// The I/O APIC manages hardware interrupts for an SMP system. // http://www.intel.com/design/chipsets/datashts/29056601.pdf // See also picirq.c. #include "types.h" #include "defs.h" #include "traps.h" #define IOAPIC 0xFEC00000 // Default physical address of IO APIC #define REG_ID 0x00 // Register index: ID #define REG_VER 0x01 // Register index: version #define REG_TABLE 0x10 // Redirection table base // The redirection table starts at REG_TABLE and uses // two registers to configure each interrupt. // The first (low) register in a pair contains configuration bits. // The second (high) register contains a bitmask telling which // CPUs can serve that interrupt. #define INT_DISABLED 0x00010000 // Interrupt disabled #define INT_LEVEL 0x00008000 // Level-triggered (vs edge-) #define INT_ACTIVELOW 0x00002000 // Active low (vs high) #define INT_LOGICAL 0x00000800 // Destination is CPU id (vs APIC ID) volatile struct ioapic *ioapic; // IO APIC MMIO structure: write reg, then read or write data. struct ioapic { uint reg; uint pad[3]; uint data; }; static uint ioapicread(int reg) { ioapic->reg = reg; return ioapic->data; } static void ioapicwrite(int reg, uint data) { ioapic->reg = reg; ioapic->data = data; } void ioapicinit(void) { int i, id, maxintr; ioapic = (volatile struct ioapic*)IOAPIC; maxintr = (ioapicread(REG_VER) >> 16) & 0xFF; id = ioapicread(REG_ID) >> 24; if(id != ioapicid) cprintf("ioapicinit: id isn't equal to ioapicid; not a MP\n"); // Mark all interrupts edge-triggered, active high, disabled, // and not routed to any CPUs. for(i = 0; i <= maxintr; i++){ ioapicwrite(REG_TABLE+2*i, INT_DISABLED | (T_IRQ0 + i)); ioapicwrite(REG_TABLE+2*i+1, 0); } } void ioapicenable(int irq, int cpunum) { // Mark interrupt edge-triggered, active high, // enabled, and routed to the given cpunum, // which happens to be that cpu's APIC ID. ioapicwrite(REG_TABLE+2*irq, T_IRQ0 + irq); ioapicwrite(REG_TABLE+2*irq+1, cpunum << 24); }