#ifndef TYPE_H #define TYPE_H typedef _PROTOTYPE( void task_t, (void) ); /* Process table and system property related types. */ typedef int proc_nr_t; /* process table entry number */ typedef short sys_id_t; /* system process index */ typedef struct { /* bitmap for system indexes */ bitchunk_t chunk[BITMAP_CHUNKS(NR_SYS_PROCS)]; } sys_map_t; struct boot_image { proc_nr_t proc_nr; /* process number to use */ task_t *initial_pc; /* start function for tasks */ int flags; /* process flags */ unsigned char quantum; /* quantum (tick count) */ int priority; /* scheduling priority */ int stksize; /* stack size for tasks */ short trap_mask; /* allowed system call traps */ bitchunk_t ipc_to; /* send mask protection */ long call_mask; /* system call protection */ char proc_name[P_NAME_LEN]; /* name in process table */ int endpoint; /* endpoint number when started */ }; struct memory { phys_clicks base; /* start address of chunk */ phys_clicks size; /* size of memory chunk */ }; /* The kernel outputs diagnostic messages in a circular buffer. */ struct kmessages { int km_next; /* next index to write */ int km_size; /* current size in buffer */ char km_buf[KMESS_BUF_SIZE]; /* buffer for messages */ }; struct randomness { struct { int r_next; /* next index to write */ int r_size; /* number of random elements */ unsigned short r_buf[RANDOM_ELEMENTS]; /* buffer for random info */ } bin[RANDOM_SOURCES]; }; #if (CHIP == INTEL) typedef unsigned reg_t; /* machine register */ /* The stack frame layout is determined by the software, but for efficiency * it is laid out so the assembly code to use it is as simple as possible. * 80286 protected mode and all real modes use the same frame, built with * 16-bit registers. Real mode lacks an automatic stack switch, so little * is lost by using the 286 frame for it. The 386 frame differs only in * having 32-bit registers and more segment registers. The same names are * used for the larger registers to avoid differences in the code. */ struct stackframe_s { /* proc_ptr points here */ #if _WORD_SIZE == 4 u16_t gs; /* last item pushed by save */ u16_t fs; /* ^ */ #endif u16_t es; /* | */ u16_t ds; /* | */ reg_t di; /* di through cx are not accessed in C */ reg_t si; /* order is to match pusha/popa */ reg_t fp; /* bp */ reg_t st; /* hole for another copy of sp */ reg_t bx; /* | */ reg_t dx; /* | */ reg_t cx; /* | */ reg_t retreg; /* ax and above are all pushed by save */ reg_t retadr; /* return address for assembly code save() */ reg_t pc; /* ^ last item pushed by interrupt */ reg_t cs; /* | */ reg_t psw; /* | */ reg_t sp; /* | */ reg_t ss; /* these are pushed by CPU during interrupt */ }; struct segdesc_s { /* segment descriptor for protected mode */ u16_t limit_low; u16_t base_low; u8_t base_middle; u8_t access; /* |P|DL|1|X|E|R|A| */ u8_t granularity; /* |G|X|0|A|LIMT| */ u8_t base_high; }; typedef unsigned long irq_policy_t; typedef unsigned long irq_id_t; typedef struct irq_hook { struct irq_hook *next; /* next hook in chain */ int (*handler)(struct irq_hook *); /* interrupt handler */ int irq; /* IRQ vector number */ int id; /* id of this hook */ int proc_nr_e; /* (endpoint) NONE if not in use */ irq_id_t notify_id; /* id to return on interrupt */ irq_policy_t policy; /* bit mask for policy */ } irq_hook_t; typedef int (*irq_handler_t)(struct irq_hook *); #endif /* (CHIP == INTEL) */ #if (CHIP == M68000) /* M68000 specific types go here. */ #endif /* (CHIP == M68000) */ #endif /* TYPE_H */