/* * This module supports the iSeries PCI bus interrupt handling * Copyright (C) 20yy * Copyright (C) 2004-2005 IBM Corporation * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the: * Free Software Foundation, Inc., * 59 Temple Place, Suite 330, * Boston, MA 02111-1307 USA * * Change Activity: * Created, December 13, 2000 by Wayne Holm * End Change Activity */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include "irq.h" #include "call_pci.h" /* This maps virtual irq numbers to real irqs */ unsigned int virt_irq_to_real_map[NR_IRQS]; /* The next available virtual irq number */ /* Note: the pcnet32 driver assumes irq numbers < 2 aren't valid. :( */ static int next_virtual_irq = 2; static long Pci_Interrupt_Count; static long Pci_Event_Count; enum XmPciLpEvent_Subtype { XmPciLpEvent_BusCreated = 0, // PHB has been created XmPciLpEvent_BusError = 1, // PHB has failed XmPciLpEvent_BusFailed = 2, // Msg to Secondary, Primary failed bus XmPciLpEvent_NodeFailed = 4, // Multi-adapter bridge has failed XmPciLpEvent_NodeRecovered = 5, // Multi-adapter bridge has recovered XmPciLpEvent_BusRecovered = 12, // PHB has been recovered XmPciLpEvent_UnQuiesceBus = 18, // Secondary bus unqiescing XmPciLpEvent_BridgeError = 21, // Bridge Error XmPciLpEvent_SlotInterrupt = 22 // Slot interrupt }; struct XmPciLpEvent_BusInterrupt { HvBusNumber busNumber; HvSubBusNumber subBusNumber; }; struct XmPciLpEvent_NodeInterrupt { HvBusNumber busNumber; HvSubBusNumber subBusNumber; HvAgentId deviceId; }; struct XmPciLpEvent { struct HvLpEvent hvLpEvent; union { u64 alignData; // Align on an 8-byte boundary struct { u32 fisr; HvBusNumber busNumber; HvSubBusNumber subBusNumber; HvAgentId deviceId; } slotInterrupt; struct XmPciLpEvent_BusInterrupt busFailed; struct XmPciLpEvent_BusInterrupt busRecovered; struct XmPciLpEvent_BusInterrupt busCreated; struct XmPciLpEvent_NodeInterrupt nodeFailed; struct XmPciLpEvent_NodeInterrupt nodeRecovered; } eventData; }; static void intReceived(struct XmPciLpEvent *eventParm, struct pt_regs *regsParm) { int irq; #ifdef CONFIG_IRQSTACKS struct thread_info *curtp, *irqtp; #endif ++Pci_Interrupt_Count; switch (eventParm->hvLpEvent.xSubtype) { case XmPciLpEvent_SlotInterrupt: irq = eventParm->hvLpEvent.xCorrelationToken; /* Dispatch the interrupt handlers for this irq */ #ifdef CONFIG_IRQSTACKS /* Switch to the irq stack to handle this */ curtp = current_thread_info(); irqtp = hardirq_ctx[smp_processor_id()]; if (curtp != irqtp) { irqtp->task = curtp->task; irqtp->flags = 0; call_ppc_irq_dispatch_handler(regsParm, irq, irqtp); irqtp->task = NULL; if (irqtp->flags) set_bits(irqtp->flags, &curtp->flags); } else #endif ppc_irq_dispatch_handler(regsParm, irq); HvCallPci_eoi(eventParm->eventData.slotInterrupt.busNumber, eventParm->eventData.slotInterrupt.subBusNumber, eventParm->eventData.slotInterrupt.deviceId); break; /* Ignore error recovery events for now */ case XmPciLpEvent_BusCreated: printk(KERN_INFO "intReceived: system bus %d created\n", eventParm->eventData.busCreated.busNumber); break; case XmPciLpEvent_BusError: case XmPciLpEvent_BusFailed: printk(KERN_INFO "intReceived: system bus %d failed\n", eventParm->eventData.busFailed.busNumber); break; case XmPciLpEvent_BusRecovered: case XmPciLpEvent_UnQuiesceBus: printk(KERN_INFO "intReceived: system bus %d recovered\n", eventParm->eventData.busRecovered.busNumber); break; case XmPciLpEvent_NodeFailed: case XmPciLpEvent_BridgeError: printk(KERN_INFO "intReceived: multi-adapter bridge %d/%d/%d failed\n", eventParm->eventData.nodeFailed.busNumber, eventParm->eventData.nodeFailed.subBusNumber, eventParm->eventData.nodeFailed.deviceId); break; case XmPciLpEvent_NodeRecovered: printk(KERN_INFO "intReceived: multi-adapter bridge %d/%d/%d recovered\n", eventParm->eventData.nodeRecovered.busNumber, eventParm->eventData.nodeRecovered.subBusNumber, eventParm->eventData.nodeRecovered.deviceId); break; default: printk(KERN_ERR "intReceived: unrecognized event subtype 0x%x\n", eventParm->hvLpEvent.xSubtype); break; } } static void XmPciLpEvent_handler(struct HvLpEvent *eventParm, struct pt_regs *regsParm) { #ifdef CONFIG_PCI ++Pci_Event_Count; if (eventParm && (eventParm->xType == HvLpEvent_Type_PciIo)) { switch (eventParm->xFlags.xFunction) { case HvLpEvent_Function_Int: intReceived((struct XmPciLpEvent *)eventParm, regsParm); break; case HvLpEvent_Function_Ack: printk(KERN_ERR "XmPciLpEvent_handler: unexpected ack received\n"); break; default: printk(KERN_ERR "XmPciLpEvent_handler: unexpected event function %d\n", (int)eventParm->xFlags.xFunction); break; } } else if (eventParm) printk(KERN_ERR "XmPciLpEvent_handler: Unrecognized PCI event type 0x%x\n", (int)eventParm->xType); else printk(KERN_ERR "XmPciLpEvent_handler: NULL event received\n"); #endif } /* * This is called by init_IRQ. set in ppc_md.init_IRQ by iSeries_setup.c * It must be called before the bus walk. */ void __init iSeries_init_IRQ(void) { /* Register PCI event handler and open an event path */ int xRc; xRc = HvLpEvent_registerHandler(HvLpEvent_Type_PciIo, &XmPciLpEvent_handler); if (xRc == 0) { xRc = HvLpEvent_openPath(HvLpEvent_Type_PciIo, 0); if (xRc != 0) printk(KERN_ERR "iSeries_init_IRQ: open event path " "failed with rc 0x%x\n", xRc); } else printk(KERN_ERR "iSeries_init_IRQ: register handler " "failed with rc 0x%x\n", xRc); } #define REAL_IRQ_TO_BUS(irq) ((((irq) >> 6) & 0xff) + 1) #define REAL_IRQ_TO_IDSEL(irq) ((((irq) >> 3) & 7) + 1) #define REAL_IRQ_TO_FUNC(irq) ((irq) & 7) /* * This will be called by device drivers (via enable_IRQ) * to enable INTA in the bridge interrupt status register. */ static void iSeries_enable_IRQ(unsigned int irq) { u32 bus, deviceId, function, mask; const u32 subBus = 0; unsigned int rirq = virt_irq_to_real_map[irq]; /* The IRQ has already been locked by the caller */ bus = REAL_IRQ_TO_BUS(rirq); function = REAL_IRQ_TO_FUNC(rirq); deviceId = (REAL_IRQ_TO_IDSEL(rirq) << 4) + function; /* Unmask secondary INTA */ mask = 0x80000000; HvCallPci_unmaskInterrupts(bus, subBus, deviceId, mask); } /* This is called by iSeries_activate_IRQs */ static unsigned int iSeries_startup_IRQ(unsigned int irq) { u32 bus, deviceId, function, mask; const u32 subBus = 0; unsigned int rirq = virt_irq_to_real_map[irq]; bus = REAL_IRQ_TO_BUS(rirq); function = REAL_IRQ_TO_FUNC(rirq); deviceId = (REAL_IRQ_TO_IDSEL(rirq) << 4) + function; /* Link the IRQ number to the bridge */ HvCallXm_connectBusUnit(bus, subBus, deviceId, irq); /* Unmask bridge interrupts in the FISR */ mask = 0x01010000 << function; HvCallPci_unmaskFisr(bus, subBus, deviceId, mask); iSeries_enable_IRQ(irq); return 0; } /* * This is called out of iSeries_fixup to activate interrupt * generation for usable slots */ void __init iSeries_activate_IRQs() { int irq; unsigned long flags; for_each_irq (irq) { irq_desc_t *desc = get_irq_desc(irq); if (desc && desc->handler && desc->handler->startup) { spin_lock_irqsave(&desc->lock, flags); desc->handler->startup(irq); spin_unlock_irqrestore(&desc->lock, flags); } } } /* this is not called anywhere currently */ static void iSeries_shutdown_IRQ(unsigned int irq) { u32 bus, deviceId, function, mask; const u32 subBus = 0; unsigned int rirq = virt_irq_to_real_map[irq]; /* irq should be locked by the caller */ bus = REAL_IRQ_TO_BUS(rirq); function = REAL_IRQ_TO_FUNC(rirq); deviceId = (REAL_IRQ_TO_IDSEL(rirq) << 4) + function; /* Invalidate the IRQ number in the bridge */ HvCallXm_connectBusUnit(bus, subBus, deviceId, 0); /* Mask bridge interrupts in the FISR */ mask = 0x01010000 << function; HvCallPci_maskFisr(bus, subBus, deviceId, mask); } /* * This will be called by device drivers (via disable_IRQ) * to disable INTA in the bridge interrupt status register. */ static void iSeries_disable_IRQ(unsigned int irq) { u32 bus, deviceId, function, mask; const u32 subBus = 0; unsigned int rirq = virt_irq_to_real_map[irq]; /* The IRQ has already been locked by the caller */ bus = REAL_IRQ_TO_BUS(rirq); function = REAL_IRQ_TO_FUNC(rirq); deviceId = (REAL_IRQ_TO_IDSEL(rirq) << 4) + function; /* Mask secondary INTA */ mask = 0x80000000; HvCallPci_maskInterrupts(bus, subBus, deviceId, mask); } /* * Need to define this so ppc_irq_dispatch_handler will NOT call * enable_IRQ at the end of interrupt handling. However, this does * nothing because there is not enough information provided to do * the EOI HvCall. This is done by XmPciLpEvent.c */ static void iSeries_end_IRQ(unsigned int irq) { } static hw_irq_controller iSeries_IRQ_handler = { .typename = "iSeries irq controller", .startup = iSeries_startup_IRQ, .shutdown = iSeries_shutdown_IRQ, .enable = iSeries_enable_IRQ, .disable = iSeries_disable_IRQ, .end = iSeries_end_IRQ }; /* * This is called out of iSeries_scan_slot to allocate an IRQ for an EADS slot * It calculates the irq value for the slot. * Note that subBusNumber is always 0 (at the moment at least). */ int __init iSeries_allocate_IRQ(HvBusNumber busNumber, HvSubBusNumber subBusNumber, HvAgentId deviceId) { unsigned int realirq, virtirq; u8 idsel = (deviceId >> 4); u8 function = deviceId & 7; virtirq = next_virtual_irq++; realirq = ((busNumber - 1) << 6) + ((idsel - 1) << 3) + function; virt_irq_to_real_map[virtirq] = realirq; irq_desc[virtirq].handler = &iSeries_IRQ_handler; return virtirq; } int virt_irq_create_mapping(unsigned int real_irq) { BUG(); /* Don't call this on iSeries, yet */ return 0; } void virt_irq_init(void) { return; }