bool InventoryItem::Merge(InventoryItemRef to_merge, int32 qty, bool notify) {
if(typeID() != to_merge->typeID()) {
_log(ITEM__ERROR, "%s (%u): Asked to merge with %s (%u).", itemName().c_str(), itemID(), to_merge->itemName().c_str(), to_merge->itemID());
return false;
}
if(locationID() != to_merge->locationID() || flag() != to_merge->flag()) {
_log(ITEM__ERROR, "%s (%u) in location %u, flag %u: Asked to merge with item %u in location %u, flag %u.", itemName().c_str(), itemID(), locationID(), flag(), to_merge->itemID(), to_merge->locationID(), to_merge->flag());
return false;
}
if(qty == 0)
qty = to_merge->quantity();
if(qty <= 0) {
_log(ITEM__ERROR, "%s (%u): Asked to merge with %d units of item %u.", itemName().c_str(), itemID(), qty, to_merge->itemID());
return false;
}
if(!AlterQuantity(qty, notify)) {
_log(ITEM__ERROR, "%s (%u): Failed to add quantity %d.", itemName().c_str(), itemID(), qty);
return false;
}
if(qty == to_merge->quantity()) {
to_merge->Delete();
} else if(!to_merge->AlterQuantity(-qty, notify)) {
_log(ITEM__ERROR, "%s (%u): Failed to remove quantity %d.", to_merge->itemName().c_str(), to_merge->itemID(), qty);
return false;
}
return true;
}
PyResult RamProxyService::Handle_CompleteJob(PyCallArgs &call) {
Call_CompleteJob args;
if(!args.Decode(&call.tuple)) {
_log(CLIENT__ERROR, "Failed to decode args.");
return NULL;
}
_VerifyCompleteJob(args, call.client);
// hundreds of variables to allocate ... maybe we can make struct for GetJobProperties and InstallJob?
uint32 installedItemID, ownerID, runs, licensedProductionRuns;
EVEItemFlags outputFlag;
EVERamActivity activity;
if(!m_db.GetJobProperties(args.jobID, installedItemID, ownerID, outputFlag, runs, licensedProductionRuns, activity))
return NULL;
// return item
InventoryItemRef installedItem = m_manager->item_factory.GetItem( installedItemID );
if( !installedItem )
return NULL;
installedItem->Move( installedItem->locationID(), outputFlag );
std::vector<RequiredItem> reqItems;
if( !m_db.GetRequiredItems( installedItem->typeID(), activity, reqItems ) )
return NULL;
// return materials which weren't completely consumed
std::vector<RequiredItem>::iterator cur, end;
cur = reqItems.begin();
end = reqItems.end();
for(; cur != end; cur++) {
if(!cur->isSkill && cur->damagePerJob != 1.0) {
uint32 quantity = static_cast<uint32>(cur->quantity * runs * (1.0 - cur->damagePerJob));
if(quantity == 0)
continue;
ItemData idata(
cur->typeID,
ownerID,
0, //temp location
outputFlag,
quantity
);
InventoryItemRef item = m_manager->item_factory.SpawnItem( idata );
if( !item )
return NULL;
item->Move(args.containerID, outputFlag);
}
}
// if not cancelled, realize result of activity
if(!args.cancel) {
switch(activity) {
/*
* Manufacturing
*/
case ramActivityManufacturing: {
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
ItemData idata(
bp->productTypeID(),
ownerID,
0, // temp location
outputFlag,
bp->productType().portionSize() * runs
);
InventoryItemRef item = m_manager->item_factory.SpawnItem( idata );
if( !item )
return NULL;
item->Move(args.containerID, outputFlag);
} break;
/*
* Time productivity research
*/
case ramActivityResearchingTimeProductivity: {
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
bp->AlterProductivityLevel( runs );
} break;
/*
* Material productivity research
*/
case ramActivityResearchingMaterialProductivity: {
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
bp->AlterMaterialLevel( runs) ;
} break;
/*
* Copying
*/
case ramActivityCopying: {
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
ItemData idata(
installedItem->typeID(),
ownerID,
0, //temp location
outputFlag,
runs
);
BlueprintData bdata(
true,
bp->materialLevel(),
bp->productivityLevel(),
licensedProductionRuns
);
BlueprintRef copy = m_manager->item_factory.SpawnBlueprint( idata, bdata );
if( !copy )
return NULL;
copy->Move(args.containerID, outputFlag);
} break;
/*
* The rest is unsupported
*/
case ramActivityResearchingTechnology:
case ramActivityDuplicating:
case ramActivityReverseEngineering:
case ramActivityInvention:
default: {
_log(SERVICE__ERROR, "Activity %u is currently unsupported.", activity);
} break;
}
}
// regardless on success of this, we will return NULL, so there's no condition here
m_db.CompleteJob(args.jobID, args.cancel ? ramCompletedStatusAbort : ramCompletedStatusDelivered);
return NULL;
}
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 RamProxyService::Handle_InstallJob(PyCallArgs &call) {
Call_InstallJob args;
if(!args.Decode(&call.tuple)) {
_log(SERVICE__ERROR, "Failed to decode args.");
return NULL;
}
// load installed item
InventoryItemRef installedItem = m_manager->item_factory.GetItem( args.installedItemID );
if( !installedItem )
return NULL;
// if output flag not set, put it where it was
if(args.flagOutput == flagAutoFit)
args.flagOutput = installedItem->flag();
// decode path to BOM location
PathElement pathBomLocation;
if( !pathBomLocation.Decode( args.bomPath->GetItem(0) ) ) {
_log(SERVICE__ERROR, "Failed to decode BOM location.");
return NULL;
}
// verify call
_VerifyInstallJob_Call( args, (InventoryItemRef)installedItem, pathBomLocation, call.client );
// this calculates some useful multipliers ... Rsp_InstallJob is used as container ...
Rsp_InstallJob rsp;
if(!_Calculate(args, (InventoryItemRef)installedItem, call.client, rsp))
return NULL;
// I understand sent maxJobStartTime as a limit, so this checks whether it's in limit
if(rsp.maxJobStartTime > call.byname["maxJobStartTime"]->AsInt()->value())
throw(PyException(MakeUserError("RamCannotGuaranteeStartTime")));
// query required items for activity
std::vector<RequiredItem> reqItems;
if(!m_db.GetRequiredItems(installedItem->typeID(), (EVERamActivity)args.activityID, reqItems))
return NULL;
// if 'quoteOnly' is 1 -> send quote, if 0 -> install job
if(call.byname["quoteOnly"]->AsInt()->value())
{
_EncodeBillOfMaterials(reqItems, rsp.materialMultiplier, rsp.charMaterialMultiplier, args.runs, rsp.bom);
_EncodeMissingMaterials(reqItems, pathBomLocation, call.client, rsp.materialMultiplier, rsp.charMaterialMultiplier, args.runs, rsp.missingMaterials);
return rsp.Encode();
}
else
{
// verify install
_VerifyInstallJob_Install(rsp, pathBomLocation, reqItems, args.runs, call.client);
// now we are sure everything from the client side is right, we can start it ...
// calculate proper start time
uint64 beginProductionTime = Win32TimeNow();
if(beginProductionTime < (uint32)rsp.maxJobStartTime)
beginProductionTime = rsp.maxJobStartTime;
// register our job
if( !m_db.InstallJob(
args.isCorpJob ? call.client->GetCorporationID() : call.client->GetCharacterID(),
call.client->GetCharacterID(),
args.installationAssemblyLineID,
installedItem->itemID(),
beginProductionTime,
beginProductionTime + uint64(rsp.productionTime) * Win32Time_Second,
args.description.c_str(),
args.runs,
(EVEItemFlags)args.flagOutput,
pathBomLocation.locationID,
args.licensedProductionRuns ) )
{
return NULL;
}
// do some activity-specific actions
switch(args.activityID) {
case ramActivityManufacturing: {
// decrease licensed production runs
BlueprintRef bp = BlueprintRef::StaticCast( installedItem );
if(!bp->infinite())
bp->AlterLicensedProductionRunsRemaining(-1);
}
}
// pay for assembly lines, move the item away
call.client->AddBalance(-rsp.cost);
installedItem->Move( installedItem->locationID(), flagFactoryBlueprint );
// query all items contained in "Bill of Materials" location
std::vector<InventoryItemRef> items;
_GetBOMItems( pathBomLocation, items );
std::vector<RequiredItem>::iterator cur, end;
cur = reqItems.begin();
end = reqItems.end();
for(; cur != end; cur++) {
if(cur->isSkill)
continue; // not interested
// calculate needed quantity
uint32 qtyNeeded = static_cast<uint32>(ceil(cur->quantity * rsp.materialMultiplier * args.runs));
if(cur->damagePerJob == 1.0)
qtyNeeded = static_cast<uint32>(ceil(qtyNeeded * rsp.charMaterialMultiplier)); // skill multiplier is applied only on fully consumed materials
std::vector<InventoryItemRef>::iterator curi, endi;
curi = items.begin();
endi = items.end();
// consume required materials
for(; curi != endi; curi++) {
if((*curi)->typeID() == cur->typeID && (*curi)->ownerID() == call.client->GetCharacterID()) {
if(qtyNeeded >= (*curi)->quantity()) {
qtyNeeded -= (*curi)->quantity();
(*curi)->Delete();
} else {
(*curi)->AlterQuantity(-(int32)qtyNeeded);
break; // we are done, stop searching
}
}
}
}
return NULL;
}
}
