Bochs/bochs/cpu/apic.h
2015-10-09 19:33:36 +00:00

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/////////////////////////////////////////////////////////////////////////
// $Id$
/////////////////////////////////////////////////////////////////////////
//
// Copyright (c) 2002-2015 Zwane Mwaikambo, Stanislav Shwartsman
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library 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
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA  02110-1301 USA
//
/////////////////////////////////////////////////////////////////////////
#ifndef BX_CPU_APIC_H
#define BX_CPU_APIC_H 1
#if BX_SUPPORT_APIC
#define APIC_LEVEL_TRIGGERED 1
#define APIC_EDGE_TRIGGERED 0
#define BX_LAPIC_BASE_ADDR 0xfee00000 // default Local APIC address
#define BX_NUM_LOCAL_APICS BX_SMP_PROCESSORS
#define BX_LAPIC_MAX_INTS 256
enum {
BX_APIC_GLOBALLY_DISABLED = 0,
BX_APIC_STATE_INVALID = 1,
BX_APIC_XAPIC_MODE = 2,
BX_APIC_X2APIC_MODE = 3
};
#define BX_XAPIC_EXT_SUPPORT_IER (1 << 0)
#define BX_XAPIC_EXT_SUPPORT_SEOI (1 << 1)
typedef Bit32u apic_dest_t; /* same definition in ioapic.h */
// local apic registers
#define BX_LAPIC_ID 0x020
#define BX_LAPIC_VERSION 0x030
#define BX_LAPIC_TPR 0x080
#define BX_LAPIC_ARBITRATION_PRIORITY 0x090
#define BX_LAPIC_PPR 0x0A0
#define BX_LAPIC_EOI 0x0B0
#define BX_LAPIC_RRD 0x0C0
#define BX_LAPIC_LDR 0x0D0
#define BX_LAPIC_DESTINATION_FORMAT 0x0E0
#define BX_LAPIC_SPURIOUS_VECTOR 0x0F0
#define BX_LAPIC_ISR1 0x100
#define BX_LAPIC_ISR2 0x110
#define BX_LAPIC_ISR3 0x120
#define BX_LAPIC_ISR4 0x130
#define BX_LAPIC_ISR5 0x140
#define BX_LAPIC_ISR6 0x150
#define BX_LAPIC_ISR7 0x160
#define BX_LAPIC_ISR8 0x170
#define BX_LAPIC_TMR1 0x180
#define BX_LAPIC_TMR2 0x190
#define BX_LAPIC_TMR3 0x1A0
#define BX_LAPIC_TMR4 0x1B0
#define BX_LAPIC_TMR5 0x1C0
#define BX_LAPIC_TMR6 0x1D0
#define BX_LAPIC_TMR7 0x1E0
#define BX_LAPIC_TMR8 0x1F0
#define BX_LAPIC_IRR1 0x200
#define BX_LAPIC_IRR2 0x210
#define BX_LAPIC_IRR3 0x220
#define BX_LAPIC_IRR4 0x230
#define BX_LAPIC_IRR5 0x240
#define BX_LAPIC_IRR6 0x250
#define BX_LAPIC_IRR7 0x260
#define BX_LAPIC_IRR8 0x270
#define BX_LAPIC_ESR 0x280
#define BX_LAPIC_LVT_CMCI 0x2F0
#define BX_LAPIC_ICR_LO 0x300
#define BX_LAPIC_ICR_HI 0x310
#define BX_LAPIC_LVT_TIMER 0x320
#define BX_LAPIC_LVT_THERMAL 0x330
#define BX_LAPIC_LVT_PERFMON 0x340
#define BX_LAPIC_LVT_LINT0 0x350
#define BX_LAPIC_LVT_LINT1 0x360
#define BX_LAPIC_LVT_ERROR 0x370
#define BX_LAPIC_TIMER_INITIAL_COUNT 0x380
#define BX_LAPIC_TIMER_CURRENT_COUNT 0x390
#define BX_LAPIC_TIMER_DIVIDE_CFG 0x3E0
#define BX_LAPIC_SELF_IPI 0x3F0
// extended AMD
#define BX_LAPIC_EXT_APIC_FEATURE 0x400
#define BX_LAPIC_EXT_APIC_CONTROL 0x410
#define BX_LAPIC_SPECIFIC_EOI 0x420
#define BX_LAPIC_IER1 0x480
#define BX_LAPIC_IER2 0x490
#define BX_LAPIC_IER3 0x4A0
#define BX_LAPIC_IER4 0x4B0
#define BX_LAPIC_IER5 0x4C0
#define BX_LAPIC_IER6 0x4D0
#define BX_LAPIC_IER7 0x4E0
#define BX_LAPIC_IER8 0x4F0
class BOCHSAPI bx_local_apic_c : public logfunctions
{
bx_phy_address base_addr;
unsigned mode;
bx_bool xapic;
#if BX_CPU_LEVEL >= 6
Bit32u xapic_ext; // enabled extended XAPIC features
#endif
Bit32u apic_id; // 4 bit in legacy mode, 8 bit in XAPIC mode
// 32 bit in X2APIC mode
Bit32u apic_version_id;
bx_bool software_enabled;
Bit8u spurious_vector;
bx_bool focus_disable;
Bit32u task_priority; // Task priority (TPR)
Bit32u ldr; // Logical destination (LDR)
Bit32u dest_format; // Destination format (DFR)
// ISR=in-service register. When an IRR bit is cleared, the corresponding
// bit in ISR is set.
Bit8u isr[BX_LAPIC_MAX_INTS];
// TMR=trigger mode register. Cleared for edge-triggered interrupts
// and set for level-triggered interrupts. If set, local APIC must send
// EOI message to all other APICs.
Bit8u tmr[BX_LAPIC_MAX_INTS];
// IRR=interrupt request register. When an interrupt is triggered by
// the I/O APIC or another processor, it sets a bit in irr. The bit is
// cleared when the interrupt is acknowledged by the processor.
Bit8u irr[BX_LAPIC_MAX_INTS];
#if BX_CPU_LEVEL >= 6
// IER=interrupt enable register. Only vectors that are enabled in IER
// participare in APIC's computation of highest priority pending interrupt.
Bit8u ier[BX_LAPIC_MAX_INTS];
#endif
#define APIC_ERR_ILLEGAL_ADDR 0x80
#define APIC_ERR_RX_ILLEGAL_VEC 0x40
#define APIC_ERR_TX_ILLEGAL_VEC 0x20
#define X2APIC_ERR_REDIRECTIBLE_IPI 0x08
#define APIC_ERR_RX_ACCEPT_ERR 0x08
#define APIC_ERR_TX_ACCEPT_ERR 0x04
#define APIC_ERR_RX_CHECKSUM 0x02
#define APIC_ERR_TX_CHECKSUM 0x01
// Error status Register (ESR)
Bit32u error_status, shadow_error_status;
Bit32u icr_hi; // Interrupt command register (ICR)
Bit32u icr_lo;
#define APIC_LVT_ENTRIES 6
Bit32u lvt[APIC_LVT_ENTRIES];
#define APIC_LVT_TIMER 0
#define APIC_LVT_THERMAL 1
#define APIC_LVT_PERFMON 2
#define APIC_LVT_LINT0 3
#define APIC_LVT_LINT1 4
#define APIC_LVT_ERROR 5
Bit32u timer_initial; // Initial timer count (in order to reload periodic timer)
Bit32u timer_current; // Current timer count
Bit64u ticksInitial; // Timer value when it started to count, also holds TSC-Deadline value
Bit32u timer_divconf; // Timer divide configuration register
Bit32u timer_divide_factor;
// Internal timer state, not accessible from bus
bx_bool timer_active;
int timer_handle;
/* APIC delivery modes */
#define APIC_DM_FIXED 0
#define APIC_DM_LOWPRI 1
#define APIC_DM_SMI 2
/* RESERVED 3 */
#define APIC_DM_NMI 4
#define APIC_DM_INIT 5
#define APIC_DM_SIPI 6
#define APIC_DM_EXTINT 7
#if BX_SUPPORT_VMX >= 2
int vmx_timer_handle;
Bit32u vmx_preemption_timer_value;
Bit64u vmx_preemption_timer_initial; //The value of system tick when set the timer (absolute value)
Bit64u vmx_preemption_timer_fire; //The value of system tick when fire the exception (absolute value)
Bit32u vmx_preemption_timer_rate; //rate stated in MSR_VMX_MISC
bx_bool vmx_timer_active;
#endif
BX_CPU_C *cpu;
public:
bx_bool INTR;
bx_local_apic_c(BX_CPU_C *cpu, unsigned id);
~bx_local_apic_c() { }
void reset(unsigned type);
bx_phy_address get_base(void) const { return base_addr; }
void set_base(bx_phy_address newbase);
Bit32u get_id() const { return apic_id; }
bx_bool is_xapic() const { return xapic; }
bx_bool is_selected(bx_phy_address addr);
void read(bx_phy_address addr, void *data, unsigned len);
void write(bx_phy_address addr, void *data, unsigned len);
void write_aligned(bx_phy_address addr, Bit32u data);
Bit32u read_aligned(bx_phy_address address);
#if BX_CPU_LEVEL >= 6
bx_bool read_x2apic(unsigned index, Bit64u *msr);
bx_bool write_x2apic(unsigned index, Bit32u msr_hi, Bit32u msr_lo);
#endif
// on local APIC, trigger means raise the CPU's INTR line. For now
// I also have to raise pc_system.INTR but that should be replaced
// with the cpu-specific INTR signals.
void trigger_irq(Bit8u vector, unsigned trigger_mode, bx_bool bypass_irr_isr = 0);
void untrigger_irq(Bit8u vector, unsigned trigger_mode);
Bit8u acknowledge_int(void); // only the local CPU should call this
int highest_priority_int(Bit8u *array);
void receive_EOI(Bit32u value);
void send_ipi(apic_dest_t dest, Bit32u lo_cmd);
void write_spurious_interrupt_register(Bit32u value);
void service_local_apic(void);
void print_status(void);
bx_bool match_logical_addr(apic_dest_t address);
bx_bool deliver(Bit8u vector, Bit8u delivery_mode, Bit8u trig_mode);
Bit8u get_tpr(void) { return task_priority; }
void set_tpr(Bit8u tpr);
Bit8u get_ppr(void);
Bit8u get_apr(void);
bx_bool is_focus(Bit8u vector);
void set_lvt_entry(unsigned apic_reg, Bit32u val);
static void periodic_smf(void *);
void periodic(void);
void set_divide_configuration(Bit32u value);
void set_initial_timer_count(Bit32u value);
Bit32u get_current_timer_count(void);
#if BX_CPU_LEVEL >= 6
Bit64u get_tsc_deadline(void);
void set_tsc_deadline(Bit64u value);
void receive_SEOI(Bit8u vec);
void enable_xapic_extensions(void);
#endif
void startup_msg(Bit8u vector);
void register_state(bx_param_c *parent);
#if BX_SUPPORT_VMX >= 2
Bit32u read_vmx_preemption_timer(void);
void set_vmx_preemption_timer(Bit32u value);
void deactivate_vmx_preemption_timer(void);
static void vmx_preemption_timer_expired(void *);
#endif
};
int apic_bus_deliver_lowest_priority(Bit8u vector, apic_dest_t dest, bx_bool trig_mode, bx_bool broadcast);
BOCHSAPI_MSVCONLY int apic_bus_deliver_interrupt(Bit8u vector, apic_dest_t dest, Bit8u delivery_mode, bx_bool logical_dest, bx_bool level, bx_bool trig_mode);
int apic_bus_broadcast_interrupt(Bit8u vector, Bit8u delivery_mode, bx_bool trig_mode, int exclude_cpu);
#endif // if BX_SUPPORT_APIC
#endif