/* * Copyright 2002-2005, Axel Dörfler, axeld@pinc-software.de. * Distributed under the terms of the MIT License. * * Copyright 2001-2002, Travis Geiselbrecht. All rights reserved. * Distributed under the terms of the NewOS License. */ #ifndef KERNEL_SMP_H #define KERNEL_SMP_H #include struct kernel_args; // intercpu messages enum { SMP_MSG_INVALIDATE_PAGE_RANGE = 0, SMP_MSG_INVALIDATE_PAGE_LIST, SMP_MSG_USER_INVALIDATE_PAGES, SMP_MSG_GLOBAL_INVALIDATE_PAGES, SMP_MSG_CPU_HALT, SMP_MSG_CALL_FUNCTION, SMP_MSG_RESCHEDULE, SMP_MSG_RESCHEDULE_IF_IDLE }; enum { SMP_MSG_FLAG_ASYNC = 0x0, SMP_MSG_FLAG_SYNC = 0x1, SMP_MSG_FLAG_FREE_ARG = 0x2, }; typedef uint32 cpu_mask_t; typedef void (*smp_call_func)(uint32 data1, int32 currentCPU, uint32 data2, uint32 data3); #ifdef __cplusplus extern "C" { #endif status_t smp_init(struct kernel_args *args); status_t smp_per_cpu_init(struct kernel_args *args, int32 cpu); status_t smp_init_post_generic_syscalls(void); bool smp_trap_non_boot_cpus(int32 cpu, uint32* rendezVous); void smp_wake_up_non_boot_cpus(void); void smp_cpu_rendezvous(volatile uint32 *var, int current_cpu); void smp_send_ici(int32 targetCPU, int32 message, uint32 data, uint32 data2, uint32 data3, void *data_ptr, uint32 flags); void smp_send_multicast_ici(cpu_mask_t cpuMask, int32 message, uint32 data, uint32 data2, uint32 data3, void *data_ptr, uint32 flags); void smp_send_broadcast_ici(int32 message, uint32 data, uint32 data2, uint32 data3, void *data_ptr, uint32 flags); void smp_send_broadcast_ici_interrupts_disabled(int32 currentCPU, int32 message, uint32 data, uint32 data2, uint32 data3, void *data_ptr, uint32 flags); int32 smp_get_num_cpus(void); void smp_set_num_cpus(int32 numCPUs); int32 smp_get_current_cpu(void); int smp_intercpu_int_handler(int32 cpu); void _acquire_spinlock(spinlock* lock); #ifdef __cplusplus } #endif // Unless spinlock debug features are enabled, try to inline // {acquire,release}_spinlock(). #if !DEBUG_SPINLOCKS && !B_DEBUG_SPINLOCK_CONTENTION static inline void acquire_spinlock_inline(spinlock* lock) { if (atomic_or((int32*)lock, 1) == 0) return; _acquire_spinlock(lock); } static inline void release_spinlock_inline(spinlock* lock) { atomic_and((int32*)lock, 0); } #define acquire_spinlock(lock) acquire_spinlock_inline(lock) #define release_spinlock(lock) release_spinlock_inline(lock) #endif // !DEBUG_SPINLOCKS && !B_DEBUG_SPINLOCK_CONTENTION #endif /* KERNEL_SMP_H */