/* * Copyright 2005-2008, Haiku Inc. All Rights Reserved. * Distributed under the terms of the MIT License. */ #ifndef _KERNEL_EXPORT_H #define _KERNEL_EXPORT_H #include #include /* interrupts and spinlocks */ typedef ulong cpu_status; // WARNING: For Haiku debugging only! This changes the spinlock type in a // binary incompatible way! //#define B_DEBUG_SPINLOCK_CONTENTION 1 #if B_DEBUG_SPINLOCK_CONTENTION typedef struct { int32 lock; int32 count_low; int32 count_high; } spinlock; # define B_SPINLOCK_INITIALIZER { 0, 0, 0 } # define B_INITIALIZE_SPINLOCK(spinlock) do { \ (spinlock)->lock = 0; \ (spinlock)->count_low = 0; \ (spinlock)->count_high = 0; \ } while (false) #else typedef struct { int32 lock; } spinlock; # define B_SPINLOCK_INITIALIZER { 0 } # define B_INITIALIZE_SPINLOCK(spinlock) do { \ (spinlock)->lock = 0; \ } while (false) #endif #define B_SPINLOCK_IS_LOCKED(spinlock) (atomic_get(&(spinlock)->lock) > 0) typedef struct { int32 lock; } rw_spinlock; #define B_RW_SPINLOCK_INITIALIZER { 0 } #define B_INITIALIZE_RW_SPINLOCK(rw_spinlock) do { \ (rw_spinlock)->lock = 0; \ } while (false) typedef struct { spinlock lock; uint32 count; } seqlock; #define B_SEQLOCK_INITIALIZER { B_SPINLOCK_INITIALIZER, 0 } #define B_INITIALIZE_SEQLOCK(seqlock) do { \ B_INITIALIZE_SPINLOCK(&(seqlock)->lock); \ (seqlock)->count = 0; \ } while (false) /* interrupt handling support for device drivers */ typedef int32 (*interrupt_handler)(void *data); /* Values returned by interrupt handlers */ #define B_UNHANDLED_INTERRUPT 0 /* pass to next handler */ #define B_HANDLED_INTERRUPT 1 /* don't pass on */ #define B_INVOKE_SCHEDULER 2 /* don't pass on; invoke the scheduler */ /* Flags that can be passed to install_io_interrupt_handler() */ #define B_NO_ENABLE_COUNTER 1 /* timer interrupts services */ typedef struct timer timer; typedef int32 (*timer_hook)(timer *); struct timer { struct timer *next; int64 schedule_time; void *user_data; uint16 flags; uint16 cpu; timer_hook hook; bigtime_t period; }; #define B_ONE_SHOT_ABSOLUTE_TIMER 1 #define B_ONE_SHOT_RELATIVE_TIMER 2 #define B_PERIODIC_TIMER 3 /* virtual memory buffer functions */ #define B_DMA_IO 0x00000001 #define B_READ_DEVICE 0x00000002 typedef struct { phys_addr_t address; /* address in physical memory */ phys_size_t size; /* size of block */ } physical_entry; /* address specifications for mapping physical memory */ #define B_ANY_KERNEL_BLOCK_ADDRESS (B_ANY_KERNEL_ADDRESS + 1) /* area protection flags for the kernel */ #define B_KERNEL_READ_AREA (1 << 4) #define B_KERNEL_WRITE_AREA (1 << 5) /* MTR attributes for mapping physical memory (Intel Architecture only) */ // TODO: rename those to something more meaningful #define B_MTR_UC 0x10000000 #define B_MTR_WC 0x20000000 #define B_MTR_WT 0x30000000 #define B_MTR_WP 0x40000000 #define B_MTR_WB 0x50000000 #define B_MTR_MASK 0xf0000000 /* kernel daemon service */ typedef void (*daemon_hook)(void *arg, int iteration); /* kernel debugging facilities */ /* special return codes for kernel debugger */ #define B_KDEBUG_CONT 2 #define B_KDEBUG_QUIT 3 typedef int (*debugger_command_hook)(int argc, char **argv); #ifdef __cplusplus extern "C" { #endif /* interrupts, spinlock, and timers */ extern cpu_status disable_interrupts(void); extern void restore_interrupts(cpu_status status); extern void acquire_spinlock(spinlock *lock); extern void release_spinlock(spinlock *lock); extern bool try_acquire_write_spinlock(rw_spinlock* lock); extern void acquire_write_spinlock(rw_spinlock* lock); extern void release_write_spinlock(rw_spinlock* lock); extern bool try_acquire_read_spinlock(rw_spinlock* lock); extern void acquire_read_spinlock(rw_spinlock* lock); extern void release_read_spinlock(rw_spinlock* lock); extern bool try_acquire_write_seqlock(seqlock* lock); extern void acquire_write_seqlock(seqlock* lock); extern void release_write_seqlock(seqlock* lock); extern uint32 acquire_read_seqlock(seqlock* lock); extern bool release_read_seqlock(seqlock* lock, uint32 count); extern status_t install_io_interrupt_handler(long interrupt_number, interrupt_handler handler, void *data, ulong flags); extern status_t remove_io_interrupt_handler(long interrupt_number, interrupt_handler handler, void *data); extern status_t add_timer(timer *t, timer_hook hook, bigtime_t period, int32 flags); extern bool cancel_timer(timer *t); /* kernel threads */ extern thread_id spawn_kernel_thread(thread_func function, const char *name, int32 priority, void *arg); /* signal functions */ extern int send_signal_etc(pid_t thread, uint signal, uint32 flags); /* virtual memory */ extern status_t lock_memory_etc(team_id team, void *buffer, size_t numBytes, uint32 flags); extern status_t lock_memory(void *buffer, size_t numBytes, uint32 flags); extern status_t unlock_memory_etc(team_id team, void *address, size_t numBytes, uint32 flags); extern status_t unlock_memory(void *buffer, size_t numBytes, uint32 flags); extern status_t get_memory_map_etc(team_id team, const void *address, size_t numBytes, physical_entry *table, uint32* _numEntries); extern int32 get_memory_map(const void *buffer, size_t size, physical_entry *table, int32 numEntries); extern area_id map_physical_memory(const char *areaName, phys_addr_t physicalAddress, size_t size, uint32 flags, uint32 protection, void **_mappedAddress); /* kernel debugging facilities */ extern void dprintf(const char *format, ...) _PRINTFLIKE(1, 2); extern void dvprintf(const char *format, va_list args); extern void kprintf(const char *fmt, ...) _PRINTFLIKE(1, 2); extern void dump_block(const char *buffer, int size, const char *prefix); /* TODO: temporary API: hexdumps given buffer */ extern bool set_dprintf_enabled(bool new_state); extern void panic(const char *format, ...) _PRINTFLIKE(1, 2); extern void kernel_debugger(const char *message); extern uint64 parse_expression(const char *string); extern int add_debugger_command(const char *name, debugger_command_hook hook, const char *help); extern int remove_debugger_command(const char *name, debugger_command_hook hook); /* Miscellaneous */ extern void spin(bigtime_t microseconds); extern status_t register_kernel_daemon(daemon_hook hook, void *arg, int frequency); extern status_t unregister_kernel_daemon(daemon_hook hook, void *arg); extern void call_all_cpus(void (*func)(void *, int), void *cookie); extern void call_all_cpus_sync(void (*func)(void *, int), void *cookie); extern void memory_read_barrier(void); extern void memory_write_barrier(void); /* safe methods to access user memory without having to lock it */ extern status_t user_memcpy(void *to, const void *from, size_t size); extern ssize_t user_strlcpy(char *to, const char *from, size_t size); extern status_t user_memset(void *start, char c, size_t count); #ifdef __cplusplus } #endif #endif /* _KERNEL_EXPORT_H */