haiku/headers/os/drivers/KernelExport.h

215 lines
6.4 KiB
C
Raw Normal View History

/* Kernel only exports for kernel add-ons
**
** Distributed under the terms of the OpenBeOS License.
*/
#ifndef _KERNEL_EXPORT_H
#define _KERNEL_EXPORT_H
#include <SupportDefs.h>
#include <OS.h>
#ifdef __cplusplus
extern "C" {
#endif
/*-------------------------------------------------------------*/
/* disable/restore interrupts on the current CPU */
typedef ulong cpu_status;
extern cpu_status disable_interrupts(void);
extern void restore_interrupts(cpu_status status);
/* spinlocks. Note that acquire/release should be called with
* interrupts disabled.
*/
typedef vint32 spinlock;
extern void acquire_spinlock(spinlock *lock);
extern void release_spinlock(spinlock *lock);
/* interrupt handling support for device drivers */
/* 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 */
typedef int32 (*interrupt_handler)(void *data);
extern long install_io_interrupt_handler(long interrupt_number,
interrupt_handler handler, void *data, ulong flags);
extern long remove_io_interrupt_handler(long interrupt_number,
interrupt_handler handler, void *data);
/*-------------------------------------------------------------*/
/* timer interrupts services */
/* The BeOS qent structure is probably part of a general double linked list
* interface used all over the kernel; a struct is required to have a qent
* entry struct as first element, so it can be linked to other elements
* easily. The key field is probably just an id, eventually used to order
* the list.
* Since we don't use this kind of interface, but we have to provide it
* to keep compatibility, we can use the qent struct for other purposes...
*
* ToDo: don't do this! Drop source compatibility, but don't overdefine those values!
*/
typedef struct qent {
int64 key; /* We use this as the sched time */
struct qent *next; /* This is used as a pointer to next timer */
struct qent *prev; /* This can be used for callback args */
} qent;
typedef struct timer timer;
typedef int32 (*timer_hook)(timer *);
struct timer {
qent entry;
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
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 *threadName,
int32 priority, void *arg);
/*-------------------------------------------------------------*/
/* signal functions */
extern int send_signal_etc(pid_t thread, uint sig, uint32 flags);
extern int has_signals_pending(void *_thread);
/*-------------------------------------------------------------*/
/* snooze functions */
extern status_t snooze_etc(bigtime_t usecs, int timebase, uint32 flags);
/*-------------------------------------------------------------*/
/* virtual memory buffer functions */
#define B_DMA_IO 0x00000001
#define B_READ_DEVICE 0x00000002
typedef struct {
void *address; /* address in physical memory */
ulong size; /* size of block */
} physical_entry;
extern long lock_memory(void *buffer, ulong numBytes, ulong flags);
extern long unlock_memory(void *buffer, ulong numBytes, ulong flags);
extern long get_memory_map(const void *buffer, ulong size,
physical_entry *table, long numEntries);
/* address specifications for mapping physical memory */
#define B_ANY_KERNEL_BLOCK_ADDRESS (B_ANY_KERNEL_ADDRESS + 1)
/* call to map physical memory - typically used for memory-mapped i/o */
extern area_id map_physical_memory(const char *areaName, void *physicalAddress,
size_t size, uint32 flags, uint32 protection, void **mappedAddress);
/* MTR attributes for mapping physical memory (Intel Architecture only) */
// ToDo: what have those to do here?
#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
/*-------------------------------------------------------------*/
/* hardware inquiry */
/* platform_type return value is defined in OS.h */
extern platform_type platform();
#if __POWERPC__
extern long motherboard_version(void);
extern long io_card_version(void);
#endif
/*-------------------------------------------------------------*/
/* primitive kernel debugging facilities */
/* Standard debug output is on...
* mac: modem port
* pc: com1
* ...at 19.2 kbaud, no parity, 8 bit, 1 stop bit.
*
* Note: the kernel settings file can override these defaults
*/
#if __GNUC__
extern void dprintf(const char *format, ...) /* just like printf */
__attribute__ ((format (__printf__, 1, 2)));
extern void kprintf(const char *fmt, ...) /* only for debugger cmds */
__attribute__ ((format (__printf__, 1, 2)));
#else
extern void dprintf(const char *format, ...); /* just like printf */
extern void kprintf(const char *fmt, ...); /* only for debugger cmds */
#endif
extern bool set_dprintf_enabled(bool new_state); /* returns old state */
extern void panic(const char *format, ...);
extern void kernel_debugger(const char *message); /* enter kernel debugger */
extern uint32 parse_expression(const char *string); /* utility for debugger cmds */
/* 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);
extern int add_debugger_command(char *name, debugger_command_hook hook, char *help);
extern int remove_debugger_command(char *name, debugger_command_hook hook);
extern status_t load_driver_symbols(const char *driverName);
/*-------------------------------------------------------------*/
/* misc */
extern void spin(bigtime_t microseconds);
/* does a busy delay loop for at least "microseconds" */
typedef void (*daemon_hook)(void *arg, int iteration);
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 (*f)(void *, int), void *cookie);
#ifdef __cplusplus
}
#endif
#endif /* _KERNEL_EXPORT_H */