void ARMCPU::initCPU(bool boot) {
IOLog("ARMCPU::initCPU(%p): we are here to serve!\n", this);
if(gIC) {
gIC->enableCPUInterrupt(this);
}
setCPUState(kIOCPUStateRunning);
}
void ARMCPU::initCPU(bool boot) {
PE_LOG("Setting active cpu state\n");
if(gIC) {
gIC->enableCPUInterrupt(this);
}
setCPUState(kIOCPUStateRunning);
}
void MacRISC2CPU::haltCPU(void)
{
OSIterator *childIterator;
IORegistryEntry *childEntry, *childDriver;
IOPCIBridge *pciDriver;
OSData *deviceTypeString;
UInt32 i;
setCPUState(kIOCPUStateStopped);
if (bootCPU)
{
// Some systems require special handling of Ultra-ATA at sleep.
// Call UniN to prepare for that, if necessary
uniN->callPlatformFunction ("setupUATAforSleep", false, (void *)0, (void *)0, (void *)0, (void *)0);
// Notify our pci children to save their state
if (!topLevelPCIBridgeCount) {
// First build list of top level bridges - only need to do once as these don't change
if ((childIterator = macRISC2PE->getChildIterator (gIOServicePlane)) != NULL) {
while ((childEntry = (IORegistryEntry *)(childIterator->getNextObject ())) != NULL) {
deviceTypeString = OSDynamicCast( OSData, childEntry->getProperty( "device_type" ));
if (deviceTypeString) {
if (!strcmp((const char *)deviceTypeString->getBytesNoCopy(), "pci")) {
childDriver = childEntry->copyChildEntry(gIOServicePlane);
if (childDriver) {
pciDriver = OSDynamicCast( IOPCIBridge, childDriver );
if (pciDriver)
if (topLevelPCIBridgeCount < kMaxPCIBridges)
// Remember this driver
topLevelPCIBridges[topLevelPCIBridgeCount++] = pciDriver;
else
kprintf ("MacRISC2CPU::haltCPU - warning, more than %d PCI bridges - cannot save/restore them all\n", kMaxPCIBridges);
childDriver->release();
}
}
}
}
childIterator->release();
}
}
for (i = 0; i < topLevelPCIBridgeCount; i++)
if (pciDriver = topLevelPCIBridges[i]) {
// Got the driver - send the message
pciDriver->setDevicePowerState (NULL, 2);
}
}
kprintf("MacRISC2CPU::haltCPU %ld Here!\n", getCPUNumber());
processor_exit(machProcessor);
}
bool AppleI386CPU::startCommon() {
if (startCommonCompleted) return true;
cpuIC = new AppleI386CPUInterruptController;
if (cpuIC == 0) return false;
if (cpuIC->initCPUInterruptController(1) != kIOReturnSuccess) return false;
cpuIC->attach(this);
cpuIC->registerCPUInterruptController();
setCPUState(kIOCPUStateUninitalized);
initCPU(true);
registerService();
startCommonCompleted = true;
return true;
}
bool ARMCPU::start(IOService* provider) {
IOLog("ARMCPU::start: Starting ARM CPU IOKit provider...\n");
if(!super::start(provider)) {
panic("Failed to start super IOCPU provider");
}
gIC = new ARMDumbInterruptController;
if(!gIC) {
panic("Failed to alloc class for dumb interrupt controller, we suck hard");
}
gIC->initCPUInterruptController(1);
gIC->attach(this);
gIC->registerCPUInterruptController();
setCPUState(kIOCPUStateUninitalized);
initCPU(true);
registerService();
return true;
}
bool AppleI386CPU::start(IOService * provider)
{
// kern_return_t result;
if (!super::start(provider)) return false;
cpuIC = new AppleI386CPUInterruptController;
if (cpuIC == 0) return false;
if (cpuIC->initCPUInterruptController(1) != kIOReturnSuccess)
return false;
cpuIC->attach(this);
cpuIC->registerCPUInterruptController();
#ifdef NOTYET
// Register this CPU with mach.
result = ml_processor_register((cpu_id_t)this, 0,
&machProcessor, &ipi_handler, true);
if (result == KERN_FAILURE) return false;
#endif
setCPUState(kIOCPUStateUninitalized);
#ifdef NOTYET
processor_start(machProcessor);
#endif
// Hack. Call initCPU() ourself since no one else will.
initCPU(true);
registerService();
return true;
}
void AppleI386CPU::initCPU(bool boot) {
cpuIC->enableCPUInterrupt(this);
setCPUState(kIOCPUStateRunning);
}
void MacRISC2CPU::initCPU(bool boot)
{
IOPCIBridge *pciDriver;
UInt32 i;
if (!boot && bootCPU) {
// Tell Uni-N to enter normal mode.
uniN->callPlatformFunction (uniN_setPowerState, false, (void *)kUniNNormal,
(void *)0, (void *)0, (void *)0);
if (!processorSpeedChange) {
// Notify our pci children to restore their state
for (i = 0; i < topLevelPCIBridgeCount; i++)
if (pciDriver = topLevelPCIBridges[i])
// Got the driver - send the message
pciDriver->setDevicePowerState (NULL, 3);
if (resetOnWake && (!gPHibernateState || !*gPHibernateState)) {
bool doAGPRecovery;
IOReturn result;
doAGPRecovery = false;
if (macRISC2PE->atiDriver) {
// Restore ATI config space
macRISC2PE->atiDriver->restoreDeviceState();
if (macRISC2PE->gpuSensor) {
// Call ATI through the sensor driver to prep for the DMA transaction
result = macRISC2PE->gpuSensor->callPlatformFunction (ati_prepareDMATransaction, false, (void *)reserveMemDesc, 0, 0, 0);
if (result == kIOReturnSuccess) {
if (macRISC2PE->atiDriver && macRISC2PE->agpBridgeDriver) {
// Issue resetAGP to turn on AGP
macRISC2PE->atiDriver->resetAGP();
// Turn off GART (turned on by resetAGP)
macRISC2PE->agpBridgeDriver->configWrite32(macRISC2PE->agpBridgeDriver->getBridgeSpace(), 0x94, 0);
// Call ATI to do the dummy DMA transfer as a test
result = macRISC2PE->gpuSensor->callPlatformFunction (ati_performDMATransaction, false, (void *)reserveMemDesc, 0, 0, 0);
// Issue resetAGP to turn off AGP (so it's in state later s/w expects)
macRISC2PE->atiDriver->resetAGP();
if (result == kIOReturnDMAError)
// DMA failed, to the recovery procedure
doAGPRecovery = true;
}
}
}
}
if (doAGPRecovery) {
kprintf("MacRISC2CPU::initCPU - AGP recovery required, issuing cpuReset\n");
pmu->callPlatformFunction (pmu_cpuReset, false, 0, 0, 0, 0);
while (1) /* spin waiting for restart*/ ;
}
}
// Continue the wake process
keyLargo->callPlatformFunction(keyLargo_restoreRegisterState, false, 0, 0, 0, 0);
// Enables the interrupts for this CPU.
if (macRISC2PE->getMachineType() == kMacRISC2TypePowerMac) {
haveSleptMPIC = false;
kprintf("MacRISC2CPU::initCPU %ld -> mpic->setUpForSleep off", getCPUNumber());
mpic->callPlatformFunction(mpic_setUpForSleep, false, (void *)false, (void *)getCPUNumber(), 0, 0);
}
}
}
kprintf("MacRISC2CPU::initCPU %ld Here!\n", getCPUNumber());
// Set time base.
if (bootCPU)
keyLargo->callPlatformFunction(keyLargo_syncTimeBase, false, 0, 0, 0, 0);
if (boot)
{
if (gCPUIC)
gCPUIC->enableCPUInterrupt(this);
else
panic ("MacRISC2CPU: gCPUIC uninitialized for CPU %ld\n", getCPUNumber());
// Register and enable IPIs.
cpuNub->registerInterrupt(0, this, OSMemberFunctionCast(IOInterruptAction, this, &MacRISC2CPU::ipiHandler), 0); // [4091924]
cpuNub->enableInterrupt(0);
}
// [5376988] - MPIC is no longer automatically setting priority to 0 so now must do this in all cases, not just non-boot case
long priority = 0;
mpic->callPlatformFunction(mpic_setCurrentTaskPriority, false, (void *)&priority, 0, 0, 0);
setCPUState(kIOCPUStateRunning);
}
bool MacRISC2CPU::start(IOService *provider)
{
kern_return_t result;
IORegistryEntry *cpusRegEntry, *uniNRegEntry, *mpicRegEntry, *devicetreeRegEntry;
OSIterator *cpusIterator;
OSData *tmpData;
IOService *service;
const OSSymbol *interruptControllerName;
OSData *interruptData;
OSArray *tmpArray;
UInt32 maxCPUs, uniNVersion, physCPU;
ml_processor_info_t processor_info;
#if enableUserClientInterface
DFScontMode = 0;
fWorkLoop = 0;
DFS_Status = false;
GPU_Status = kGPUHigh;
vStepped = false;
#endif
// callPlatformFunction symbols
mpic_getProvider = OSSymbol::withCString("mpic_getProvider");
mpic_getIPIVector= OSSymbol::withCString("mpic_getIPIVector");
mpic_setCurrentTaskPriority = OSSymbol::withCString("mpic_setCurrentTaskPriority");
mpic_setUpForSleep = OSSymbol::withCString("mpic_setUpForSleep");
mpic_dispatchIPI = OSSymbol::withCString("mpic_dispatchIPI");
keyLargo_restoreRegisterState = OSSymbol::withCString("keyLargo_restoreRegisterState");
keyLargo_syncTimeBase = OSSymbol::withCString("keyLargo_syncTimeBase");
keyLargo_saveRegisterState = OSSymbol::withCString("keyLargo_saveRegisterState");
keyLargo_turnOffIO = OSSymbol::withCString("keyLargo_turnOffIO");
keyLargo_writeRegUInt8 = OSSymbol::withCString("keyLargo_writeRegUInt8");
keyLargo_getHostKeyLargo = OSSymbol::withCString("keyLargo_getHostKeyLargo");
keyLargo_setPowerSupply = OSSymbol::withCString("setPowerSupply");
uniN_setPowerState = OSSymbol::withCString(kUniNSetPowerState);
uniN_setAACKDelay = OSSymbol::withCString(kUniNSetAACKDelay);
pmu_cpuReset = OSSymbol::withCString("cpuReset");
ati_prepareDMATransaction = OSSymbol::withCString(kIOFBPrepareDMAValueKey);
ati_performDMATransaction = OSSymbol::withCString(kIOFBPerformDMAValueKey);
macRISC2PE = OSDynamicCast(MacRISC2PE, getPlatform());
if (macRISC2PE == 0) return false;
if (!super::start(provider)) return false;
// Get the Uni-N Version.
uniNRegEntry = fromPath("/uni-n", gIODTPlane);
if (uniNRegEntry == 0) return false;
tmpData = OSDynamicCast(OSData, uniNRegEntry->getProperty("device-rev"));
if (tmpData == 0) return false;
uniNVersion = *(long *)tmpData->getBytesNoCopy();
// Find out if this is the boot CPU.
bootCPU = false;
tmpData = OSDynamicCast(OSData, provider->getProperty("state"));
if (tmpData == 0) return false;
if (!strcmp((char *)tmpData->getBytesNoCopy(), "running")) bootCPU = true;
// Count the CPUs.
numCPUs = 0;
cpusRegEntry = fromPath("/cpus", gIODTPlane);
if (cpusRegEntry == 0) return false;
cpusIterator = cpusRegEntry->getChildIterator(gIODTPlane);
while (cpusIterator->getNextObject()) numCPUs++;
cpusIterator->release();
// [3830950] - The bootCPU driver inits globals for all instances (like gCPUIC) so if we're not the
// boot CPU driver we wait here for that driver to finish its initialization
if ((numCPUs > 1) && !bootCPU)
// Wait for bootCPU driver to say it's up and running
(void) waitForService (resourceMatching ("BootCPU"));
// Limit the number of CPUs to one if uniNVersion is 1.0.7 or less.
if (uniNVersion < kUniNVersion107) numCPUs = 1;
// Limit the number of CPUs by the cpu=# boot arg.
if (PE_parse_boot_arg("cpus", &maxCPUs))
{
if (numCPUs > maxCPUs) numCPUs = maxCPUs;
}
ignoreSpeedChange = false;
doSleep = false;
topLevelPCIBridgeCount = 0;
// Get the "flush-on-lock" property from the first cpu node.
flushOnLock = false;
cpusRegEntry = fromPath("/cpus/@0", gIODTPlane);
if (cpusRegEntry == 0) return false;
if (cpusRegEntry->getProperty("flush-on-lock") != 0) flushOnLock = true;
// Set flushOnLock when numCPUs is not one.
if (numCPUs != 1) flushOnLock = true;
// If system is PowerMac3,5 (TowerG4), then set flushOnLock to disable nap
devicetreeRegEntry = fromPath("/", gIODTPlane);
tmpData = OSDynamicCast(OSData, devicetreeRegEntry->getProperty("model"));
if (tmpData == 0) return false;
#if 0
if(!strcmp((char *)tmpData->getBytesNoCopy(), "PowerMac3,5"))
flushOnLock = true;
#endif
// Get the physical CPU number from the "reg" property.
tmpData = OSDynamicCast(OSData, provider->getProperty("reg"));
if (tmpData == 0) return false;
physCPU = *(long *)tmpData->getBytesNoCopy();
setCPUNumber(physCPU);
// Get the gpio offset for soft reset from the "soft-reset" property.
tmpData = OSDynamicCast(OSData, provider->getProperty("soft-reset"));
if (tmpData == 0)
{
if (physCPU == 0)
soft_reset_offset = 0x5B;
else
soft_reset_offset = 0x5C;
}
else
soft_reset_offset = *(long *)tmpData->getBytesNoCopy();
// Get the gpio offset for timebase enable from the "timebase-enable" property.
tmpData = OSDynamicCast(OSData, provider->getProperty("timebase-enable"));
if (tmpData == 0)
timebase_enable_offset = 0x73;
else
timebase_enable_offset = *(long *)tmpData->getBytesNoCopy();
// See if reset is needed on wake
resetOnWake = (provider->getProperty ("reset-on-wake") != NULL);
if (resetOnWake) {
vm_address_t reserveMem;
reserveMem = (vm_address_t)IOMallocAligned (PAGE_SIZE, PAGE_SIZE); // Get one page (which we keep forever)
if (reserveMem) {
// map it
reserveMemDesc = IOMemoryDescriptor::withAddress (reserveMem, PAGE_SIZE, kIODirectionNone, NULL);
if (reserveMemDesc) {
// get the physical address
reserveMemPhys = reserveMemDesc->getPhysicalAddress();
}
}
}
// On machines with a 'vmin' property in the CPU Node we need to make sure to tell the kernel to
// ml_set_processor_voltage on needed processors.
needVSetting = (provider->getProperty( "vmin" ) != 0);
// While techincally the Apollo7PM machines do need AACK delay, it is already set in the bootROM
// since we boot slow. We don't want the machine to switch AACKdelay off when we run DFS high so
// setting this to false will take care of the issue.
needAACKDelay = false;
if (bootCPU)
{
gCPUIC = new IOCPUInterruptController;
if (gCPUIC == 0) return false;
if (gCPUIC->initCPUInterruptController(numCPUs) != kIOReturnSuccess)
return false;
gCPUIC->attach(this);
gCPUIC->registerCPUInterruptController();
}
// Get the l2cr value from the property list.
tmpData = OSDynamicCast(OSData, provider->getProperty("l2cr"));
if (tmpData != 0)
{
l2crValue = *(long *)tmpData->getBytesNoCopy() & 0x7FFFFFFF;
}
else
{
l2crValue = mfl2cr() & 0x7FFFFFFF;
}
// Wait for KeyLargo to show up.
keyLargo = waitForService(serviceMatching("KeyLargo"));
if (keyLargo == 0) return false;
keyLargo->callPlatformFunction (keyLargo_getHostKeyLargo, false, &keyLargo, 0, 0, 0);
if (keyLargo == 0)
{
kprintf ("MacRISC2CPU::start - getHostKeyLargo returned nil\n");
return false;
}
// Wait for MPIC to show up.
mpic = waitForService(serviceMatching("AppleMPICInterruptController"));
if (mpic == 0) return false;
// Set the Interrupt Properties for this cpu.
mpic->callPlatformFunction(mpic_getProvider, false, (void *)&mpicRegEntry, 0, 0, 0);
interruptControllerName = IODTInterruptControllerName(mpicRegEntry);
mpic->callPlatformFunction(mpic_getIPIVector, false, (void *)&physCPU, (void *)&interruptData, 0, 0);
if ((interruptControllerName == 0) || (interruptData == 0)) return false;
tmpArray = OSArray::withCapacity(1);
tmpArray->setObject(interruptControllerName);
cpuNub->setProperty(gIOInterruptControllersKey, tmpArray);
tmpArray->release();
tmpArray = OSArray::withCapacity(1);
tmpArray->setObject(interruptData);
cpuNub->setProperty(gIOInterruptSpecifiersKey, tmpArray);
tmpArray->release();
setCPUState(kIOCPUStateUninitalized);
// necessary bootCPU initialization is done, so release other CPU drivers to do their thing
// other drivers need to be unblocked *before* we call processor_start otherwise we deadlock
if (bootCPU)
publishResource ("BootCPU", this);
if (physCPU < numCPUs)
{
processor_info.cpu_id = (cpu_id_t)this;
processor_info.boot_cpu = bootCPU;
processor_info.start_paddr = 0x0100;
processor_info.l2cr_value = l2crValue;
processor_info.supports_nap = !flushOnLock;
processor_info.time_base_enable =
OSMemberFunctionCast(time_base_enable_t, this, &MacRISC2CPU::enableCPUTimeBase); // [4091924]
// Register this CPU with mach.
result = ml_processor_register(&processor_info, &machProcessor, &ipi_handler);
if (result == KERN_FAILURE) return false;
processor_start(machProcessor);
}
// Before to go to sleep we wish to disable the napping mode so that the PMU
// will not shutdown the system while going to sleep:
service = waitForService(serviceMatching("IOPMrootDomain"));
pmRootDomain = OSDynamicCast(IOPMrootDomain, service);
if (pmRootDomain != 0)
{
kprintf("Register MacRISC2CPU %ld to acknowledge power changes\n", getCPUNumber());
pmRootDomain->registerInterestedDriver(this);
// Join the Power Management Tree to receive setAggressiveness calls.
PMinit();
provider->joinPMtree(this);
}
// Finds PMU and UniN so in quiesce we can put the machine to sleep.
// I can not put these calls there because quiesce runs in interrupt
// context and waitForService may block.
pmu = waitForService(serviceMatching("ApplePMU"));
uniN = waitForService(serviceMatching("AppleUniN"));
if ((pmu == 0) || (uniN == 0)) return false;
if (macRISC2PE->hasPMon) {
// Find the platform monitor, if present
service = waitForService(resourceMatching("IOPlatformMonitor"));
ioPMon = OSDynamicCast (IOPlatformMonitor, service->getProperty("IOPlatformMonitor"));
if (!ioPMon)
return false;
ioPMonDict = OSDictionary::withCapacity(2);
if (!ioPMonDict) {
ioPMon = NULL;
} else {
ioPMonDict->setObject (kIOPMonTypeKey, OSSymbol::withCString (kIOPMonTypeCPUCon));
ioPMonDict->setObject (kIOPMonCPUIDKey, OSNumber::withNumber ((long long)getCPUNumber(), 32));
if (messageClient (kIOPMonMessageRegister, ioPMon, (void *)ioPMonDict) != kIOReturnSuccess) {
// IOPMon doesn't need to know about us, so don't bother with it
IOLog ("MacRISC2CPU::start - failed to register cpu with IOPlatformMonitor\n");
ioPMonDict->release();
ioPMon = NULL;
}
}
}
if (macRISC2PE->hasPPlugin) {
IOService *ioPPlugin;
OSDictionary *ioPPluginDict;
// Find the platform plugin, if present
service = waitForService(resourceMatching("IOPlatformPlugin"));
ioPPlugin = OSDynamicCast (IOService, service->getProperty("IOPlatformPlugin"));
if (!ioPPlugin)
return false;
ioPPluginDict = OSDictionary::withCapacity(2);
if (ioPPluginDict) {
ioPPluginDict->setObject ("cpu-id", OSNumber::withNumber ((long long)getCPUNumber(), 32));
// Register with the plugin - same API as for platform monitor
if (messageClient (kIOPMonMessageRegister, ioPPlugin, (void *)ioPPluginDict) != kIOReturnSuccess) {
// ioPPlugin doesn't need to know about us, so don't bother with it
IOLog ("MacRISC2CPU::start - failed to register cpu with IOPlatformPlugin\n");
}
ioPPluginDict->release(); // Not needed any more
}
}
#if enableUserClientInterface
//
// UserClient stuff...
//
fWorkLoop = getWorkLoop();
if(!fWorkLoop)
{
IOLog("MacRISC2CPU::start ERROR: failed to find a fWorkLoop\n");
}
if(!initTimers())
{
IOLog("MacRISC2CPU::start ERROR: failed to init the timers\n");
}
#endif
registerService();
return true;
}
