SetField( "inCrate", new PyBool( true ) );
if( item->categoryID() == EVEDB::invCategories::Blueprint )
{
BlueprintRef bp = m_manager->item_factory.GetBlueprint( item->itemID() );
data->SetField( "parentID", new PyInt( bp->parentBlueprintTypeID() ) );
data->SetField( "productivityLevel", new PyInt( bp->productivityLevel() ) );
data->SetField( "materialLevel", new PyInt( bp->materialLevel() ) );
data->SetField( "copy", new PyInt( bp->copy() ) );
data->SetField( "licensedProductionRunsRemaining", new PyInt( bp->licensedProductionRunsRemaining() ) );
if( bp->HasAttribute( 3 ) )
data->SetField( "damage", new PyFloat( bp->GetAttribute( 3 ).get_float() ) );
else
data->SetField( "damage", new PyFloat( 0.0 ) );
data->SetField( "flagID", new PyInt( bp->flag() ) );
}
else
{
data->SetField( "parentID", new PyInt( 0 ) );
data->SetField( "productivityLevel", new PyInt( 0 ) );
data->SetField( "materialLevel", new PyInt( 0 ) );
data->SetField( "copy", new PyInt( 0 ) );
data->SetField( "licensedProductionRunsRemaining", new PyInt( 0 ) );
if( item->HasAttribute( 3 ) )
data->SetField( "damage", new PyFloat( item->GetAttribute( 3 ).get_float() ) );
else
data->SetField( "damage", new PyFloat( 0.0 ) );
data->SetField( "flagID", new PyInt( item->flag() ) );
}
itemList->AddItem( data );
}
std::map<uint32, ContractRequestItemRef>::const_iterator c, e;
std::map<uint32, ContractRequestItemRef> requestItems = contract->requestItems();
c = requestItems.begin();
e = requestItems.end();
for(; c != e; c++ )
{
PyPackedRow* data = new PyPackedRow( itemHeader );
data->SetField( "contractID", new PyInt( arg.arg ) );
data->SetField( "itemID", new PyInt( 0 ) );
data->SetField( "quantity", new PyInt( c->second->m_quantity ) );
data->SetField( "itemTypeID", new PyInt( c->second->m_typeID ) );
data->SetField( "inCrate", new PyBool( false ) );
data->SetField( "parentID", new PyInt( 0 ) );
data->SetField( "productivityLevel", new PyInt( 0 ) );
data->SetField( "materialLevel", new PyInt( 0 ) );
data->SetField( "copy", new PyInt( 0 ) );
data->SetField( "licensedProductionRunsRemaining", new PyInt( 0 ) );
data->SetField( "damage", new PyFloat( 0.0 ) );
data->SetField( "flagID", new PyInt( 0 ) );
itemList->AddItem( data );
}
DBRowDescriptor *bidsHeader = new DBRowDescriptor();
bidsHeader->AddColumn( "bidID", DBTYPE_I4 );
bidsHeader->AddColumn( "contractID", DBTYPE_I4 );
bidsHeader->AddColumn( "issuerID", DBTYPE_I4 );
bidsHeader->AddColumn( "quantity", DBTYPE_I4 );
bidsHeader->AddColumn( "issuerCorpID", DBTYPE_I4 );
bidsHeader->AddColumn( "issuerStationID", DBTYPE_I4 );
bidsHeader->AddColumn( "issuerSolarSystemID", DBTYPE_I4 );
bidsHeader->AddColumn( "issuerRegionID", DBTYPE_I4 );
CRowSet *bids_rowset = new CRowSet( &bidsHeader );
_contract->SetItemString( "items", itemList );
_contract->SetItemString( "bids", bids_rowset );
_contract->SetItemString( "contract", into);
PyObject* res = new PyObject( new PyString( "util.KeyVal" ), _contract );
return res;
}