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rpcs3/rpcs3/Emu/SysCalls/Modules/cellSpurs.cpp
Raul Tambre 0aed6d8c19 Add TaskAttribute2 initilization
2014-08-10 22:06:51 +03:00

1054 lines
30 KiB
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#include "stdafx.h"
#include "Utilities/Log.h"
#include "Emu/Memory/Memory.h"
#include "Emu/System.h"
#include "Emu/SysCalls/Modules.h"
#include "cellSpurs.h"
//void cellSpurs_init();
//Module cellSpurs(0x000a, cellSpurs_init);
Module *cellSpurs = nullptr;
int cellSpursInitialize(mem_ptr_t<CellSpurs> spurs, int nSpus, int spuPriority,
int ppuPriority, bool exitIfNoWork)
{
cellSpurs->Warning("cellSpursInitialize(spurs_addr=0x%x, nSpus=%u, spuPriority=%u, ppuPriority=%u, exitIfNoWork=%u)", spurs.GetAddr(), nSpus, spuPriority, ppuPriority, exitIfNoWork);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursInitialize : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
SPURSManagerAttribute *attr = new SPURSManagerAttribute(nSpus, spuPriority, ppuPriority, exitIfNoWork);
spurs->spurs = new SPURSManager(attr);
return CELL_OK;
}
int cellSpursFinalize(mem_ptr_t<CellSpurs> spurs)
{
cellSpurs->Warning("cellSpursFinalize(spurs_addr=0x%x)", spurs.GetAddr());
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursFinalize : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
spurs->spurs->Finalize();
return CELL_OK;
}
int cellSpursInitializeWithAttribute(mem_ptr_t<CellSpurs> spurs, const mem_ptr_t<CellSpursAttribute> attr)
{
cellSpurs->Warning("cellSpursInitializeWithAttribute(spurs_addr=0x%x, spurs_addr=0x%x)", spurs.GetAddr(), attr.GetAddr());
if ((spurs.GetAddr() % 128 != 0) || (attr.GetAddr() % 8 != 0))
{
cellSpurs->Error("cellSpursInitializeWithAttribute : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
spurs->spurs = new SPURSManager(attr->attr);
return CELL_OK;
}
int cellSpursInitializeWithAttribute2(mem_ptr_t<CellSpurs2> spurs, const mem_ptr_t<CellSpursAttribute> attr)
{
cellSpurs->Warning("cellSpursInitializeWithAttribute2(spurs_addr=0x%x, spurs_addr=0x%x)", spurs.GetAddr(), attr.GetAddr());
if ((spurs.GetAddr() % 128 != 0) || (attr.GetAddr() % 8 != 0))
{
cellSpurs->Error("cellSpursInitializeWithAttribute2 : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
spurs->spurs = new SPURSManager(attr->attr);
return CELL_OK;
}
int _cellSpursAttributeInitialize(mem_ptr_t<CellSpursAttribute> attr, int nSpus, int spuPriority, int ppuPriority, bool exitIfNoWork)
{
cellSpurs->Warning("_cellSpursAttributeInitialize(attr_addr=0x%x, nSpus=%u, spuPriority=%u, ppuPriority=%u, exitIfNoWork=%u)", attr.GetAddr(), nSpus, spuPriority, ppuPriority, exitIfNoWork);
if (attr.GetAddr() % 8 != 0)
{
cellSpurs->Error("_cellSpursAttributeInitialize : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
attr->attr = new SPURSManagerAttribute(nSpus, spuPriority, ppuPriority, exitIfNoWork);
return CELL_OK;
}
int cellSpursAttributeSetMemoryContainerForSpuThread(mem_ptr_t<CellSpursAttribute> attr, u32 container)
{
cellSpurs->Warning("cellSpursAttributeSetMemoryContainerForSpuThread(attr_addr=0x%x, container=0x%x)", attr.GetAddr(), container);
if (attr.GetAddr() % 8 != 0)
{
cellSpurs->Error("cellSpursAttributeSetMemoryContainerForSpuThread : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
attr->attr->_setMemoryContainerForSpuThread(container);
return CELL_OK;
}
int cellSpursAttributeSetNamePrefix(mem_ptr_t<CellSpursAttribute> attr, const mem8_t prefix, u32 size)
{
cellSpurs->Warning("cellSpursAttributeSetNamePrefix(attr_addr=0x%x, prefix_addr=0x%x, size=0x%x)", attr.GetAddr(), prefix.GetAddr(), size);
if (attr.GetAddr() % 8 != 0)
{
cellSpurs->Error("cellSpursAttributeSetNamePrefix : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
if (size > CELL_SPURS_NAME_MAX_LENGTH)
{
cellSpurs->Error("cellSpursAttributeSetNamePrefix : CELL_SPURS_CORE_ERROR_INVAL");
return CELL_SPURS_CORE_ERROR_INVAL;
}
attr->attr->_setNamePrefix(Memory.ReadString(prefix.GetAddr(), size).c_str(), size);
return CELL_OK;
}
int cellSpursAttributeEnableSpuPrintfIfAvailable(mem_ptr_t<CellSpursAttribute> attr)
{
cellSpurs->Todo("cellSpursAttributeEnableSpuPrintfIfAvailable(attr_addr=0x%x)", attr.GetAddr());
if (attr.GetAddr() % 8 != 0)
{
cellSpurs->Error("cellSpursAttributeEnableSpuPrintfIfAvailable : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursAttributeSetSpuThreadGroupType(mem_ptr_t<CellSpursAttribute> attr, int type)
{
cellSpurs->Warning("cellSpursAttributeSetSpuThreadGroupType(attr_addr=0x%x, type=%u)", attr.GetAddr(), type);
if (attr.GetAddr() % 8 != 0)
{
cellSpurs->Error("cellSpursAttributeSetNamePrefix : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
attr->attr->_setSpuThreadGroupType(type);
return CELL_OK;
}
int cellSpursAttributeEnableSystemWorkload(mem_ptr_t<CellSpursAttribute> attr, const u8 priority[CELL_SPURS_MAX_SPU],
u32 maxSpu, const bool isPreemptible[CELL_SPURS_MAX_SPU])
{
cellSpurs->Todo("cellSpursAttributeEnableSystemWorkload(attr_addr=0x%x, priority[%u], maxSpu=%u, isPreemptible[%u])", attr.GetAddr(), priority, maxSpu, isPreemptible);
if (attr.GetAddr() % 8 != 0)
{
cellSpurs->Error("cellSpursAttributeEnableSystemWorkload : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
for (int i = 0; i < CELL_SPURS_MAX_SPU; i++)
{
if (priority[i] != 1 || maxSpu == 0)
{
cellSpurs->Error("cellSpursAttributeEnableSystemWorkload : CELL_SPURS_CORE_ERROR_INVAL");
return CELL_SPURS_CORE_ERROR_INVAL;
}
}
return CELL_OK;
}
int cellSpursGetSpuThreadGroupId(mem_ptr_t<CellSpurs> spurs, mem32_t group)
{
cellSpurs->Todo("cellSpursGetSpuThreadGroupId(spurs_addr=0x%x, group_addr=0x%x)", spurs.GetAddr(), group.GetAddr());
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursGetSpuThreadGroupId : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursGetNumSpuThread(mem_ptr_t<CellSpurs> spurs, mem32_t nThreads)
{
cellSpurs->Todo("cellSpursGetNumSpuThread(spurs_addr=0x%x, nThreads_addr=0x%x)", spurs.GetAddr(), nThreads.GetAddr());
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursGetNumSpuThread : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursGetSpuThreadId(mem_ptr_t<CellSpurs> spurs, mem32_t thread, mem32_t nThreads)
{
cellSpurs->Todo("cellSpursGetSpuThreadId(spurs_addr=0x%x, thread_addr=0x%x, nThreads_addr=0x%x)", spurs.GetAddr(), thread.GetAddr(), nThreads.GetAddr());
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursGetSpuThreadId : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursSetMaxContention(mem_ptr_t<CellSpurs> spurs, u32 workloadId, u32 maxContention)
{
cellSpurs->Todo("cellSpursSetMaxContention(spurs_addr=0x%x, workloadId=%u, maxContention=%u)", spurs.GetAddr(), workloadId, maxContention);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursSetMaxContention : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursSetPriorities(mem_ptr_t<CellSpurs> spurs, u32 workloadId, const u8 priorities[CELL_SPURS_MAX_SPU])
{
cellSpurs->Todo("cellSpursSetPriorities(spurs_addr=0x%x, workloadId=%u, priorities[%u])", spurs.GetAddr(), workloadId, priorities);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursSetPriorities : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursSetPriority(mem_ptr_t<CellSpurs> spurs, u32 workloadId, u32 spuId, u32 priority)
{
cellSpurs->Todo("cellSpursSetPriority(spurs_addr=0x%x, workloadId=%u, spuId=%u, priority=%u)", spurs.GetAddr(), workloadId, spuId, priority);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursSetPriority : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursSetPreemptionVictimHints(mem_ptr_t<CellSpurs> spurs, const bool isPreemptible[CELL_SPURS_MAX_SPU])
{
cellSpurs->Todo("cellSpursSetPreemptionVictimHints(spurs_addr=0x%x, isPreemptible[%u])", spurs.GetAddr(), isPreemptible);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursSetPreemptionVictimHints : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursAttachLv2EventQueue(mem_ptr_t<CellSpurs> spurs, u32 queue, mem8_t port, int isDynamic)
{
cellSpurs->Warning("cellSpursAttachLv2EventQueue(spurs_addr=0x%x, queue=0x%x, port_addr=0x%x, isDynamic=%u)", spurs.GetAddr(), queue, port.GetAddr(), isDynamic);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursAttachLv2EventQueue : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
spurs->spurs->AttachLv2EventQueue(queue, port, isDynamic);
return CELL_OK;
}
int cellSpursDetachLv2EventQueue(mem_ptr_t<CellSpurs> spurs, u8 port)
{
cellSpurs->Warning("cellSpursDetachLv2EventQueue(spurs_addr=0x%x, port=0x%x)", spurs.GetAddr(), port);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursDetachLv2EventQueue : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
spurs->spurs->DetachLv2EventQueue(port);
return CELL_OK;
}
int cellSpursEnableExceptionEventHandler(mem_ptr_t<CellSpurs> spurs, bool flag)
{
cellSpurs->Todo("cellSpursEnableExceptionEventHandler(spurs_addr=0x%x, flag=%u)", spurs.GetAddr(), flag);
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEnableExceptionEventHandler : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursSetGlobalExceptionEventHandler(mem_ptr_t<CellSpurs> spurs, mem_func_ptr_t<CellSpursGlobalExceptionEventHandler> eaHandler, mem_ptr_t<void> arg)
{
cellSpurs->Todo("cellSpursSetGlobalExceptionEventHandler(spurs_addr=0x%x, eaHandler_addr=0x%x, arg_addr=0x%x,)", spurs.GetAddr(), eaHandler.GetAddr(), arg.GetAddr());
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursSetGlobalExceptionEventHandler : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursUnsetGlobalExceptionEventHandler(mem_ptr_t<CellSpurs> spurs)
{
cellSpurs->Todo("cellSpursUnsetGlobalExceptionEventHandler(spurs_addr=0x%x)", spurs.GetAddr());
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursUnsetGlobalExceptionEventHandler : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursGetInfo(mem_ptr_t<CellSpurs> spurs, mem_ptr_t<CellSpursInfo> info)
{
cellSpurs->Todo("cellSpursGetInfo(spurs_addr=0x%x, info_addr=0x%x)", spurs.GetAddr(), info.GetAddr());
if (spurs.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursGetInfo : CELL_SPURS_CORE_ERROR_ALIGN");
return CELL_SPURS_CORE_ERROR_ALIGN;
}
return CELL_OK;
}
int _cellSpursEventFlagInitialize(mem_ptr_t<CellSpurs> spurs, mem_ptr_t<CellSpursTaskset> taskset, mem_ptr_t<CellSpursEventFlag> eventFlag, u32 flagClearMode, u32 flagDirection)
{
cellSpurs->Warning("_cellSpursEventFlagInitialize(spurs_addr=0x%x, taskset_addr=0x%x, eventFlag_addr=0x%x, flagClearMode=%u, flagDirection=%u)", spurs.GetAddr(), taskset.GetAddr(), eventFlag.GetAddr(), flagClearMode, flagDirection);
if ((taskset.GetAddr() % 128 != 0) || (eventFlag.GetAddr() % 128 != 0))
{
cellSpurs->Error("_cellSpursEventFlagInitialize : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
eventFlag->eventFlag = new SPURSManagerEventFlag(flagClearMode, flagDirection);
return CELL_OK;
}
int cellSpursEventFlagAttachLv2EventQueue(mem_ptr_t<CellSpursEventFlag> eventFlag)
{
cellSpurs->Todo("cellSpursEventFlagAttachLv2EventQueue(eventFlag_addr=0x%x)", eventFlag.GetAddr());
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagAttachLv2EventQueue : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursEventFlagDetachLv2EventQueue(mem_ptr_t<CellSpursEventFlag> eventFlag)
{
cellSpurs->Todo("cellSpursEventFlagDetachLv2EventQueue(eventFlag_addr=0x%x)", eventFlag.GetAddr());
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagDetachLv2EventQueue : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursEventFlagWait(mem_ptr_t<CellSpursEventFlag> eventFlag, mem16_t mask, u32 mode)
{
cellSpurs->Todo("cellSpursEventFlagWait(eventFlag_addr=0x%x, mask=0x%x, mode=%u)", eventFlag.GetAddr(), mask.GetAddr(), mode);
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagWait : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursEventFlagClear(mem_ptr_t<CellSpursEventFlag> eventFlag, u16 bits)
{
cellSpurs->Todo("cellSpursEventFlagClear(eventFlag_addr=0x%x, bits=%u)", eventFlag.GetAddr(), bits);
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagClear : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursEventFlagSet(mem_ptr_t<CellSpursEventFlag> eventFlag, u16 bits)
{
cellSpurs->Todo("cellSpursEventFlagSet(eventFlag_addr=0x%x, bits=%u)", eventFlag.GetAddr(), bits);
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagSet : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursEventFlagTryWait(mem_ptr_t<CellSpursEventFlag> eventFlag, mem16_t mask, u32 mode)
{
cellSpurs->Todo("cellSpursEventFlagTryWait(eventFlag_addr=0x%x, mask_addr=0x%x, mode=%u)", eventFlag.GetAddr(), mask.GetAddr(), mode);
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagTryWait : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursEventFlagGetDirection(mem_ptr_t<CellSpursEventFlag> eventFlag, mem32_t direction)
{
cellSpurs->Warning("cellSpursEventFlagGetDirection(eventFlag_addr=0x%x, direction_addr=%u)", eventFlag.GetAddr(), direction.GetAddr());
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagGetDirection : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
direction = eventFlag->eventFlag->_getDirection();
return CELL_OK;
}
int cellSpursEventFlagGetClearMode(mem_ptr_t<CellSpursEventFlag> eventFlag, mem32_t clear_mode)
{
cellSpurs->Warning("cellSpursEventFlagGetClearMode(eventFlag_addr=0x%x, clear_mode_addr=%u)", eventFlag.GetAddr(), clear_mode.GetAddr());
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagGetClearMode : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
clear_mode = eventFlag->eventFlag->_getClearMode();
return CELL_OK;
}
int cellSpursEventFlagGetTasksetAddress(mem_ptr_t<CellSpursEventFlag> eventFlag, mem_ptr_t<CellSpursTaskset> taskset)
{
cellSpurs->Todo("cellSpursEventFlagGetTasksetAddress(eventFlag_addr=0x%x, taskset_addr=0x%x)", eventFlag.GetAddr(), taskset.GetAddr());
if (eventFlag.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursEventFlagTryWait : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int _cellSpursLFQueueInitialize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int _cellSpursLFQueuePushBody()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursLFQueueDetachLv2EventQueue()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursLFQueueAttachLv2EventQueue()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int _cellSpursLFQueuePopBody()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursLFQueueGetTasksetAddress()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int _cellSpursQueueInitialize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueuePopBody()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueuePushBody()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueAttachLv2EventQueue()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueDetachLv2EventQueue()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueGetTasksetAddress()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueClear()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueDepth()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueGetEntrySize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueSize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursQueueGetDirection()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursCreateJobChainWithAttribute()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursCreateJobChain()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJoinJobChain()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursKickJobChain()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int _cellSpursJobChainAttributeInitialize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursCreateTasksetWithAttribute()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursCreateTaskset(mem_ptr_t<CellSpurs> spurs, mem_ptr_t<CellSpursTaskset> taskset, u64 args, mem8_t priority, u32 maxContention)
{
cellSpurs->Todo("cellSpursCreateTaskset(spurs_addr=0x%x, taskset_addr=0x%x, args=0x%x, priority_addr=0x%x, maxContention=%u)", spurs.GetAddr(), taskset.GetAddr(), args, priority.GetAddr(), maxContention);
if ((spurs.GetAddr() % 128 != 0) || (taskset.GetAddr() % 128 != 0))
{
cellSpurs->Error("cellSpursCreateTaskset : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
SPURSManagerTasksetAttribute *tattr = new SPURSManagerTasksetAttribute(args, priority, maxContention);
taskset->taskset = new SPURSManagerTaskset(taskset.GetAddr(), tattr);
return CELL_OK;
}
int cellSpursJoinTaskset(mem_ptr_t<CellSpursTaskset> taskset)
{
cellSpurs->Todo("cellSpursJoinTaskset(taskset_addr=0x%x)", taskset.GetAddr());
if (taskset.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursJoinTaskset : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursGetTasksetId(mem_ptr_t<CellSpursTaskset> taskset, mem32_t workloadId)
{
cellSpurs->Todo("cellSpursGetTasksetId(taskset_addr=0x%x, workloadId_addr=0x%x)", taskset.GetAddr(), workloadId.GetAddr());
if (taskset.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursGetTasksetId : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursShutdownTaskset(mem_ptr_t<CellSpursTaskset> taskset)
{
cellSpurs->Todo("cellSpursShutdownTaskset(taskset_addr=0x%x)", taskset.GetAddr());
if (taskset.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursShutdownTaskset : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursCreateTask(mem_ptr_t<CellSpursTaskset> taskset, mem32_t taskID, mem_ptr_t<void> elf_addr,
mem_ptr_t<void> context_addr, u32 context_size, mem_ptr_t<CellSpursTaskLsPattern> lsPattern,
mem_ptr_t<CellSpursTaskArgument> argument)
{
cellSpurs->Todo("cellSpursCreateTask(taskset_addr=0x%x, taskID_addr=0x%x, elf_addr_addr=0x%x, context_addr_addr=0x%x, context_size=%u, lsPattern_addr=0x%x, argument_addr=0x%x)",
taskset.GetAddr(), taskID.GetAddr(), elf_addr.GetAddr(), context_addr.GetAddr(), context_size, lsPattern.GetAddr(), argument.GetAddr());
if (taskset.GetAddr() % 128 != 0)
{
cellSpurs->Error("cellSpursCreateTask : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int _cellSpursSendSignal(mem_ptr_t<CellSpursTaskset> taskset, u32 taskID)
{
cellSpurs->Todo("_cellSpursSendSignal(taskset_addr=0x%x, taskID=%u)", taskset.GetAddr(), taskID);
if (taskset.GetAddr() % 128 != 0)
{
cellSpurs->Error("_cellSpursSendSignal : CELL_SPURS_TASK_ERROR_ALIGN");
return CELL_SPURS_TASK_ERROR_ALIGN;
}
return CELL_OK;
}
int cellSpursCreateTaskWithAttribute()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTasksetAttributeSetName()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int _cellSpursTasksetAttribute2Initialize(mem_ptr_t<CellSpursTasksetAttribute2> attribute, u32 revision)
{
cellSpurs->Warning("_cellSpursTasksetAttribute2Initialize(attribute_addr=0x%x, revision=%d)", attribute.GetAddr(), revision);
attribute->revision = revision;
attribute->name_addr = NULL;
attribute->argTaskset = 0;
for (int i = 0; i < 8; i++)
{
attribute->priority[i] = 1;
}
attribute->maxContention = 8;
attribute->enableClearLs = 0;
attribute->CellSpursTaskNameBuffer_addr = 0;
return CELL_OK;
}
int cellSpursTaskExitCodeGet()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTaskExitCodeInitialize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTaskExitCodeTryGet()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTaskGetLoadableSegmentPattern()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTaskGetReadOnlyAreaPattern()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTaskGenerateLsPattern()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTaskAttributeInitialize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTaskAttributeSetExitCodeContainer()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int _cellSpursTaskAttribute2Initialize(mem_ptr_t<CellSpursTaskAttribute2> attribute, u32 revision)
{
cellSpurs->Warning("_cellSpursTaskAttribute2Initialize(attribute_addr=0x%x, revision=%d)", attribute.GetAddr(), revision);
attribute->revision = revision;
attribute->sizeContext = 0;
attribute->eaContext = NULL;
for (int c = 0; c < 4; c++)
{
attribute->lsPattern.u32[c] = 0;
}
for (int i = 0; i < 2; i++)
{
attribute->lsPattern.u64[i] = 0;
}
attribute->name_addr = 0;
return CELL_OK;
}
int cellSpursTaskGetContextSaveAreaSize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursCreateTaskset2()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursCreateTask2()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJoinTask2()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTryJoinTask2()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursDestroyTaskset2()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursCreateTask2WithBinInfo()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursLookUpTasksetAddress()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursTasksetGetSpursAddress()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpurssetExceptionEventHandler()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursUnsetExceptionEventHandler()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursGetTasksetInfo()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int _cellSpursTasksetAttributeInitialize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJobGuardInitialize()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJobChainAttributeSetName()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursShutdownJobChain()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJobChainAttributeSetHaltOnError()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJobChainAttributesetJobTypeMemoryCheck()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJobGuardNotify()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJobGuardReset()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursRunJobChain()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
int cellSpursJobChainGetError()
{
UNIMPLEMENTED_FUNC(cellSpurs);
return CELL_OK;
}
void cellSpurs_init()
{
// Core
cellSpurs->AddFunc(0xacfc8dbc, cellSpursInitialize);
cellSpurs->AddFunc(0xaa6269a8, cellSpursInitializeWithAttribute);
cellSpurs->AddFunc(0x30aa96c4, cellSpursInitializeWithAttribute2);
cellSpurs->AddFunc(0xca4c4600, cellSpursFinalize);
cellSpurs->AddFunc(0x95180230, _cellSpursAttributeInitialize);
cellSpurs->AddFunc(0x82275c1c, cellSpursAttributeSetMemoryContainerForSpuThread);
cellSpurs->AddFunc(0x07529113, cellSpursAttributeSetNamePrefix);
cellSpurs->AddFunc(0x1051d134, cellSpursAttributeEnableSpuPrintfIfAvailable);
cellSpurs->AddFunc(0xa839a4d9, cellSpursAttributeSetSpuThreadGroupType);
cellSpurs->AddFunc(0x9dcbcb5d, cellSpursAttributeEnableSystemWorkload);
cellSpurs->AddFunc(0x39c173fb, cellSpursGetSpuThreadGroupId);
cellSpurs->AddFunc(0xc56defb5, cellSpursGetNumSpuThread);
cellSpurs->AddFunc(0x6c960f6d, cellSpursGetSpuThreadId);
cellSpurs->AddFunc(0x1f402f8f, cellSpursGetInfo);
cellSpurs->AddFunc(0x84d2f6d5, cellSpursSetMaxContention);
cellSpurs->AddFunc(0x80a29e27, cellSpursSetPriorities);
// cellSpurs->AddFunc(<id>, cellSpursSetPriority);
cellSpurs->AddFunc(0x4de203e2, cellSpursSetPreemptionVictimHints);
cellSpurs->AddFunc(0xb9bc6207, cellSpursAttachLv2EventQueue);
cellSpurs->AddFunc(0x4e66d483, cellSpursDetachLv2EventQueue);
cellSpurs->AddFunc(0x32b94add, cellSpursEnableExceptionEventHandler);
cellSpurs->AddFunc(0x7517724a, cellSpursSetGlobalExceptionEventHandler);
cellSpurs->AddFunc(0x861237f8, cellSpursUnsetGlobalExceptionEventHandler);
// Event flag
cellSpurs->AddFunc(0x5ef96465, _cellSpursEventFlagInitialize);
cellSpurs->AddFunc(0x87630976, cellSpursEventFlagAttachLv2EventQueue);
cellSpurs->AddFunc(0x22aab31d, cellSpursEventFlagDetachLv2EventQueue);
cellSpurs->AddFunc(0x373523d4, cellSpursEventFlagWait);
cellSpurs->AddFunc(0x4ac7bae4, cellSpursEventFlagClear);
cellSpurs->AddFunc(0xf5507729, cellSpursEventFlagSet);
cellSpurs->AddFunc(0x6d2d9339, cellSpursEventFlagTryWait);
cellSpurs->AddFunc(0x890f9e5a, cellSpursEventFlagGetDirection);
cellSpurs->AddFunc(0x4d1e9373, cellSpursEventFlagGetClearMode);
cellSpurs->AddFunc(0x947efb0b, cellSpursEventFlagGetTasksetAddress);
// Taskset
cellSpurs->AddFunc(0x52cc6c82, cellSpursCreateTaskset);
cellSpurs->AddFunc(0xc10931cb, cellSpursCreateTasksetWithAttribute);
cellSpurs->AddFunc(0x16394a4e, _cellSpursTasksetAttributeInitialize);
cellSpurs->AddFunc(0xc2acdf43, _cellSpursTasksetAttribute2Initialize);
cellSpurs->AddFunc(0x652b70e2, cellSpursTasksetAttributeSetName);
cellSpurs->AddFunc(0x9f72add3, cellSpursJoinTaskset);
cellSpurs->AddFunc(0xe7dd87e1, cellSpursGetTasksetId);
cellSpurs->AddFunc(0xa789e631, cellSpursShutdownTaskset);
cellSpurs->AddFunc(0xbeb600ac, cellSpursCreateTask);
cellSpurs->AddFunc(0x1d46fedf, cellSpursCreateTaskWithAttribute);
cellSpurs->AddFunc(0xb8474eff, cellSpursTaskAttributeInitialize);
cellSpurs->AddFunc(0x8adadf65, _cellSpursTaskAttribute2Initialize);
cellSpurs->AddFunc(0xa121a224, cellSpursTaskAttributeSetExitCodeContainer);
cellSpurs->AddFunc(0x13ae18f3, cellSpursTaskExitCodeGet);
cellSpurs->AddFunc(0x34552fa6, cellSpursTaskExitCodeInitialize);
cellSpurs->AddFunc(0xe717ac73, cellSpursTaskExitCodeTryGet);
cellSpurs->AddFunc(0x1d344406, cellSpursTaskGetLoadableSegmentPattern);
cellSpurs->AddFunc(0x7cb33c2e, cellSpursTaskGetReadOnlyAreaPattern);
cellSpurs->AddFunc(0x9197915f, cellSpursTaskGenerateLsPattern);
cellSpurs->AddFunc(0x9034e538, cellSpursTaskGetContextSaveAreaSize);
cellSpurs->AddFunc(0xe0a6dbe4, _cellSpursSendSignal);
cellSpurs->AddFunc(0x4a6465e3, cellSpursCreateTaskset2);
cellSpurs->AddFunc(0xe14ca62d, cellSpursCreateTask2);
cellSpurs->AddFunc(0xa7a94892, cellSpursJoinTask2);
cellSpurs->AddFunc(0x838fa4f0, cellSpursTryJoinTask2);
cellSpurs->AddFunc(0x1ebcf459, cellSpursDestroyTaskset2);
cellSpurs->AddFunc(0xe4944a1c, cellSpursCreateTask2WithBinInfo);
cellSpurs->AddFunc(0x4cce88a9, cellSpursLookUpTasksetAddress);
cellSpurs->AddFunc(0x58d58fcf, cellSpursTasksetGetSpursAddress);
cellSpurs->AddFunc(0xd2e23fa9, cellSpurssetExceptionEventHandler);
cellSpurs->AddFunc(0x4c75deb8, cellSpursUnsetExceptionEventHandler);
cellSpurs->AddFunc(0x9fcb567b, cellSpursGetTasksetInfo);
// Job Chain
cellSpurs->AddFunc(0x60eb2dec, cellSpursCreateJobChain);
cellSpurs->AddFunc(0x303c19cd, cellSpursCreateJobChainWithAttribute);
cellSpurs->AddFunc(0x738e40e6, cellSpursShutdownJobChain);
cellSpurs->AddFunc(0xa7c066de, cellSpursJoinJobChain);
cellSpurs->AddFunc(0xbfea60fa, cellSpursKickJobChain);
cellSpurs->AddFunc(0xf31731bb, cellSpursRunJobChain);
cellSpurs->AddFunc(0x161da6a7, cellSpursJobChainGetError);
cellSpurs->AddFunc(0x3548f483, _cellSpursJobChainAttributeInitialize);
cellSpurs->AddFunc(0x9fef70c2, cellSpursJobChainAttributeSetName);
cellSpurs->AddFunc(0xbb68d76e, cellSpursJobChainAttributeSetHaltOnError);
cellSpurs->AddFunc(0x2cfccb99, cellSpursJobChainAttributesetJobTypeMemoryCheck);
// Job Guard
cellSpurs->AddFunc(0x68aaeba9, cellSpursJobGuardInitialize);
cellSpurs->AddFunc(0xd5d0b256, cellSpursJobGuardNotify);
cellSpurs->AddFunc(0x00af2519, cellSpursJobGuardReset);
// LFQueue
cellSpurs->AddFunc(0x011ee38b, _cellSpursLFQueueInitialize);
cellSpurs->AddFunc(0x8a85674d, _cellSpursLFQueuePushBody);
cellSpurs->AddFunc(0x1656d49f, cellSpursLFQueueAttachLv2EventQueue);
cellSpurs->AddFunc(0x73e06f91, cellSpursLFQueueDetachLv2EventQueue);
cellSpurs->AddFunc(0x35dae22b, _cellSpursLFQueuePopBody);
cellSpurs->AddFunc(0xb792ca1a, cellSpursLFQueueGetTasksetAddress);
// Queue
cellSpurs->AddFunc(0x082bfb09, _cellSpursQueueInitialize);
cellSpurs->AddFunc(0x91066667, cellSpursQueuePopBody);
cellSpurs->AddFunc(0x92cff6ed, cellSpursQueuePushBody);
cellSpurs->AddFunc(0xe5443be7, cellSpursQueueAttachLv2EventQueue);
cellSpurs->AddFunc(0x039d70b7, cellSpursQueueDetachLv2EventQueue);
cellSpurs->AddFunc(0x2093252b, cellSpursQueueGetTasksetAddress);
cellSpurs->AddFunc(0x247414d0, cellSpursQueueClear);
cellSpurs->AddFunc(0x35f02287, cellSpursQueueDepth);
cellSpurs->AddFunc(0x369fe03d, cellSpursQueueGetEntrySize);
cellSpurs->AddFunc(0x54876603, cellSpursQueueSize);
cellSpurs->AddFunc(0xec68442c, cellSpursQueueGetDirection);
}
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