* Copyright (c) 2008, The V3VEE Project <http://www.v3vee.org>
* All rights reserved.
*
- * Author: Jack Lange <jarusl@cs.northwestern.edu>
+ * Authors: Jack Lange <jarusl@cs.northwestern.edu>
+ * Peter Dinda <pdinda@northwestern.edu> (SMP)
*
* This is free software. You are permitted to use,
* redistribute, and modify it as specified in the file "V3VEE_LICENSE".
#include <devices/apic_regs.h>
#include <palacios/vmm.h>
#include <palacios/vmm_msr.h>
+#include <palacios/vmm_sprintf.h>
+#include <palacios/vm_guest.h>
+#include <palacios/vmm_types.h>
+
+
+#include <palacios/vmm_queue.h>
+#include <palacios/vmm_lock.h>
+
+/* The locking in this file is nasty.
+ * There are 3 different locking approaches that are taken, depending on the APIC operation
+ * 1. Queue locks. Actual irq insertions are done via queueing irq ops at the dest apic.
+ * The destination apic's core is responsible for draining the queue, and actually
+ * setting the vector table.
+ * 2. State lock. This is a standard lock taken when internal apic state is read/written.
+ * When an irq's destination is determined this lock is taken to examine the apic's
+ * addressability.
+ * 3. VM barrier lock. This is taken when actual VM core state is changed (via SIPI).
+ */
+
-#ifndef DEBUG_APIC
+#ifndef V3_CONFIG_DEBUG_APIC
#undef PrintDebug
#define PrintDebug(fmt, args...)
-#endif
+#else
+static char * shorthand_str[] = {
+ "(no shorthand)",
+ "(self)",
+ "(all)",
+ "(all-but-me)",
+};
+
+static char * deliverymode_str[] = {
+ "(fixed)",
+ "(lowest priority)",
+ "(SMI)",
+ "(reserved)",
+ "(NMI)",
+ "(INIT)",
+ "(Start Up)",
+ "(ExtInt)",
+};
+
+#endif
typedef enum { APIC_TMR_INT, APIC_THERM_INT, APIC_PERF_INT,
APIC_LINT0_INT, APIC_LINT1_INT, APIC_ERR_INT } apic_irq_type_t;
-#define APIC_FIXED_DELIVERY 0x0
-#define APIC_SMI_DELIVERY 0x2
-#define APIC_NMI_DELIVERY 0x4
-#define APIC_INIT_DELIVERY 0x5
-#define APIC_EXTINT_DELIVERY 0x7
+
+#define APIC_SHORTHAND_NONE 0x0
+#define APIC_SHORTHAND_SELF 0x1
+#define APIC_SHORTHAND_ALL 0x2
+#define APIC_SHORTHAND_ALL_BUT_ME 0x3
+
+#define APIC_DEST_PHYSICAL 0x0
+#define APIC_DEST_LOGICAL 0x1
-#define BASE_ADDR_MSR 0x0000001B
+#define BASE_ADDR_MSR 0x0000001B
#define DEFAULT_BASE_ADDR 0xfee00000
#define APIC_ID_OFFSET 0x020
#define EXT_INT_LOC_VEC_TBL_OFFSET2 0x520 // 0x500 - 0x530
#define EXT_INT_LOC_VEC_TBL_OFFSET3 0x530 // 0x500 - 0x530
-
-
struct apic_msr {
union {
- uint64_t val;
+ uint64_t value;
struct {
- uchar_t rsvd;
- uint_t bootstrap_cpu : 1;
- uint_t rsvd2 : 2;
- uint_t apic_enable : 1;
- ullong_t base_addr : 40;
- uint_t rsvd3 : 12;
+ uint8_t rsvd;
+ uint8_t bootstrap_cpu : 1;
+ uint8_t rsvd2 : 2;
+ uint8_t apic_enable : 1;
+ uint64_t base_addr : 40;
+ uint32_t rsvd3 : 12;
} __attribute__((packed));
} __attribute__((packed));
} __attribute__((packed));
+
+struct irq_queue_entry {
+ uint32_t vector;
+ int (*ack)(struct guest_info * core, uint32_t irq, void * private_data);
+ void * private_data;
+
+ struct list_head list_node;
+};
+
+
+
+
+typedef enum {INIT_ST,
+ SIPI,
+ STARTED} ipi_state_t;
+
+struct apic_dev_state;
+
struct apic_state {
addr_t base_addr;
/* MSRs */
- v3_msr_t base_addr_msr;
+ struct apic_msr base_addr_msr;
/* memory map registers */
struct int_cmd_reg int_cmd;
struct log_dst_reg log_dst;
struct dst_fmt_reg dst_fmt;
- struct arb_prio_reg arb_prio;
- struct task_prio_reg task_prio;
- struct proc_prio_reg proc_prio;
+ //struct arb_prio_reg arb_prio; // computed on the fly
+ //struct task_prio_reg task_prio; // stored in core.ctrl_regs.apic_tpr
+ //struct proc_prio_reg proc_prio; // computed on the fly
struct ext_apic_feature_reg ext_apic_feature;
struct spec_eoi_reg spec_eoi;
uint32_t tmr_cur_cnt;
uint32_t tmr_init_cnt;
-
+ uint32_t missed_ints;
struct local_vec_tbl_reg ext_intr_vec_tbl[4];
uint32_t rem_rd_data;
- uchar_t int_req_reg[32];
- uchar_t int_svc_reg[32];
- uchar_t int_en_reg[32];
- uchar_t trig_mode_reg[32];
-
+ ipi_state_t ipi_state;
+
+ uint8_t int_req_reg[32];
+ uint8_t int_svc_reg[32];
+ uint8_t int_en_reg[32];
+ uint8_t trig_mode_reg[32];
+
+ struct {
+ int (*ack)(struct guest_info * core, uint32_t irq, void * private_data);
+ void * private_data;
+ } irq_ack_cbs[256];
+
+ struct guest_info * core;
+
+ void * controller_handle;
+
+ struct v3_timer * timer;
+
+
+ struct {
+ v3_lock_t lock;
+
+ uint64_t num_entries;
+ struct list_head entries;
+ } irq_queue ;
+
uint32_t eoi;
};
-static void init_apic_state(struct apic_state * apic) {
+
+
+struct apic_dev_state {
+ int num_apics;
+
+ v3_lock_t state_lock;
+
+ struct apic_state apics[0];
+} __attribute__((packed));
+
+
+
+
+
+static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, uint_t length, void * priv_data);
+static int apic_write(struct guest_info * core, addr_t guest_addr, void * src, uint_t length, void * priv_data);
+
+static void set_apic_tpr(struct apic_state *apic, uint32_t val);
+
+
+// No locking done
+static void init_apic_state(struct apic_state * apic, uint32_t id) {
apic->base_addr = DEFAULT_BASE_ADDR;
- apic->base_addr_msr.value = 0x0000000000000900LL;
+
+ if (id == 0) {
+ // boot processor, enabled
+ apic->base_addr_msr.value = 0x0000000000000900LL;
+ } else {
+ // ap processor, enabled
+ apic->base_addr_msr.value = 0x0000000000000800LL;
+ }
+
+ // same base address regardless of ap or main
apic->base_addr_msr.value |= ((uint64_t)DEFAULT_BASE_ADDR);
- PrintDebug("Sizeof Interrupt Request Register %d, should be 32\n",
- (uint_t)sizeof(apic->int_req_reg));
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u: (init_apic_state): msr=0x%llx\n",id, apic->base_addr_msr.value);
+
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u: (init_apic_state): Sizeof Interrupt Request Register %d, should be 32\n",
+ id, (uint_t)sizeof(apic->int_req_reg));
memset(apic->int_req_reg, 0, sizeof(apic->int_req_reg));
memset(apic->int_svc_reg, 0, sizeof(apic->int_svc_reg));
apic->rem_rd_data = 0x00000000;
apic->tmr_init_cnt = 0x00000000;
apic->tmr_cur_cnt = 0x00000000;
+ apic->missed_ints = 0;
- // TODO:
- // We need to figure out what the APIC ID is....
- apic->lapic_id.val = 0x00000000;
+ // note that it's the *lower* 24 bits that are
+ // reserved, not the upper 24.
+ apic->lapic_id.val = 0;
+ apic->lapic_id.apic_id = id;
+
+ apic->ipi_state = INIT_ST;
// The P6 has 6 LVT entries, so we set the value to (6-1)...
apic->apic_ver.val = 0x80050010;
- apic->task_prio.val = 0x00000000;
- apic->arb_prio.val = 0x00000000;
- apic->proc_prio.val = 0x00000000;
+ set_apic_tpr(apic,0x00000000);
+ // note that arbitration priority and processor priority are derived values
+ // and are computed on the fly
+
apic->log_dst.val = 0x00000000;
apic->dst_fmt.val = 0xffffffff;
apic->spurious_int.val = 0x000000ff;
apic->ext_apic_feature.val = 0x00040007;
apic->ext_apic_ctrl.val = 0x00000000;
apic->spec_eoi.val = 0x00000000;
+
+
+ INIT_LIST_HEAD(&(apic->irq_queue.entries));
+ v3_lock_init(&(apic->irq_queue.lock));
+ apic->irq_queue.num_entries = 0;
+
}
-static int read_apic_msr(uint_t msr, v3_msr_t * dst, void * priv_data) {
- struct vm_device * dev = (struct vm_device *)priv_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
- PrintError("READING APIC BASE ADDR: HI=%x LO=%x\n", apic->base_addr_msr.hi, apic->base_addr_msr.lo);
- return -1;
+static int read_apic_msr(struct guest_info * core, uint_t msr, v3_msr_t * dst, void * priv_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)priv_data;
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
+
+ PrintDebug(core->vm_info, core, "apic %u: core %u: MSR read\n", apic->lapic_id.val, core->vcpu_id);
+
+ dst->value = apic->base_addr;
+
+ return 0;
}
-static int write_apic_msr(uint_t msr, v3_msr_t src, void * priv_data) {
- // struct vm_device * dev = (struct vm_device *)priv_data;
- // struct apic_state * apic = (struct apic_state *)dev->private_data;
+static int write_apic_msr(struct guest_info * core, uint_t msr, v3_msr_t src, void * priv_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)priv_data;
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
+ struct v3_mem_region * old_reg = v3_get_mem_region(core->vm_info, core->vcpu_id, apic->base_addr);
- PrintError("WRITING APIC BASE ADDR: HI=%x LO=%x\n", src.hi, src.lo);
- return -1;
+ PrintDebug(core->vm_info, core, "apic %u: core %u: MSR write\n", apic->lapic_id.val, core->vcpu_id);
+
+ if (old_reg == NULL) {
+ // uh oh...
+ PrintError(core->vm_info, core, "apic %u: core %u: APIC Base address region does not exit...\n",
+ apic->lapic_id.val, core->vcpu_id);
+ return -1;
+ }
+
+
+
+ v3_delete_mem_region(core->vm_info, old_reg);
+
+ apic->base_addr = src.value;
+
+ if (v3_hook_full_mem(core->vm_info, core->vcpu_id, apic->base_addr,
+ apic->base_addr + PAGE_SIZE_4KB,
+ apic_read, apic_write, apic_dev) == -1) {
+ PrintError(core->vm_info, core, "apic %u: core %u: Could not hook new APIC Base address\n",
+ apic->lapic_id.val, core->vcpu_id);
+
+ return -1;
+ }
+
+
+ return 0;
}
+
+
+
// irq_num is the bit offset into a 256 bit buffer...
-static int activate_apic_irq(struct apic_state * apic, uint32_t irq_num) {
+static int activate_apic_irq(struct apic_state * apic, uint32_t irq_num,
+ int (*ack)(struct guest_info * core, uint32_t irq, void * private_data),
+ void * private_data) {
int major_offset = (irq_num & ~0x00000007) >> 3;
int minor_offset = irq_num & 0x00000007;
- uchar_t * req_location = apic->int_req_reg + major_offset;
- uchar_t * en_location = apic->int_en_reg + major_offset;
- uchar_t flag = 0x1 << minor_offset;
+ uint8_t * req_location = apic->int_req_reg + major_offset;
+ uint8_t * en_location = apic->int_en_reg + major_offset;
+ uint8_t flag = 0x1 << minor_offset;
- if (irq_num <= 15) {
- PrintError("Attempting to raise an invalid interrupt: %d\n", irq_num);
- return -1;
- }
- PrintDebug("Raising APIC IRQ %d\n", irq_num);
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u: core %d: Raising APIC IRQ %d\n", apic->lapic_id.val, apic->core->vcpu_id, irq_num);
+
+ if (*req_location & flag) {
+ PrintDebug(VM_NONE, VCORE_NONE, "Interrupt %d coallescing\n", irq_num);
+ return 0;
+ }
if (*en_location & flag) {
*req_location |= flag;
+ apic->irq_ack_cbs[irq_num].ack = ack;
+ apic->irq_ack_cbs[irq_num].private_data = private_data;
+
+ return 1;
} else {
- PrintDebug("Interrupt not enabled... %.2x\n", *en_location);
- return 0;
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u: core %d: Interrupt not enabled... %.2x\n",
+ apic->lapic_id.val, apic->core->vcpu_id, *en_location);
}
return 0;
+static int add_apic_irq_entry(struct apic_state * apic, uint32_t irq_num,
+ int (*ack)(struct guest_info * core, uint32_t irq, void * private_data),
+ void * private_data) {
+ unsigned int flags = 0;
+ struct irq_queue_entry * entry = NULL;
+
+ if (irq_num <= 15) {
+ PrintError(VM_NONE, VCORE_NONE, "core %d: Attempting to raise an invalid interrupt: %d\n",
+ apic->core->vcpu_id, irq_num);
+ return -1;
+ }
+
+ entry = V3_Malloc(sizeof(struct irq_queue_entry));
+
+ if (entry == NULL) {
+ PrintError(VM_NONE, VCORE_NONE, "Could not allocate irq queue entry\n");
+ return -1;
+ }
+
+ entry->vector = irq_num;
+ entry->ack = ack;
+ entry->private_data = private_data;
+
+ flags = v3_lock_irqsave(apic->irq_queue.lock);
+
+ list_add_tail(&(entry->list_node), &(apic->irq_queue.entries));
+ apic->irq_queue.num_entries++;
+
+ v3_unlock_irqrestore(apic->irq_queue.lock, flags);
+
+
+ return 0;
+}
+
+static void drain_irq_entries(struct apic_state * apic) {
+
+ while (1) {
+ unsigned int flags = 0;
+ struct irq_queue_entry * entry = NULL;
+
+ flags = v3_lock_irqsave(apic->irq_queue.lock);
+
+ if (!list_empty(&(apic->irq_queue.entries))) {
+ struct list_head * q_entry = apic->irq_queue.entries.next;
+ entry = list_entry(q_entry, struct irq_queue_entry, list_node);
+
+ apic->irq_queue.num_entries--;
+ list_del(q_entry);
+ }
+
+ v3_unlock_irqrestore(apic->irq_queue.lock, flags);
+
+ if (entry == NULL) {
+ break;
+ }
+
+ activate_apic_irq(apic, entry->vector, entry->ack, entry->private_data);
+
+ V3_Free(entry);
+ }
+
+}
+
+
+
static int get_highest_isr(struct apic_state * apic) {
int i = 0, j = 0;
- // We iterate backwards to find the highest priority
+ // We iterate backwards to find the highest priority in-service request
for (i = 31; i >= 0; i--) {
- uchar_t * svc_major = apic->int_svc_reg + i;
+ uint8_t * svc_major = apic->int_svc_reg + i;
if ((*svc_major) & 0xff) {
for (j = 7; j >= 0; j--) {
- uchar_t flag = 0x1 << j;
+ uint8_t flag = 0x1 << j;
if ((*svc_major) & flag) {
return ((i * 8) + j);
}
static int get_highest_irr(struct apic_state * apic) {
int i = 0, j = 0;
- // We iterate backwards to find the highest priority
+ // We iterate backwards to find the highest priority enabled requested interrupt
for (i = 31; i >= 0; i--) {
- uchar_t * req_major = apic->int_req_reg + i;
-
+ uint8_t * req_major = apic->int_req_reg + i;
+ uint8_t * en_major = apic->int_en_reg + i;
+
if ((*req_major) & 0xff) {
for (j = 7; j >= 0; j--) {
- uchar_t flag = 0x1 << j;
- if ((*req_major) & flag) {
+ uint8_t flag = 0x1 << j;
+ if ((*req_major & *en_major) & flag) {
return ((i * 8) + j);
}
}
}
+static uint32_t get_isrv(struct apic_state *apic)
+{
+ int isr = get_highest_isr(apic);
+
+ if (isr>=0) {
+ return (uint32_t) isr;
+ } else {
+ return 0;
+ }
+}
+
+static uint32_t get_irrv(struct apic_state *apic)
+{
+ int irr = get_highest_irr(apic);
+
+ if (irr>=0) {
+ return (uint32_t) irr;
+ } else {
+ return 0;
+ }
+}
+
+
+static uint32_t get_apic_tpr(struct apic_state *apic)
+{
+ return (uint32_t) (apic->core->ctrl_regs.apic_tpr); // see comment in vmm_ctrl_regs.c for how this works
+
+}
+
+static void set_apic_tpr(struct apic_state *apic, uint32_t val)
+{
+ PrintDebug(VM_NONE, VCORE_NONE, "Set apic_tpr to 0x%x from apic reg path\n",val);
+ apic->core->ctrl_regs.apic_tpr = (uint64_t) val; // see comment in vmm_ctrl_regs.c for how this works
+}
+
+static uint32_t get_apic_ppr(struct apic_state *apic)
+{
+ uint32_t tpr = get_apic_tpr(apic);
+ uint32_t isrv = get_isrv(apic);
+ uint32_t tprlevel, isrlevel;
+ uint32_t ppr;
+
+ tprlevel = (tpr >> 4) & 0xf;
+ isrlevel = (isrv >> 4) & 0xf;
+
+ if (tprlevel>=isrlevel) {
+ ppr = tpr; // get class and subclass
+ } else {
+ ppr = (isrlevel << 4); // get class only
+ }
+
+ return ppr;
+}
+
+
+
+static uint32_t get_apic_apr(struct apic_state *apic)
+{
+ uint32_t tpr = get_apic_tpr(apic);
+ uint32_t isrv = get_isrv(apic);
+ uint32_t irrv = get_irrv(apic);
+ uint32_t tprlevel, isrlevel, irrlevel;
+
+ tprlevel = (tpr >> 4) & 0xf;
+ isrlevel = (isrv >> 4) & 0xf;
+ irrlevel = (irrv >> 4) & 0xf;
+ if (tprlevel >= isrlevel) {
+ if (tprlevel >= irrlevel) {
+ return tpr; // get both class and subclass
+ } else {
+ return irrlevel << 4; // get class only
+ }
+ } else {
+ if (isrlevel >= irrlevel) {
+ return isrlevel << 4; // get class only
+ } else {
+ return irrlevel << 4; // get class only
+ }
+ }
+
+}
-static int apic_do_eoi(struct apic_state * apic) {
+
+static int apic_do_eoi(struct guest_info * core, struct apic_state * apic) {
int isr_irq = get_highest_isr(apic);
if (isr_irq != -1) {
int major_offset = (isr_irq & ~0x00000007) >> 3;
int minor_offset = isr_irq & 0x00000007;
- uchar_t flag = 0x1 << minor_offset;
- uchar_t * svc_location = apic->int_svc_reg + major_offset;
+ uint8_t flag = 0x1 << minor_offset;
+ uint8_t * svc_location = apic->int_svc_reg + major_offset;
- PrintDebug("Received APIC EOI\n");
+ PrintDebug(core->vm_info, core, "apic %u: core ?: Received APIC EOI for IRQ %d\n", apic->lapic_id.val,isr_irq);
*svc_location &= ~flag;
-#ifdef CRAY_XT
+ if (apic->irq_ack_cbs[isr_irq].ack) {
+ apic->irq_ack_cbs[isr_irq].ack(core, isr_irq, apic->irq_ack_cbs[isr_irq].private_data);
+ }
+
+#ifdef V3_CONFIG_CRAY_XT
if ((isr_irq == 238) ||
(isr_irq == 239)) {
- PrintError("Acking IRQ %d\n", isr_irq);
+ PrintDebug(core->vm_info, core, "apic %u: core ?: Acking IRQ %d\n", apic->lapic_id.val,isr_irq);
}
if (isr_irq == 238) {
}
#endif
} else {
- PrintError("Spurious EOI...\n");
+ //PrintError(core->vm_info, core, "apic %u: core ?: Spurious EOI...\n",apic->lapic_id.val);
}
return 0;
switch (int_type) {
case APIC_TMR_INT:
vec_num = apic->tmr_vec_tbl.vec;
- del_mode = APIC_FIXED_DELIVERY;
+ del_mode = IPI_FIXED;
masked = apic->tmr_vec_tbl.mask;
break;
case APIC_THERM_INT:
break;
case APIC_ERR_INT:
vec_num = apic->err_vec_tbl.vec;
- del_mode = APIC_FIXED_DELIVERY;
+ del_mode = IPI_FIXED;
masked = apic->err_vec_tbl.mask;
break;
default:
- PrintError("Invalid APIC interrupt type\n");
+ PrintError(VM_NONE, VCORE_NONE, "apic %u: core ?: Invalid APIC interrupt type\n", apic->lapic_id.val);
return -1;
}
// interrupt is masked, don't send
if (masked == 1) {
- PrintDebug("Inerrupt is masked\n");
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u: core ?: Inerrupt is masked\n", apic->lapic_id.val);
return 0;
}
- if (del_mode == APIC_FIXED_DELIVERY) {
- //PrintDebug("Activating internal APIC IRQ %d\n", vec_num);
- return activate_apic_irq(apic, vec_num);
+ if (del_mode == IPI_FIXED) {
+ //PrintDebug(VM_NONE, VCORE_NONE, "Activating internal APIC IRQ %d\n", vec_num);
+ return add_apic_irq_entry(apic, vec_num, NULL, NULL);
} else {
- PrintError("Unhandled Delivery Mode\n");
+ PrintError(VM_NONE, VCORE_NONE, "apic %u: core ?: Unhandled Delivery Mode\n", apic->lapic_id.val);
return -1;
}
}
-static int apic_read(addr_t guest_addr, void * dst, uint_t length, void * priv_data) {
- struct vm_device * dev = (struct vm_device *)priv_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
+
+static inline int should_deliver_cluster_ipi(struct apic_dev_state * apic_dev,
+ struct guest_info * dst_core,
+ struct apic_state * dst_apic, uint8_t mda) {
+
+ int ret = 0;
+
+
+ if ( ((mda & 0xf0) == (dst_apic->log_dst.dst_log_id & 0xf0)) && /* (I am in the cluster and */
+ ((mda & 0x0f) & (dst_apic->log_dst.dst_log_id & 0x0f)) ) { /* I am in the set) */
+ ret = 1;
+ } else {
+ ret = 0;
+ }
+
+
+ if (ret == 1) {
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u core %u: accepting clustered IRQ (mda 0x%x == log_dst 0x%x)\n",
+ dst_apic->lapic_id.val, dst_core->vcpu_id, mda,
+ dst_apic->log_dst.dst_log_id);
+ } else {
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u core %u: rejecting clustered IRQ (mda 0x%x != log_dst 0x%x)\n",
+ dst_apic->lapic_id.val, dst_core->vcpu_id, mda,
+ dst_apic->log_dst.dst_log_id);
+ }
+
+ return ret;
+
+}
+
+static inline int should_deliver_flat_ipi(struct apic_dev_state * apic_dev,
+ struct guest_info * dst_core,
+ struct apic_state * dst_apic, uint8_t mda) {
+
+ int ret = 0;
+
+
+ if ((dst_apic->log_dst.dst_log_id & mda) != 0) { // I am in the set
+ ret = 1;
+ } else {
+ ret = 0;
+ }
+
+
+ if (ret == 1) {
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u core %u: accepting flat IRQ (mda 0x%x == log_dst 0x%x)\n",
+ dst_apic->lapic_id.val, dst_core->vcpu_id, mda,
+ dst_apic->log_dst.dst_log_id);
+ } else {
+ PrintDebug(VM_NONE, VCORE_NONE, "apic %u core %u: rejecting flat IRQ (mda 0x%x != log_dst 0x%x)\n",
+ dst_apic->lapic_id.val, dst_core->vcpu_id, mda,
+ dst_apic->log_dst.dst_log_id);
+ }
+
+
+ return ret;
+}
+
+
+
+static int should_deliver_ipi(struct apic_dev_state * apic_dev,
+ struct guest_info * dst_core,
+ struct apic_state * dst_apic, uint8_t mda) {
+ addr_t flags = 0;
+ int ret = 0;
+
+ flags = v3_lock_irqsave(apic_dev->state_lock);
+
+ if (dst_apic->dst_fmt.model == 0xf) {
+
+ if (mda == 0xff) {
+ /* always deliver broadcast */
+ ret = 1;
+ } else {
+ ret = should_deliver_flat_ipi(apic_dev, dst_core, dst_apic, mda);
+ }
+ } else if (dst_apic->dst_fmt.model == 0x0) {
+
+ if (mda == 0xff) {
+ /* always deliver broadcast */
+ ret = 1;
+ } else {
+ ret = should_deliver_cluster_ipi(apic_dev, dst_core, dst_apic, mda);
+ }
+
+ } else {
+ ret = -1;
+ }
+
+ v3_unlock_irqrestore(apic_dev->state_lock, flags);
+
+
+ if (ret == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic %u core %u: invalid destination format register value 0x%x for logical mode delivery.\n",
+ dst_apic->lapic_id.val, dst_core->vcpu_id, dst_apic->dst_fmt.model);
+ }
+
+ return ret;
+}
+
+
+
+
+// Only the src_apic pointer is used
+static int deliver_ipi(struct apic_state * src_apic,
+ struct apic_state * dst_apic,
+ struct v3_gen_ipi * ipi) {
+
+
+ struct guest_info * dst_core = dst_apic->core;
+
+
+ switch (ipi->mode) {
+
+ case IPI_FIXED:
+ case IPI_LOWEST_PRIO: {
+ // lowest priority -
+ // caller needs to have decided which apic to deliver to!
+
+ PrintDebug(VM_NONE, VCORE_NONE, "delivering IRQ %d to core %u\n", ipi->vector, dst_core->vcpu_id);
+
+ add_apic_irq_entry(dst_apic, ipi->vector, ipi->ack, ipi->private_data);
+
+ if (dst_apic != src_apic) {
+ PrintDebug(VM_NONE, VCORE_NONE, " non-local core with new interrupt, forcing it to exit now\n");
+ v3_interrupt_cpu(dst_core->vm_info, dst_core->pcpu_id, 0);
+ }
+
+ break;
+ }
+ case IPI_INIT: {
+
+ PrintDebug(VM_NONE, VCORE_NONE, " INIT delivery to core %u\n", dst_core->vcpu_id);
+
+ // TODO: any APIC reset on dest core (shouldn't be needed, but not sure...)
+
+ // Sanity check
+ if (dst_apic->ipi_state != INIT_ST) {
+ PrintError(VM_NONE, VCORE_NONE, " Warning: core %u is not in INIT state (mode = %d), ignored (assuming this is the deassert)\n",
+ dst_core->vcpu_id, dst_apic->ipi_state);
+ // Only a warning, since INIT INIT SIPI is common
+ break;
+ }
+
+ // We transition the target core to SIPI state
+ dst_apic->ipi_state = SIPI; // note: locking should not be needed here
+
+ // That should be it since the target core should be
+ // waiting in host on this transition
+ // either it's on another core or on a different preemptive thread
+ // in both cases, it will quickly notice this transition
+ // in particular, we should not need to force an exit here
+
+ PrintDebug(VM_NONE, VCORE_NONE, " INIT delivery done\n");
+
+ break;
+ }
+ case IPI_SIPI: {
+
+ // Sanity check
+ if (dst_apic->ipi_state != SIPI) {
+ PrintError(VM_NONE, VCORE_NONE, " core %u is not in SIPI state (mode = %d), ignored!\n",
+ dst_core->vcpu_id, dst_apic->ipi_state);
+ break;
+ }
+
+ v3_reset_vm_core(dst_core, ipi->vector);
+
+ PrintDebug(VM_NONE, VCORE_NONE, " SIPI delivery (0x%x -> 0x%x:0x0) to core %u\n",
+ ipi->vector, dst_core->segments.cs.selector, dst_core->vcpu_id);
+ // Maybe need to adjust the APIC?
+
+ // We transition the target core to SIPI state
+ dst_core->core_run_state = CORE_RUNNING; // note: locking should not be needed here
+ dst_apic->ipi_state = STARTED;
+
+ // As with INIT, we should not need to do anything else
+
+ PrintDebug(VM_NONE, VCORE_NONE, " SIPI delivery done\n");
+
+ break;
+ }
+
+ case IPI_EXTINT: // EXTINT
+ /* Two possible things to do here:
+ * 1. Ignore the IPI and assume the 8259a (PIC) will handle it
+ * 2. Add 32 to the vector and inject it...
+ * We probably just want to do 1 here, and assume the raise_irq() will hit the 8259a.
+ */
+ return 0;
+
+ case IPI_SMI:
+ case IPI_RES1: // reserved
+ case IPI_NMI:
+ default:
+ PrintError(VM_NONE, VCORE_NONE, "IPI %d delivery is unsupported\n", ipi->mode);
+ return -1;
+ }
+
+ return 0;
+
+}
+
+static struct apic_state * find_physical_apic(struct apic_dev_state * apic_dev, uint32_t dst_idx) {
+ struct apic_state * dst_apic = NULL;
+ addr_t flags;
+ int i;
+
+ flags = v3_lock_irqsave(apic_dev->state_lock);
+
+ if ( (dst_idx > 0) && (dst_idx < apic_dev->num_apics) ) {
+ // see if it simply is the core id
+ if (apic_dev->apics[dst_idx].lapic_id.apic_id == dst_idx) {
+ dst_apic = &(apic_dev->apics[dst_idx]);
+ }
+ }
+
+ for (i = 0; i < apic_dev->num_apics; i++) {
+ if (apic_dev->apics[i].lapic_id.apic_id == dst_idx) {
+ dst_apic = &(apic_dev->apics[i]);
+ }
+ }
+
+ v3_unlock_irqrestore(apic_dev->state_lock, flags);
+
+ return dst_apic;
+
+}
+
+
+static int route_ipi(struct apic_dev_state * apic_dev,
+ struct apic_state * src_apic,
+ struct v3_gen_ipi * ipi) {
+ struct apic_state * dest_apic = NULL;
+
+
+ PrintDebug(VM_NONE, VCORE_NONE, "apic: IPI %s %u from apic %p to %s %s %u\n",
+ deliverymode_str[ipi->mode],
+ ipi->vector,
+ src_apic,
+ (ipi->logical == 0) ? "(physical)" : "(logical)",
+ shorthand_str[ipi->dst_shorthand],
+ ipi->dst);
+
+
+ switch (ipi->dst_shorthand) {
+
+ case APIC_SHORTHAND_NONE: // no shorthand
+ if (ipi->logical == APIC_DEST_PHYSICAL) {
+
+ dest_apic = find_physical_apic(apic_dev, ipi->dst);
+
+ if (dest_apic == NULL) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Attempted send to unregistered apic id=%u\n", ipi->dst);
+ return -1;
+ }
+
+ if (deliver_ipi(src_apic, dest_apic, ipi) == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Could not deliver IPI\n");
+ return -1;
+ }
+
+
+ PrintDebug(VM_NONE, VCORE_NONE, "apic: done\n");
+
+ } else if (ipi->logical == APIC_DEST_LOGICAL) {
+
+ if (ipi->mode != IPI_LOWEST_PRIO) {
+ int i;
+ uint8_t mda = ipi->dst;
+
+ // logical, but not lowest priority
+ // we immediately trigger
+ // fixed, smi, reserved, nmi, init, sipi, etc
+
+
+ for (i = 0; i < apic_dev->num_apics; i++) {
+ int del_flag = 0;
+
+ dest_apic = &(apic_dev->apics[i]);
+
+ del_flag = should_deliver_ipi(apic_dev, dest_apic->core, dest_apic, mda);
+
+ if (del_flag == -1) {
+
+ PrintError(VM_NONE, VCORE_NONE, "apic: Error checking delivery mode\n");
+ return -1;
+ } else if (del_flag == 1) {
+
+ if (deliver_ipi(src_apic, dest_apic, ipi) == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Error: Could not deliver IPI\n");
+ return -1;
+ }
+ }
+ }
+ } else { // APIC_LOWEST_DELIVERY
+ struct apic_state * cur_best_apic = NULL;
+ uint32_t cur_best_apr;
+ uint8_t mda = ipi->dst;
+ int i;
+
+ // logical, lowest priority
+
+ for (i = 0; i < apic_dev->num_apics; i++) {
+ int del_flag = 0;
+
+ dest_apic = &(apic_dev->apics[i]);
+
+ del_flag = should_deliver_ipi(apic_dev, dest_apic->core, dest_apic, mda);
+
+ if (del_flag == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Error checking delivery mode\n");
+
+ return -1;
+ } else if (del_flag == 1) {
+ // update priority for lowest priority scan
+ addr_t flags = 0;
+
+ flags = v3_lock_irqsave(apic_dev->state_lock);
+
+ if (cur_best_apic == 0) {
+ cur_best_apic = dest_apic;
+ cur_best_apr = get_apic_apr(dest_apic) & 0xf0;
+ } else {
+ uint32_t dest_apr = get_apic_apr(dest_apic) & 0xf0;
+ if (dest_apr < cur_best_apr) {
+ cur_best_apic = dest_apic;
+ cur_best_apr = dest_apr;
+ }
+ }
+
+ v3_unlock_irqrestore(apic_dev->state_lock, flags);
+
+ }
+ }
+
+ // now we will deliver to the best one if it exists
+ if (!cur_best_apic) {
+ PrintDebug(VM_NONE, VCORE_NONE, "apic: lowest priority deliver, but no destinations!\n");
+ } else {
+ if (deliver_ipi(src_apic, cur_best_apic, ipi) == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Error: Could not deliver IPI\n");
+ return -1;
+ }
+ //V3_Print(VM_NONE, VCORE_NONE, "apic: logical, lowest priority delivery to apic %u\n",cur_best_apic->lapic_id.val);
+ }
+ }
+ }
+
+ break;
+
+ case APIC_SHORTHAND_SELF: // self
+
+ if (src_apic == NULL) { /* this is not an apic, but it's trying to send to itself??? */
+ PrintError(VM_NONE, VCORE_NONE, "apic: Sending IPI to self from generic IPI sender\n");
+ break;
+ }
+
+
+
+ if (ipi->logical == APIC_DEST_PHYSICAL) { /* physical delivery */
+ if (deliver_ipi(src_apic, src_apic, ipi) == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Could not deliver IPI to self (physical)\n");
+ return -1;
+ }
+ } else if (ipi->logical == APIC_DEST_LOGICAL) { /* logical delivery */
+ PrintError(VM_NONE, VCORE_NONE, "apic: use of logical delivery in self (untested)\n");
+
+ if (deliver_ipi(src_apic, src_apic, ipi) == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Could not deliver IPI to self (logical)\n");
+ return -1;
+ }
+ }
+
+ break;
+
+ case APIC_SHORTHAND_ALL:
+ case APIC_SHORTHAND_ALL_BUT_ME: { /* all and all-but-me */
+ /* assuming that logical verus physical doesn't matter
+ although it is odd that both are used */
+ int i;
+
+ for (i = 0; i < apic_dev->num_apics; i++) {
+ dest_apic = &(apic_dev->apics[i]);
+
+ if ((dest_apic != src_apic) || (ipi->dst_shorthand == APIC_SHORTHAND_ALL)) {
+ if (deliver_ipi(src_apic, dest_apic, ipi) == -1) {
+ PrintError(VM_NONE, VCORE_NONE, "apic: Error: Could not deliver IPI\n");
+ return -1;
+ }
+ }
+ }
+
+ break;
+ }
+ default:
+ PrintError(VM_NONE, VCORE_NONE, "apic: Error routing IPI, invalid Mode (%d)\n", ipi->dst_shorthand);
+ return -1;
+ }
+
+ return 0;
+}
+
+
+// External function, expected to acquire lock on apic
+static int apic_read(struct guest_info * core, addr_t guest_addr, void * dst, uint_t length, void * priv_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)(priv_data);
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
addr_t reg_addr = guest_addr - apic->base_addr;
struct apic_msr * msr = (struct apic_msr *)&(apic->base_addr_msr.value);
uint32_t val = 0;
- PrintDebug("Read apic address space (%p)\n",
- (void *)guest_addr);
+ PrintDebug(core->vm_info, core, "apic %u: core %u: at %p: Read apic address space (%p)\n",
+ apic->lapic_id.val, core->vcpu_id, apic, (void *)guest_addr);
if (msr->apic_enable == 0) {
- PrintError("Write to APIC address space with disabled APIC\n");
+ PrintError(core->vm_info, core, "apic %u: core %u: Read from APIC address space with disabled APIC, apic msr=0x%llx\n",
+ apic->lapic_id.val, core->vcpu_id, apic->base_addr_msr.value);
return -1;
}
/* Because "May not be supported" doesn't matter to Linux developers... */
/* if (length != 4) { */
- /* PrintError("Invalid apic read length (%d)\n", length); */
+ /* PrintError(core->vm_info, core, "Invalid apic read length (%d)\n", length); */
/* return -1; */
/* } */
case EOI_OFFSET:
// Well, only an idiot would read from a architectural write only register
// Oh, Hello Linux.
- // PrintError("Attempting to read from write only register\n");
+ // PrintError(core->vm_info, core, "Attempting to read from write only register\n");
// return -1;
break;
val = apic->apic_ver.val;
break;
case TPR_OFFSET:
- val = apic->task_prio.val;
+ val = get_apic_tpr(apic);
break;
case APR_OFFSET:
- val = apic->arb_prio.val;
+ val = get_apic_apr(apic);
break;
case PPR_OFFSET:
- val = apic->proc_prio.val;
+ val = get_apic_ppr(apic);
break;
case REMOTE_READ_OFFSET:
val = apic->rem_rd_data;
case SEOI_OFFSET:
default:
- PrintError("Read from Unhandled APIC Register: %x\n", (uint32_t)reg_addr);
+ PrintError(core->vm_info, core, "apic %u: core %u: Read from Unhandled APIC Register: %x (getting zero)\n",
+ apic->lapic_id.val, core->vcpu_id, (uint32_t)reg_addr);
return -1;
}
*val_ptr = *(((uint8_t *)&val) + byte_addr);
} else if ((length == 2) &&
- ((reg_addr & 0x3) == 0x3)) {
+ ((reg_addr & 0x3) != 0x3)) {
uint_t byte_addr = reg_addr & 0x3;
uint16_t * val_ptr = (uint16_t *)dst;
*val_ptr = *(((uint16_t *)&val) + byte_addr);
*val_ptr = val;
} else {
- PrintError("Invalid apic read length (%d)\n", length);
+ PrintError(core->vm_info, core, "apic %u: core %u: Invalid apic read length (%d)\n",
+ apic->lapic_id.val, core->vcpu_id, length);
return -1;
}
- PrintDebug("Read finished (val=%x)\n", *(uint32_t *)dst);
+ PrintDebug(core->vm_info, core, "apic %u: core %u: Read finished (val=%x)\n",
+ apic->lapic_id.val, core->vcpu_id, *(uint32_t *)dst);
return length;
}
-static int apic_write(addr_t guest_addr, void * src, uint_t length, void * priv_data) {
- struct vm_device * dev = (struct vm_device *)priv_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
+/**
+ *
+ */
+static int apic_write(struct guest_info * core, addr_t guest_addr, void * src, uint_t length, void * priv_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)(priv_data);
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
addr_t reg_addr = guest_addr - apic->base_addr;
struct apic_msr * msr = (struct apic_msr *)&(apic->base_addr_msr.value);
uint32_t op_val = *(uint32_t *)src;
+ addr_t flags = 0;
+
+ PrintDebug(core->vm_info, core, "apic %u: core %u: at %p and priv_data is at %p\n",
+ apic->lapic_id.val, core->vcpu_id, apic, priv_data);
- PrintDebug("Write to apic address space (%p) (val=%x)\n",
- (void *)guest_addr, *(uint32_t *)src);
+ PrintDebug(core->vm_info, core, "apic %u: core %u: write to address space (%p) (val=%x)\n",
+ apic->lapic_id.val, core->vcpu_id, (void *)guest_addr, *(uint32_t *)src);
if (msr->apic_enable == 0) {
- PrintError("Write to APIC address space with disabled APIC\n");
+ PrintError(core->vm_info, core, "apic %u: core %u: Write to APIC address space with disabled APIC, apic msr=0x%llx\n",
+ apic->lapic_id.val, core->vcpu_id, apic->base_addr_msr.value);
return -1;
}
if (length != 4) {
- PrintError("Invalid apic write length (%d)\n", length);
+ PrintError(core->vm_info, core, "apic %u: core %u: Invalid apic write length (%d)\n",
+ apic->lapic_id.val, length, core->vcpu_id);
return -1;
}
case TRIG_OFFSET7:
case PPR_OFFSET:
case EXT_APIC_FEATURE_OFFSET:
-#if 1
- PrintError("Attempting to write to read only register %p (ignored)\n", (void *)reg_addr);
-#else
- PrintError("Attempting to write to read only register %p (error)\n", (void *)reg_addr);
- return -1;
-#endif
+
+ PrintError(core->vm_info, core, "apic %u: core %u: Attempting to write to read only register %p (error)\n",
+ apic->lapic_id.val, core->vcpu_id, (void *)reg_addr);
+
break;
// Data registers
case APIC_ID_OFFSET:
+ //V3_Print(core->vm_info, core, "apic %u: core %u: my id is being changed to %u\n",
+ // apic->lapic_id.val, core->vcpu_id, op_val);
+
apic->lapic_id.val = op_val;
break;
case TPR_OFFSET:
- apic->task_prio.val = op_val;
+ set_apic_tpr(apic,op_val);
break;
case LDR_OFFSET:
+ PrintDebug(core->vm_info, core, "apic %u: core %u: setting log_dst.val to 0x%x\n",
+ apic->lapic_id.val, core->vcpu_id, op_val);
+ flags = v3_lock_irqsave(apic_dev->state_lock);
apic->log_dst.val = op_val;
+ v3_unlock_irqrestore(apic_dev->state_lock, flags);
break;
case DFR_OFFSET:
+ flags = v3_lock_irqsave(apic_dev->state_lock);
apic->dst_fmt.val = op_val;
+ v3_unlock_irqrestore(apic_dev->state_lock, flags);
break;
case SPURIOUS_INT_VEC_OFFSET:
apic->spurious_int.val = op_val;
apic->tmr_cur_cnt = op_val;
break;
case TMR_DIV_CFG_OFFSET:
+ PrintDebug(core->vm_info, core, "apic %u: core %u: setting tmr_div_cfg to 0x%x\n",
+ apic->lapic_id.val, core->vcpu_id, op_val);
apic->tmr_div_cfg.val = op_val;
break;
// Action Registers
case EOI_OFFSET:
- // do eoi
- apic_do_eoi(apic);
+ // do eoi
+ apic_do_eoi(core, apic);
break;
- case INT_CMD_LO_OFFSET:
- case INT_CMD_HI_OFFSET:
- // Unhandled Registers
+ case INT_CMD_LO_OFFSET: {
+ // execute command
+
+ struct v3_gen_ipi tmp_ipi;
+
+ apic->int_cmd.lo = op_val;
+
+ tmp_ipi.vector = apic->int_cmd.vec;
+ tmp_ipi.mode = apic->int_cmd.del_mode;
+ tmp_ipi.logical = apic->int_cmd.dst_mode;
+ tmp_ipi.trigger_mode = apic->int_cmd.trig_mode;
+ tmp_ipi.dst_shorthand = apic->int_cmd.dst_shorthand;
+ tmp_ipi.dst = apic->int_cmd.dst;
+
+ tmp_ipi.ack = NULL;
+ tmp_ipi.private_data = NULL;
+
+ // V3_Print(core->vm_info, core, "apic %u: core %u: sending cmd 0x%llx to apic %u\n",
+ // apic->lapic_id.val, core->vcpu_id,
+ // apic->int_cmd.val, apic->int_cmd.dst);
+
+ if (route_ipi(apic_dev, apic, &tmp_ipi) == -1) {
+ PrintError(core->vm_info, core, "IPI Routing failure\n");
+ return -1;
+ }
+
+ break;
+ }
+ case INT_CMD_HI_OFFSET: {
+ apic->int_cmd.hi = op_val;
+ //V3_Print(core->vm_info, core, "apic %u: core %u: writing command high=0x%x\n", apic->lapic_id.val, core->vcpu_id,apic->int_cmd.hi);
+ break;
+ }
+ // Unhandled Registers
case EXT_APIC_CMD_OFFSET:
case SEOI_OFFSET:
default:
- PrintError("Write to Unhandled APIC Register: %x\n", (uint32_t)reg_addr);
+ PrintError(core->vm_info, core, "apic %u: core %u: Write to Unhandled APIC Register: %x (ignored)\n",
+ apic->lapic_id.val, core->vcpu_id, (uint32_t)reg_addr);
+
return -1;
}
- PrintDebug("Write finished\n");
+ PrintDebug(core->vm_info, core, "apic %u: core %u: Write finished\n", apic->lapic_id.val, core->vcpu_id);
return length;
+
}
/* Interrupt Controller Functions */
-// returns 1 if an interrupt is pending, 0 otherwise
-static int apic_intr_pending(void * private_data) {
- struct vm_device * dev = (struct vm_device *)private_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
- int req_irq = get_highest_irr(apic);
- int svc_irq = get_highest_isr(apic);
+
+static int apic_intr_pending(struct guest_info * core, void * private_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data);
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
+ int req_irq = 0;
+ int svc_irq = 0;
+
+ // Activate all queued IRQ entries
+ drain_irq_entries(apic);
+
+ // Check for newly activated entries
+ req_irq = get_highest_irr(apic);
+ svc_irq = get_highest_isr(apic);
+
+ // PrintDebug(core->vm_info, core, "apic %u: core %u: req_irq=%d, svc_irq=%d\n",apic->lapic_id.val,info->vcpu_id,req_irq,svc_irq);
+
if ((req_irq >= 0) &&
(req_irq > svc_irq)) {
- return 1;
- }
- return 0;
+ // We have a new requested vector that is higher priority than
+ // the vector that is in-service
+
+ uint32_t ppr = get_apic_ppr(apic);
+
+ if ((req_irq & 0xf0) > (ppr & 0xf0)) {
+ // it's also higher priority than the current
+ // processor priority. Therefore this
+ // interrupt can go in now.
+ return 1;
+ } else {
+ // processor priority is currently too high
+ // for this interrupt to go in now.
+ // note that if tpr=0xf?, then ppr=0xf?
+ // and thus all vectors will be masked
+ // as required (tpr=0xf? => all masked)
+ return 0;
+ }
+ } else {
+ // the vector that is in service is higher
+ // priority than any new requested vector
+ return 0;
+ }
}
-static int apic_get_intr_number(void * private_data) {
- struct vm_device * dev = (struct vm_device *)private_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
+
+
+static int apic_get_intr_number(struct guest_info * core, void * private_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data);
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
int req_irq = get_highest_irr(apic);
int svc_irq = get_highest_isr(apic);
- if (svc_irq == -1) {
- return req_irq;
- } else if (svc_irq < req_irq) {
- return req_irq;
- }
- return -1;
+ // for the logic here, see the comments for apic_intr_pending
+ if ((req_irq >=0) &&
+ (req_irq > svc_irq)) {
+
+ uint32_t ppr = get_apic_ppr(apic);
+
+ if ((req_irq & 0xf0) > (ppr & 0xf0)) {
+ return req_irq;
+ } else {
+ // hmm, this should not have happened, but, anyway,
+ // no interrupt is currently ready to go in
+ return -1;
+ }
+ } else {
+ return -1;
+ }
}
-static int apic_raise_intr(void * private_data, int irq) {
-#ifdef CRAY_XT
- // The Seastar is connected directly to the LAPIC via LINT0 on the ICC bus
- if (irq == 238) {
- struct vm_device * dev = (struct vm_device *)private_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
- return activate_apic_irq(apic, irq);
- }
-#endif
- return 0;
-}
+int v3_apic_send_ipi(struct v3_vm_info * vm, struct v3_gen_ipi * ipi, void * dev_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)
+ (((struct vm_device *)dev_data)->private_data);
-static int apic_lower_intr(void * private_data, int irq) {
- return 0;
+ return route_ipi(apic_dev, NULL, ipi);
}
-static int apic_begin_irq(void * private_data, int irq) {
- struct vm_device * dev = (struct vm_device *)private_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
- int major_offset = (irq & ~0x00000007) >> 3;
- int minor_offset = irq & 0x00000007;
- uchar_t * req_location = apic->int_req_reg + major_offset;
- uchar_t * svc_location = apic->int_svc_reg + major_offset;
- uchar_t flag = 0x01 << minor_offset;
- *svc_location |= flag;
- *req_location &= ~flag;
-#ifdef CRAY_XT
- if ((irq == 238) || (irq == 239)) {
- PrintError("APIC: Begin IRQ %d (ISR=%x), (IRR=%x)\n", irq, *svc_location, *req_location);
+static int apic_begin_irq(struct guest_info * core, void * private_data, int irq) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)(private_data);
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
+ int major_offset = (irq & ~0x00000007) >> 3;
+ int minor_offset = irq & 0x00000007;
+ uint8_t *req_location = apic->int_req_reg + major_offset;
+ uint8_t *svc_location = apic->int_svc_reg + major_offset;
+ uint8_t flag = 0x01 << minor_offset;
+
+ if (*req_location & flag) {
+ // we will only pay attention to a begin irq if we
+ // know that we initiated it!
+ *svc_location |= flag;
+ *req_location &= ~flag;
+ } else {
+ // do nothing...
+ //PrintDebug(core->vm_info, core, "apic %u: core %u: begin irq for %d ignored since I don't own it\n",
+ // apic->lapic_id.val, core->vcpu_id, irq);
}
-#endif
return 0;
}
+/* Timer Functions */
+
+static void apic_inject_timer_intr(struct guest_info *core,
+ void * priv_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)(priv_data);
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
+ // raise irq
+ PrintDebug(core->vm_info, core, "apic %u: core %u: Raising APIC Timer interrupt (periodic=%d) (icnt=%d)\n",
+ apic->lapic_id.val, core->vcpu_id,
+ apic->tmr_vec_tbl.tmr_mode, apic->tmr_init_cnt);
+
+ if (apic_intr_pending(core, priv_data)) {
+ PrintDebug(core->vm_info, core, "apic %u: core %u: Overriding pending IRQ %d\n",
+ apic->lapic_id.val, core->vcpu_id,
+ apic_get_intr_number(core, priv_data));
+ }
-int v3_apic_raise_intr(struct vm_device * apic_dev, int intr_num) {
- struct apic_state * apic = (struct apic_state *)apic_dev->private_data;
- return activate_apic_irq(apic, intr_num);
+ if (activate_internal_irq(apic, APIC_TMR_INT) == -1) {
+ PrintError(core->vm_info, core, "apic %u: core %u: Could not raise Timer interrupt\n",
+ apic->lapic_id.val, core->vcpu_id);
+ }
+
+ return;
}
+
-/* Timer Functions */
-static void apic_update_time(ullong_t cpu_cycles, ullong_t cpu_freq, void * priv_data) {
- struct vm_device * dev = (struct vm_device *)priv_data;
- struct apic_state * apic = (struct apic_state *)dev->private_data;
+static void apic_update_time(struct guest_info * core,
+ uint64_t cpu_cycles, uint64_t cpu_freq,
+ void * priv_data) {
+ struct apic_dev_state * apic_dev = (struct apic_dev_state *)(priv_data);
+ struct apic_state * apic = &(apic_dev->apics[core->vcpu_id]);
+
// The 32 bit GCC runtime is a pile of shit
#ifdef __V3_64BIT__
uint64_t tmr_ticks = 0;
uint32_t tmr_ticks = 0;
#endif
- uchar_t tmr_div = *(uchar_t *)&(apic->tmr_div_cfg.val);
+ uint8_t tmr_div = *(uint8_t *)&(apic->tmr_div_cfg.val);
uint_t shift_num = 0;
if ((apic->tmr_init_cnt == 0) ||
( (apic->tmr_vec_tbl.tmr_mode == APIC_TMR_ONESHOT) &&
(apic->tmr_cur_cnt == 0))) {
- //PrintDebug("APIC timer not yet initialized\n");
+ //PrintDebug(core->vm_info, core, "apic %u: core %u: APIC timer not yet initialized\n",apic->lapic_id.val,info->vcpu_id);
return;
}
shift_num = 7;
break;
default:
- PrintError("Invalid Timer Divider configuration\n");
+ PrintError(core->vm_info, core, "apic %u: core %u: Invalid Timer Divider configuration\n",
+ apic->lapic_id.val, core->vcpu_id);
return;
}
tmr_ticks = cpu_cycles >> shift_num;
- PrintDebug("Timer Ticks: %p\n", (void *)tmr_ticks);
+ // PrintDebug(core->vm_info, core, "Timer Ticks: %p\n", (void *)tmr_ticks);
if (tmr_ticks < apic->tmr_cur_cnt) {
apic->tmr_cur_cnt -= tmr_ticks;
+#ifdef V3_CONFIG_APIC_ENQUEUE_MISSED_TMR_IRQS
+ if (apic->missed_ints && !apic_intr_pending(core, priv_data)) {
+ PrintDebug(core->vm_info, core, "apic %u: core %u: Injecting queued APIC timer interrupt.\n",
+ apic->lapic_id.val, core->vcpu_id);
+ apic_inject_timer_intr(core, priv_data);
+ apic->missed_ints--;
+ }
+#endif /* CONFIG_APIC_ENQUEUE_MISSED_TMR_IRQS */
} else {
tmr_ticks -= apic->tmr_cur_cnt;
apic->tmr_cur_cnt = 0;
- // raise irq
- PrintDebug("Raising APIC Timer interrupt (periodic=%d) (icnt=%d) (div=%d)\n",
- apic->tmr_vec_tbl.tmr_mode, apic->tmr_init_cnt, shift_num);
+ apic_inject_timer_intr(core, priv_data);
- if (activate_internal_irq(apic, APIC_TMR_INT) == -1) {
- PrintError("Could not raise Timer interrupt\n");
- }
-
if (apic->tmr_vec_tbl.tmr_mode == APIC_TMR_PERIODIC) {
+ int queued_ints = tmr_ticks / apic->tmr_init_cnt;
tmr_ticks = tmr_ticks % apic->tmr_init_cnt;
apic->tmr_cur_cnt = apic->tmr_init_cnt - tmr_ticks;
+ apic->missed_ints += queued_ints;
}
}
-
+ return;
}
-
-
static struct intr_ctrl_ops intr_ops = {
.intr_pending = apic_intr_pending,
.get_intr_number = apic_get_intr_number,
- .raise_intr = apic_raise_intr,
.begin_irq = apic_begin_irq,
- .lower_intr = apic_lower_intr,
};
-static struct vm_timer_ops timer_ops = {
- .update_time = apic_update_time,
+static struct v3_timer_ops timer_ops = {
+ .update_timer = apic_update_time,
};
-static int apic_free(struct vm_device * dev) {
- struct guest_info * info = dev->vm;
+static int apic_free(struct apic_dev_state * apic_dev) {
+ int i = 0;
+ struct v3_vm_info * vm = NULL;
+
+ for (i = 0; i < apic_dev->num_apics; i++) {
+ struct apic_state * apic = &(apic_dev->apics[i]);
+ struct guest_info * core = apic->core;
+
+ vm = core->vm_info;
+
+ v3_remove_intr_controller(core, apic->controller_handle);
+
+ if (apic->timer) {
+ v3_remove_timer(core, apic->timer);
+ }
+
+ v3_lock_deinit(&(apic->irq_queue.lock));
- v3_unhook_msr(info, BASE_ADDR_MSR);
+ // unhook memory
+ }
+
+ v3_unhook_msr(vm, BASE_ADDR_MSR);
+
+ v3_lock_deinit(&(apic_dev->state_lock));
+
+ V3_Free(apic_dev);
return 0;
}
+#ifdef V3_CONFIG_CHECKPOINT
+
+#define KEY_MAX 128
+#define MAKE_KEY(x) snprintf(key,KEY_MAX,"%s%d",x,i);
+
+static int apic_save(struct v3_chkpt_ctx * ctx, void * private_data) {
+ struct apic_dev_state * apic_state = (struct apic_dev_state *)private_data;
+ int i = 0;
+ uint32_t temp;
+ char key[KEY_MAX];
+
+ V3_CHKPT_SAVE(ctx, "NUM_APICS", apic_state->num_apics,savefailout);
+
+ for (i = 0; i < apic_state->num_apics; i++) {
+ drain_irq_entries(&(apic_state->apics[i]));
+
+ MAKE_KEY("BASE_ADDR");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].base_addr,savefailout);
+ MAKE_KEY("BASE_ADDR_MSR");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].base_addr_msr,savefailout);
+ MAKE_KEY("LAPIC_ID");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].lapic_id,savefailout);
+ MAKE_KEY("APIC_VER");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].apic_ver,savefailout);
+ MAKE_KEY("EXT_APIC_CTRL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].ext_apic_ctrl,savefailout);
+ MAKE_KEY("LOCAL_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].local_vec_tbl,savefailout);
+ MAKE_KEY("TMR_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].tmr_vec_tbl,savefailout);
+ MAKE_KEY("TMR_DIV_CFG");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].tmr_div_cfg,savefailout);
+ MAKE_KEY("LINT0_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].lint0_vec_tbl,savefailout);
+ MAKE_KEY("LINT1_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].lint1_vec_tbl,savefailout);
+ MAKE_KEY("PERF_CTR_LOC_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].perf_ctr_loc_vec_tbl,savefailout);
+ MAKE_KEY("THERM_LOC_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].therm_loc_vec_tbl,savefailout);
+ MAKE_KEY("ERR_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].err_vec_tbl,savefailout);
+ MAKE_KEY("ERR_STATUS");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].err_status,savefailout);
+ MAKE_KEY("SPURIOUS_INT");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].spurious_int,savefailout);
+ MAKE_KEY("INT_CMD");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].int_cmd,savefailout);
+ MAKE_KEY("LOG_DST");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].log_dst,savefailout);
+ MAKE_KEY("DST_FMT");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].dst_fmt,savefailout);
+
+ // APR and PPR are stored only for compatability
+ // TPR is in APIC_TPR, APR and PPR are derived
+
+ temp = get_apic_apr(&(apic_state->apics[i]));
+ MAKE_KEY("ARB_PRIO");
+ V3_CHKPT_SAVE(ctx, key, temp,savefailout);
+ temp = get_apic_tpr(&(apic_state->apics[i]));
+ MAKE_KEY("TASK_PRIO");
+ V3_CHKPT_SAVE(ctx,key,temp,savefailout);
+ temp = get_apic_ppr(&(apic_state->apics[i]));
+ MAKE_KEY("PROC_PRIO");
+ V3_CHKPT_SAVE(ctx, key,temp,savefailout);
+
+ MAKE_KEY("EXT_APIC_FEATURE");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].ext_apic_feature,savefailout);
+ MAKE_KEY("SPEC_EOI");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].spec_eoi,savefailout);
+ MAKE_KEY("TMR_CUR_CNT");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].tmr_cur_cnt,savefailout);
+
+ MAKE_KEY("TMR_INIT_CNT");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].tmr_init_cnt,savefailout);
+ MAKE_KEY("EXT_INTR_VEC_TBL");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].ext_intr_vec_tbl,savefailout);
+
+ MAKE_KEY("REM_RD_DATA");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].rem_rd_data,savefailout);
+ MAKE_KEY("IPI_STATE");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].ipi_state,savefailout);
+ MAKE_KEY("INT_REQ_REG");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].int_req_reg,savefailout);
+ MAKE_KEY("INT_SVC_REG");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].int_svc_reg,savefailout);
+ MAKE_KEY("INT_EN_REG");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].int_en_reg,savefailout);
+ MAKE_KEY("TRIG_MODE_REG");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].trig_mode_reg,savefailout);
+ MAKE_KEY("EOI");
+ V3_CHKPT_SAVE(ctx, key, apic_state->apics[i].eoi,savefailout);
+
+ }
+
+ return 0;
+
+ savefailout:
+ PrintError(VM_NONE, VCORE_NONE, "Failed to save apic\n");
+ return -1;
+}
+
+static int apic_load(struct v3_chkpt_ctx * ctx, void * private_data) {
+ struct apic_dev_state *apic_state = (struct apic_dev_state *)private_data;
+ int i = 0;
+ uint32_t temp;
+ char key[KEY_MAX];
+
+ V3_CHKPT_LOAD(ctx,"NUM_APICS", apic_state->num_apics, loadfailout);
+
+ for (i = 0; i < apic_state->num_apics; i++) {
+ drain_irq_entries(&(apic_state->apics[i]));
+
+ MAKE_KEY("BASE_ADDR");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].base_addr,loadfailout);
+ MAKE_KEY("BASE_ADDR_MSR");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].base_addr_msr,loadfailout);
+ MAKE_KEY("LAPIC_ID");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].lapic_id,loadfailout);
+ MAKE_KEY("APIC_VER");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].apic_ver,loadfailout);
+ MAKE_KEY("EXT_APIC_CTRL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].ext_apic_ctrl,loadfailout);
+ MAKE_KEY("LOCAL_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].local_vec_tbl,loadfailout);
+ MAKE_KEY("TMR_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].tmr_vec_tbl,loadfailout);
+ MAKE_KEY("TMR_DIV_CFG");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].tmr_div_cfg,loadfailout);
+ MAKE_KEY("LINT0_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].lint0_vec_tbl,loadfailout);
+ MAKE_KEY("LINT1_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].lint1_vec_tbl,loadfailout);
+ MAKE_KEY("PERF_CTR_LOC_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].perf_ctr_loc_vec_tbl,loadfailout);
+ MAKE_KEY("THERM_LOC_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].therm_loc_vec_tbl,loadfailout);
+ MAKE_KEY("ERR_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].err_vec_tbl,loadfailout);
+ MAKE_KEY("ERR_STATUS");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].err_status,loadfailout);
+ MAKE_KEY("SPURIOUS_INT");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].spurious_int,loadfailout);
+ MAKE_KEY("INT_CMD");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].int_cmd,loadfailout);
+ MAKE_KEY("LOG_DST");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].log_dst,loadfailout);
+ MAKE_KEY("DST_FMT");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].dst_fmt,loadfailout);
+
+ // APR and PPR are stored only for compatability
+ // TPR is in APIC_TPR, APR and PPR are derived
+
+ MAKE_KEY("ARB_PRIO");
+ V3_CHKPT_LOAD(ctx, key, temp,loadfailout);
+ // discarded
+
+ MAKE_KEY("TASK_PRIO");
+ V3_CHKPT_LOAD(ctx,key,temp,loadfailout);
+ set_apic_tpr(&(apic_state->apics[i]),temp);
+
+ MAKE_KEY("PROC_PRIO");
+ V3_CHKPT_LOAD(ctx, key,temp,loadfailout);
+ // discarded
+
+
+ MAKE_KEY("EXT_APIC_FEATURE");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].ext_apic_feature,loadfailout);
+ MAKE_KEY("SPEC_EOI");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].spec_eoi,loadfailout);
+ MAKE_KEY("TMR_CUR_CNT");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].tmr_cur_cnt,loadfailout);
+
+ MAKE_KEY("TMR_INIT_CNT");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].tmr_init_cnt,loadfailout);
+ MAKE_KEY("EXT_INTR_VEC_TBL");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].ext_intr_vec_tbl,loadfailout);
+
+ MAKE_KEY("REM_RD_DATA");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].rem_rd_data,loadfailout);
+ MAKE_KEY("IPI_STATE");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].ipi_state,loadfailout);
+ MAKE_KEY("INT_REQ_REG");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].int_req_reg,loadfailout);
+ MAKE_KEY("INT_SVC_REG");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].int_svc_reg,loadfailout);
+ MAKE_KEY("INT_EN_REG");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].int_en_reg,loadfailout);
+ MAKE_KEY("TRIG_MODE_REG");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].trig_mode_reg,loadfailout);
+ MAKE_KEY("EOI");
+ V3_CHKPT_LOAD(ctx, key, apic_state->apics[i].eoi,loadfailout);
+ }
+
+
+ return 0;
+
+ loadfailout:
+ PrintError(VM_NONE,VCORE_NONE, "Failed to load apic\n");
+ return -1;
+
+}
+
+#endif
static struct v3_device_ops dev_ops = {
- .free = apic_free,
- .reset = NULL,
- .start = NULL,
- .stop = NULL,
+ .free = (int (*)(void *))apic_free,
+#ifdef V3_CONFIG_CHECKPOINT
+ .save = apic_save,
+ .load = apic_load
+#endif
};
-static int apic_init(struct guest_info * vm, void * cfg_data) {
- PrintDebug("Creating APIC\n");
+static int apic_init(struct v3_vm_info * vm, v3_cfg_tree_t * cfg) {
+ char * dev_id = v3_cfg_val(cfg, "ID");
+ struct apic_dev_state * apic_dev = NULL;
+ int i = 0;
+
+ PrintDebug(vm, VCORE_NONE, "apic: creating an APIC for each core\n");
- struct apic_state * apic = (struct apic_state *)V3_Malloc(sizeof(struct apic_state));
+ apic_dev = (struct apic_dev_state *)V3_Malloc(sizeof(struct apic_dev_state) +
+ sizeof(struct apic_state) * vm->num_cores);
- struct vm_device * dev = v3_allocate_device("LAPIC", &dev_ops, apic);
- if (v3_attach_device(vm, dev) == -1) {
- PrintError("Could not attach device %s\n", "LAPIC");
+ if (!apic_dev) {
+ PrintError(vm, VCORE_NONE, "Failed to allocate space for APIC\n");
return -1;
}
- v3_register_intr_controller(vm, &intr_ops, dev);
- v3_add_timer(vm, &timer_ops, dev);
+ apic_dev->num_apics = vm->num_cores;
+ v3_lock_init(&(apic_dev->state_lock));
+
+ struct vm_device * dev = v3_add_device(vm, dev_id, &dev_ops, apic_dev);
+
+ if (dev == NULL) {
+ PrintError(vm, VCORE_NONE, "apic: Could not attach device %s\n", dev_id);
+ V3_Free(apic_dev);
+ return -1;
+ }
+
+
+ for (i = 0; i < vm->num_cores; i++) {
+ struct apic_state * apic = &(apic_dev->apics[i]);
+ struct guest_info * core = &(vm->cores[i]);
+
+ apic->core = core;
+
+ init_apic_state(apic, i);
+
+ apic->controller_handle = v3_register_intr_controller(core, &intr_ops, apic_dev);
+
+ apic->timer = v3_add_timer(core, &timer_ops, apic_dev);
+
+ if (apic->timer == NULL) {
+ PrintError(vm, VCORE_NONE,"APIC: Failed to attach timer to core %d\n", i);
+ v3_remove_device(dev);
+ return -1;
+ }
+
+ v3_hook_full_mem(vm, core->vcpu_id, apic->base_addr, apic->base_addr + PAGE_SIZE_4KB, apic_read, apic_write, apic_dev);
+
+ PrintDebug(vm, VCORE_NONE, "apic %u: (setup device): done, my id is %u\n", i, apic->lapic_id.val);
+ }
+
+#ifdef V3_CONFIG_DEBUG_APIC
+ for (i = 0; i < vm->num_cores; i++) {
+ struct apic_state * apic = &(apic_dev->apics[i]);
+ PrintDebug(vm, VCORE_NONE, "apic: sanity check: apic %u (at %p) has id %u and msr value %llx and core at %p\n",
+ i, apic, apic->lapic_id.val, apic->base_addr_msr.value,apic->core);
+ }
+#endif
- init_apic_state(apic);
- v3_hook_msr(vm, BASE_ADDR_MSR, read_apic_msr, write_apic_msr, dev);
+ PrintDebug(vm, VCORE_NONE, "apic: priv_data is at %p\n", apic_dev);
- v3_hook_full_mem(vm, apic->base_addr, apic->base_addr + PAGE_SIZE_4KB, apic_read, apic_write, dev);
+ v3_hook_msr(vm, BASE_ADDR_MSR, read_apic_msr, write_apic_msr, apic_dev);
return 0;
}
-device_register("LAPIC", &apic_init)
+device_register("LAPIC", apic_init)