#ifndef _TYPE_H #define _TYPE_H #ifndef _MINIX_SYS_CONFIG_H #include #endif #ifndef _TYPES_H #include #endif /* Type definitions. */ typedef unsigned int vir_clicks; /* virtual addr/length in clicks */ typedef unsigned long phys_bytes; /* physical addr/length in bytes */ typedef unsigned int phys_clicks; /* physical addr/length in clicks */ #if (_MINIX_CHIP == _CHIP_INTEL) typedef unsigned int vir_bytes; /* virtual addresses and lengths in bytes */ #endif #if (_MINIX_CHIP == _CHIP_M68000) typedef unsigned long vir_bytes;/* virtual addresses and lengths in bytes */ #endif #if (_MINIX_CHIP == _CHIP_SPARC) typedef unsigned long vir_bytes;/* virtual addresses and lengths in bytes */ #endif /* Memory map for local text, stack, data segments. */ struct mem_map { vir_clicks mem_vir; /* virtual address */ phys_clicks mem_phys; /* physical address */ vir_clicks mem_len; /* length */ }; /* Memory map for remote memory areas, e.g., for the RAM disk. */ struct far_mem { int in_use; /* entry in use, unless zero */ phys_clicks mem_phys; /* physical address */ vir_clicks mem_len; /* length */ }; /* Structure for virtual copying by means of a vector with requests. */ struct vir_addr { int proc_nr_e; int segment; vir_bytes offset; }; /* Memory allocation by PM. */ struct hole { struct hole *h_next; /* pointer to next entry on the list */ phys_clicks h_base; /* where does the hole begin? */ phys_clicks h_len; /* how big is the hole? */ }; /* Memory info from PM. */ struct pm_mem_info { struct hole pmi_holes[_NR_HOLES];/* memory (un)allocations */ u32_t pmi_hi_watermark; /* highest ever-used click + 1 */ }; #define phys_cp_req vir_cp_req struct vir_cp_req { struct vir_addr src; struct vir_addr dst; phys_bytes count; }; typedef struct { vir_bytes iov_addr; /* address of an I/O buffer */ vir_bytes iov_size; /* sizeof an I/O buffer */ } iovec_t; /* PM passes the address of a structure of this type to KERNEL when * sys_sendsig() is invoked as part of the signal catching mechanism. * The structure contain all the information that KERNEL needs to build * the signal stack. */ struct sigmsg { int sm_signo; /* signal number being caught */ unsigned long sm_mask; /* mask to restore when handler returns */ vir_bytes sm_sighandler; /* address of handler */ vir_bytes sm_sigreturn; /* address of _sigreturn in C library */ vir_bytes sm_stkptr; /* user stack pointer */ }; /* This is used to obtain system information through SYS_GETINFO. */ struct kinfo { phys_bytes code_base; /* base of kernel code */ phys_bytes code_size; phys_bytes data_base; /* base of kernel data */ phys_bytes data_size; vir_bytes proc_addr; /* virtual address of process table */ phys_bytes kmem_base; /* kernel memory layout (/dev/kmem) */ phys_bytes kmem_size; phys_bytes bootdev_base; /* boot device from boot image (/dev/boot) */ phys_bytes bootdev_size; phys_bytes ramdev_base; /* boot device from boot image (/dev/boot) */ phys_bytes ramdev_size; phys_bytes params_base; /* parameters passed by boot monitor */ phys_bytes params_size; int nr_procs; /* number of user processes */ int nr_tasks; /* number of kernel tasks */ char release[6]; /* kernel release number */ char version[6]; /* kernel version number */ #if DEBUG_LOCK_CHECK int relocking; /* interrupt locking depth (should be 0) */ #endif }; /* Load data accounted every this no. of seconds. */ #define _LOAD_UNIT_SECS 6 /* Load data history is kept for this long. */ #define _LOAD_HISTORY_MINUTES 15 #define _LOAD_HISTORY_SECONDS (60*_LOAD_HISTORY_MINUTES) /* We need this many slots to store the load history. */ #define _LOAD_HISTORY (_LOAD_HISTORY_SECONDS/_LOAD_UNIT_SECS) /* Runnable processes and other load-average information. */ struct loadinfo { u16_t proc_load_history[_LOAD_HISTORY]; /* history of proc_s_cur */ u16_t proc_last_slot; clock_t last_clock; }; struct machine { int pc_at; int ps_mca; int processor; int prot; int vdu_ega; int vdu_vga; }; struct io_range { unsigned ior_base; /* Lowest I/O port in range */ unsigned ior_limit; /* Highest I/O port in range */ }; struct mem_range { phys_bytes mr_base; /* Lowest memory address in range */ phys_bytes mr_limit; /* Highest memory address in range */ }; #endif /* _TYPE_H */