/*
- * Copyright (c) 2006-2009 Apple Inc. All rights reserved.
+ * Copyright (c) 2006-2010 Apple Inc. All rights reserved.
*
* @APPLE_OSREFERENCE_LICENSE_HEADER_START@
*
#define _I386_PMCPU_H_
#include <i386/cpu_topology.h>
-#include <i386/rtclock.h>
#ifndef ASSEMBLER
/*
- * This value should be changed each time that pmDsipatch_t or pmCallBacks_t
+ * This value should be changed each time that pmDispatch_t or pmCallBacks_t
* changes.
*/
-#define PM_DISPATCH_VERSION 19
+#define PM_DISPATCH_VERSION 102
/*
* Dispatch table for functions that get installed when the power
*/
typedef struct
{
- int (*pmCPUStateInit)(void);
+ kern_return_t (*pmCPUStateInit)(void);
void (*cstateInit)(void);
uint64_t (*MachineIdle)(uint64_t maxIdleDuration);
uint64_t (*GetDeadline)(x86_lcpu_t *lcpu);
boolean_t (*pmIsCPUUnAvailable)(x86_lcpu_t *lcpu);
int (*pmChooseCPU)(int startCPU, int endCPU, int preferredCPU);
int (*pmIPIHandler)(void *state);
+ void (*pmThreadTellUrgency)(int urgency, uint64_t rt_period, uint64_t rt_deadline);
+ void (*pmActiveRTThreads)(boolean_t active);
+ boolean_t (*pmInterruptPrewakeApplicable)(void);
} pmDispatch_t;
+/* common time fields exported to PM code. This structure may be
+ * allocated on the stack, so avoid making it unnecessarily large.
+ */
+typedef struct pm_rtc_nanotime {
+ uint64_t tsc_base; /* timestamp */
+ uint64_t ns_base; /* nanoseconds */
+ uint32_t scale; /* tsc -> nanosec multiplier */
+ uint32_t shift; /* tsc -> nanosec shift/div */
+ uint32_t generation; /* 0 == being updated */
+} pm_rtc_nanotime_t;
typedef struct {
- int (*setRTCPop)(uint64_t time);
+ uint64_t (*setRTCPop)(uint64_t time);
void (*resyncDeadlines)(int cpu);
void (*initComplete)(void);
x86_lcpu_t *(*GetLCPU)(int cpu);
processor_t (*ThreadBind)(processor_t proc);
uint32_t (*GetSavedRunCount)(void);
void (*pmSendIPI)(int cpu);
- rtc_nanotime_t *(*GetNanotimeInfo)(void);
+ void (*GetNanotimeInfo)(pm_rtc_nanotime_t *);
+ int (*ThreadGetUrgency)(uint64_t *rt_period, uint64_t *rt_deadline);
+ uint32_t (*timerQueueMigrate)(int cpu);
+ void (*RTCClockAdjust)(uint64_t adjustment);
x86_topology_parameters_t *topoParms;
+ boolean_t (*InterruptPending)(void);
+ boolean_t (*IsInterrupting)(uint8_t vector);
+ void (*InterruptStats)(uint64_t intrs[256]);
+ void (*DisableApicTimer)(void);
} pmCallBacks_t;
extern pmDispatch_t *pmDispatch;
void pmTimerRestore(void);
kern_return_t pmCPUExitHalt(int cpu);
kern_return_t pmCPUExitHaltToOff(int cpu);
+uint32_t pmTimerQueueMigrate(int);
#define PM_HALT_NORMAL 0 /* normal halt path */
#define PM_HALT_DEBUG 1 /* debug code wants to halt */
#define PM_SAFE_FL_RESUME 0x00000020 /* resume execution on the CPU */
extern int pmsafe_debug;
-extern int idlehalt;
+/* Default urgency timing threshold for the DEBUG build */
+#define URGENCY_NOTIFICATION_ASSERT_NS (5 * 1000 * 1000)
+extern uint64_t urgency_notification_assert_abstime_threshold;
+
+x86_lcpu_t *
+pmGetLogicalCPU(int cpu);
+x86_lcpu_t *
+pmGetMyLogicalCPU(void);
+processor_t
+pmLCPUtoProcessor(int lcpu);
+x86_pkg_t *
+pmGetPkgRoot(void);
+
/******************************************************************************
*