Parsing of free memory chunks is now done at the process manager.
This commit is contained in:
parent
e0a98a4d65
commit
92f9bd02f8
6 changed files with 183 additions and 84 deletions
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@ -19,6 +19,7 @@
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#include <minix/com.h>
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#include <minix/callnr.h>
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#include <signal.h>
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#include <stdlib.h>
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#include "mproc.h"
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#include "../../kernel/const.h"
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#include "../../kernel/type.h"
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@ -195,7 +196,8 @@ register struct hole *hp; /* ptr to hole to merge with its successors */
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/*===========================================================================*
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* mem_init *
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*===========================================================================*/
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PUBLIC void mem_init(free)
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PUBLIC void mem_init(chunks, free)
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struct memory *chunks; /* list of free memory chunks */
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phys_clicks *free; /* memory size summaries */
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{
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/* Initialize hole lists. There are two lists: 'hole_head' points to a linked
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@ -207,32 +209,27 @@ phys_clicks *free; /* memory size summaries */
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* smaller holes), new table slots are needed to represent them. These slots
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* are taken from the list headed by 'free_slots'.
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*/
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struct memory mem[NR_MEMS]; /* chunks of physical memory */
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int i;
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register struct hole *hp;
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phys_clicks base; /* base address of chunk */
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phys_clicks size; /* size of chunk */
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message mess;
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/* Get a copy of the physical memory chunks found at the kernel. */
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if ((i=sys_getmemchunks(mem)) != OK)
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panic(__FILE__,"couldn't get mem chunks",i);
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/* Put all holes on the free list. */
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for (hp = &hole[0]; hp < &hole[NR_HOLES]; hp++) hp->h_next = hp + 1;
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hole[NR_HOLES-1].h_next = NIL_HOLE;
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hole_head = NIL_HOLE;
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free_slots = &hole[0];
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/* Ask the kernel for chunks of physical memory and allocate holes. */
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/* Use the chunks of physical memory to allocate holes. */
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*free = 0;
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for (i=NR_MEMS-1; i>=0; i--) {
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if (mem[i].size > 0) {
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free_mem(mem[i].base, mem[i].size);
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*free += mem[i].size;
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if (chunks[i].size > 0) {
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free_mem(chunks[i].base, chunks[i].size);
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*free += chunks[i].size;
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#if ENABLE_SWAP
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if (swap_base < mem[i].base + mem[i].size)
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swap_base = mem[i].base+mem[i].size;
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if (swap_base < chunks[i].base + chunks[i].size)
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swap_base = chunks[i].base + chunks[i].size;
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#endif
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}
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}
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@ -246,6 +243,7 @@ phys_clicks *free; /* memory size summaries */
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#endif
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}
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#if ENABLE_SWAP
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/*===========================================================================*
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* swap_on *
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@ -7,6 +7,8 @@
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/* Global variables. */
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EXTERN struct mproc *mp; /* ptr to 'mproc' slot of current process */
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EXTERN int procs_in_use; /* how many processes are marked as IN_USE */
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EXTERN char monitor_params[128*sizeof(char *)]; /* boot monitor parameters */
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EXTERN struct kinfo kinfo; /* kernel information */
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/* The parameters of the call are kept here. */
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EXTERN message m_in; /* the incoming message itself is kept here. */
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@ -1,9 +1,8 @@
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/* This file contains the main program of the process manager and some related
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* procedures. When MINIX starts up, the kernel runs for a little while,
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* initializing itself and its tasks, and then it runs PM and FS. Both PM
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* and FS initialize themselves as far as they can. FS then makes a call to
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* PM, because PM has to wait for FS to acquire a RAM disk. PM asks the
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* kernel for all free memory and starts serving requests.
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* and FS initialize themselves as far as they can. PM asks the kernel for
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* all free memory and starts serving requests.
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*
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* The entry points into this file are:
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* main: starts PM running
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@ -16,6 +15,7 @@
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#include <minix/callnr.h>
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#include <minix/com.h>
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#include <signal.h>
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#include <stdlib.h>
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#include <fcntl.h>
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#include <sys/ioc_memory.h>
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#include <string.h>
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@ -27,6 +27,9 @@
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FORWARD _PROTOTYPE( void get_work, (void) );
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FORWARD _PROTOTYPE( void pm_init, (void) );
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FORWARD _PROTOTYPE( void get_mem_chunks, (struct memory *mem_chunks) );
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FORWARD _PROTOTYPE( void patch_mem_chunks, (struct memory *mem_chunks,
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struct mem_map *map_ptr) );
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#define click_to_round_k(n) \
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((unsigned) ((((unsigned long) (n) << CLICK_SHIFT) + 512) / 1024))
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@ -138,8 +141,8 @@ PRIVATE void pm_init()
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register char *sig_ptr;
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phys_clicks ram_clicks, total_clicks, minix_clicks, free_clicks;
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message mess;
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struct mem_map kernel_map[NR_LOCAL_SEGS];
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int mem;
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struct mem_map mem_map[NR_LOCAL_SEGS];
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struct memory mem_chunks[NR_MEMS];
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/* Build the set of signals which cause core dumps, and the set of signals
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* that are by default ignored.
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@ -151,31 +154,40 @@ PRIVATE void pm_init()
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for (sig_ptr = ign_sigs; sig_ptr < ign_sigs+sizeof(ign_sigs); sig_ptr++)
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sigaddset(&ign_sset, *sig_ptr);
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/* Get the memory map of the kernel to see how much memory it uses. */
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if ((s=get_mem_map(SYSTASK, kernel_map)) != OK)
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panic(__FILE__,"PM couldn't get proc entry of SYSTASK",s);
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minix_clicks = (kernel_map[S].mem_phys + kernel_map[S].mem_len)
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- kernel_map[T].mem_phys;
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/* Initialize PM's tables. Request a copy of the system image table that
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* is defined at the kernel level to see which slots to fill in.
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/* Obtain a copy of the boot monitor parameters and the kernel info struct.
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* Parse the list of free memory chunks. This list is what the boot monitor
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* reported, but it must be corrected for the kernel and system processes.
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*/
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if (OK != (s=sys_getimage(&image))) {
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printf("PM: warning, couldn't get system image table: %d\n", s);
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}
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if ((s=sys_getmonparams(monitor_params, sizeof(monitor_params))) != OK)
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panic(__FILE__,"get monitor params failed",s);
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if ((s=sys_getkinfo(&kinfo)) != OK)
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panic(__FILE__,"get kernel info failed",s);
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get_mem_chunks(mem_chunks);
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/* Get the memory map of the kernel to see how much memory it uses. */
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if ((s=get_mem_map(SYSTASK, mem_map)) != OK)
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panic(__FILE__,"PM couldn't get memory map of SYSTASK",s);
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minix_clicks = (mem_map[S].mem_phys+mem_map[S].mem_len)-mem_map[T].mem_phys;
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patch_mem_chunks(mem_chunks, mem_map);
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/* Initialize PM's process table. Request a copy of the system image table
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* that is defined at the kernel level to see which slots to fill in.
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*/
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if (OK != (s=sys_getimage(&image)))
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panic(__FILE__,"PM: warning, couldn't get image table: %d\n", s);
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procs_in_use = 0; /* start populating table */
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for (ip = &image[0]; ip < &image[IMAGE_SIZE]; ip++) {
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if (ip->proc_nr >= 0) { /* task have negative nrs */
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procs_in_use += 1; /* found user process */
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/* Set process details. */
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rmp = &mproc[ip->proc_nr];
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/* Set process details found in the image table. */
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rmp = &mproc[ip->proc_nr];
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rmp->mp_flags |= IN_USE | DONT_SWAP;
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rmp->mp_pid = (ip->proc_nr == INIT_PROC_NR) ?
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INIT_PID : get_free_pid();
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strncpy(rmp->mp_name, ip->proc_name, PROC_NAME_LEN);
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/* Change signal handling behaviour. */
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/* Change local signal handling behaviour. */
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sigfillset(&rmp->mp_ignore);
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sigfillset(&rmp->mp_sigmask);
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sigemptyset(&rmp->mp_catch);
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@ -186,6 +198,7 @@ PRIVATE void pm_init()
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if (rmp->mp_seg[T].mem_len != 0) rmp->mp_flags |= SEPARATE;
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minix_clicks += rmp->mp_seg[S].mem_phys +
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rmp->mp_seg[S].mem_len - rmp->mp_seg[T].mem_phys;
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patch_mem_chunks(mem_chunks, rmp->mp_seg);
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/* Tell FS about this system process. */
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mess.PR_PROC_NR = ip->proc_nr;
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@ -195,7 +208,7 @@ PRIVATE void pm_init()
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}
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}
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/* Tell FS no more SYSTEM processes follow and synchronize. */
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/* Tell FS that no more system processes follow and synchronize. */
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mess.PR_PROC_NR = NONE;
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if (sendrec(FS_PROC_NR, &mess) != OK || mess.m_type != OK)
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panic(__FILE__,"PM can't sync up with FS", NO_NUM);
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@ -205,13 +218,113 @@ PRIVATE void pm_init()
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sigemptyset(&mproc[INIT_PROC_NR].mp_sigmask);
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sigemptyset(&mproc[INIT_PROC_NR].mp_catch);
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/* Initialize tables to all physical memory. */
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mem_init(&free_clicks);
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total_clicks = minix_clicks + free_clicks;
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/* Possibly we must correct the memory chunks for the boot device. */
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if (kinfo.bootdev_size > 0) {
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mem_map[T].mem_phys = kinfo.bootdev_base >> CLICK_SHIFT;
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mem_map[T].mem_len = 0;
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mem_map[D].mem_len = (kinfo.bootdev_size+CLICK_SIZE-1) >> CLICK_SHIFT;
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patch_mem_chunks(mem_chunks, mem_map);
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}
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/* Print memory information. */
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/* Initialize tables to all physical memory and print memory information. */
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mem_init(mem_chunks, &free_clicks);
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total_clicks = minix_clicks + free_clicks;
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printf("Memory size=%uK ", click_to_round_k(total_clicks));
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printf("System services=%uK ", click_to_round_k(minix_clicks));
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printf("Available=%uK\n\n", click_to_round_k(free_clicks));
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}
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/* In real mode only 1M can be addressed, and in 16-bit protected we can go
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* no further than we can count in clicks. (The 286 is further limited by
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* its 24 bit address bus, but we can assume in that case that no more than
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* 16M memory is reported by the BIOS.)
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*/
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#define MAX_REAL 0x00100000L
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#define MAX_16BIT (0xFFF0L << CLICK_SHIFT)
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/*=========================================================================*
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* get_mem_chunks *
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*=========================================================================*/
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PRIVATE void get_mem_chunks(mem_chunks)
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struct memory *mem_chunks; /* store mem chunks here */
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{
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/* Initialize the free memory list from the 'memory' boot variable. Translate
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* the byte offsets and sizes in this list to clicks, properly truncated. Also
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* make sure that we don't exceed the maximum address space of the 286 or the
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* 8086, i.e. when running in 16-bit protected mode or real mode.
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*/
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long base, size, limit;
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char *s, *end; /* use to parse boot variable */
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int i;
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struct memory *memp;
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#if _WORD_SIZE == 2
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unsigned long max_address;
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struct machine machine;
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if (OK != (i=sys_getmachine(&machine)))
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panic(__FILE__, "sys_getmachine failed", i);
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#endif
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/* Initialize everything to zero. */
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for (i = 0; i < NR_MEMS; i++) {
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memp = &mem_chunks[i]; /* next mem chunk is stored here */
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memp->base = memp->size = 0;
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}
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/* The available memory is determined by MINIX' boot loader as a list of
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* (base:size)-pairs in boothead.s. The 'memory' boot variable is set in
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* in boot.s. The format is "b0:s0,b1:s1,b2:s2", where b0:s0 is low mem,
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* b1:s1 is mem between 1M and 16M, b2:s2 is mem above 16M. Pairs b1:s1
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* and b2:s2 are combined if the memory is adjacent.
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*/
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s = find_param("memory"); /* get memory boot variable */
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for (i = 0; i < NR_MEMS; i++) {
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memp = &mem_chunks[i]; /* next mem chunk is stored here */
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base = size = 0; /* initialize next base:size pair */
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if (*s != 0) { /* get fresh data, unless at end */
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/* Read fresh base and expect colon as next char. */
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base = strtoul(s, &end, 0x10); /* get number */
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if (end != s && *end == ':') s = ++end; /* skip ':' */
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else *s=0; /* terminate, should not happen */
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/* Read fresh size and expect comma or assume end. */
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size = strtoul(s, &end, 0x10); /* get number */
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if (end != s && *end == ',') s = ++end; /* skip ',' */
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else *s=0; /* found end */
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}
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limit = base + size;
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#if _WORD_SIZE == 2
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max_address = machine.protected ? MAX_16BIT : MAX_REAL;
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if (limit > max_address) limit = max_address;
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#endif
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base = (base + CLICK_SIZE-1) & ~(long)(CLICK_SIZE-1);
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limit &= ~(long)(CLICK_SIZE-1);
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if (limit <= base) continue;
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memp->base = base >> CLICK_SHIFT;
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memp->size = (limit - base) >> CLICK_SHIFT;
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}
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}
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/*=========================================================================*
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* patch_mem_chunks *
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*=========================================================================*/
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PRIVATE void patch_mem_chunks(mem_chunks, map_ptr)
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struct memory *mem_chunks; /* store mem chunks here */
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struct mem_map *map_ptr; /* memory to remove */
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{
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/* Remove server memory from the free memory list. The boot monitor
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* promises to put processes at the start of memory chunks. The
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* tasks all use same base address, so only the first task changes
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* the memory lists. The servers and init have their own memory
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* spaces and their memory will be removed from the list.
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*/
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struct memory *memp;
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for (memp = mem_chunks; memp < &mem_chunks[NR_MEMS]; memp++) {
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if (memp->base == map_ptr[T].mem_phys) {
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memp->base += map_ptr[T].mem_len + map_ptr[D].mem_len;
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memp->size -= map_ptr[T].mem_len + map_ptr[D].mem_len;
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}
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}
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}
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#include "mproc.h"
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#include "param.h"
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FORWARD _PROTOTYPE( char *find_key, (const char *params, const char *key));
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/* PM gets a copy of all boot monitor parameters. */
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PRIVATE char monitor_params[128*sizeof(char *)];
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/*===========================================================================*
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* do_allocmem *
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*=====================================================================*/
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PUBLIC int do_svrctl()
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{
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static int initialized = 0;
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int s, req;
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vir_bytes ptr;
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req = m_in.svrctl_req;
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ptr = (vir_bytes) m_in.svrctl_argp;
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/* Initialize private copy of monitor parameters on first call. */
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if (! initialized) {
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if ((s=sys_getmonparams(monitor_params, sizeof(monitor_params))) != OK)
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printf("PM: Warning couldn't get copy of monitor params: %d\n",s);
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else
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initialized = 1;
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}
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/* Binary compatibility check. */
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if (req == SYSGETENV) {
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#if DEAD_CODE
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printf("SYSGETENV by %d (fix!)\n", who);
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#endif
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req = MMGETPARAM;
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}
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/* Is the request for the kernel? Forward it, except for SYSGETENV. */
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if (((req >> 8) & 0xFF) == 'S') {
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/* Binary compatibility check. */
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if (req == SYSGETENV) {
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printf("SYSGETENV by %d (fix!)\n", who);
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req = MMGETPARAM;
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}
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else
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/* Simply forward call to the SYSTEM task. */
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return(sys_svrctl(who, req, mp->mp_effuid == SUPER_USER, ptr));
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}
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size_t val_len;
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size_t copy_len;
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/* Check if boot monitor parameters are in place. */
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if (! initialized) return(EAGAIN);
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/* Copy sysgetenv structure to PM. */
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if (sys_datacopy(who, ptr, SELF, (vir_bytes) &sysgetenv,
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sizeof(sysgetenv)) != OK) return(EFAULT);
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/* Make sure key is null-terminated and lookup value. */
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search_key[sysgetenv.keylen-1]= '\0';
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if ((val_start = find_key(monitor_params, search_key)) == NULL)
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if ((val_start = find_param(search_key)) == NULL)
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return(ESRCH);
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val_len = strlen(val_start) + 1;
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}
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}
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}
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/*==========================================================================*
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* find_key *
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*==========================================================================*/
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PRIVATE char *find_key(params,name)
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const char *params;
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const char *name;
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{
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register const char *namep;
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register char *envp;
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for (envp = (char *) params; *envp != 0;) {
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for (namep = name; *namep != 0 && *namep == *envp; namep++, envp++)
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;
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if (*namep == '\0' && *envp == '=')
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return(envp + 1);
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while (*envp++ != 0)
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;
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}
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return(NULL);
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}
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@ -3,11 +3,12 @@
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struct mproc;
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struct stat;
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struct mem_map;
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struct memory;
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/* alloc.c */
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_PROTOTYPE( phys_clicks alloc_mem, (phys_clicks clicks) );
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_PROTOTYPE( void free_mem, (phys_clicks base, phys_clicks clicks) );
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_PROTOTYPE( void mem_init, (phys_clicks *free) );
|
||||
_PROTOTYPE( void mem_init, (struct memory *chunks, phys_clicks *free) );
|
||||
#if ENABLE_SWAP
|
||||
_PROTOTYPE( int swap_on, (char *file, u32_t offset, u32_t size) );
|
||||
_PROTOTYPE( int swap_off, (void) );
|
||||
|
@ -98,4 +99,5 @@ _PROTOTYPE( void panic, (char *who, char *mess, int num) );
|
|||
_PROTOTYPE( void tell_fs, (int what, int p1, int p2, int p3) );
|
||||
_PROTOTYPE( int get_stack_ptr, (int proc_nr, vir_bytes *sp) );
|
||||
_PROTOTYPE( int get_mem_map, (int proc_nr, struct mem_map *mem_map) );
|
||||
_PROTOTYPE( char *find_param, (const char *key));
|
||||
|
||||
|
|
|
@ -1,6 +1,7 @@
|
|||
/* This file contains some utility routines for PM.
|
||||
*
|
||||
* The entry points are:
|
||||
* find_param: look up a boot monitor parameter
|
||||
* get_free_pid: get a free process or group id
|
||||
* allowed: see if an access is permitted
|
||||
* no_sys: called for invalid system call numbers
|
||||
|
@ -146,6 +147,27 @@ int what, p1, p2, p3;
|
|||
}
|
||||
|
||||
|
||||
/*==========================================================================*
|
||||
* find_param *
|
||||
*==========================================================================*/
|
||||
PUBLIC char *find_param(name)
|
||||
const char *name;
|
||||
{
|
||||
register const char *namep;
|
||||
register char *envp;
|
||||
|
||||
for (envp = (char *) monitor_params; *envp != 0;) {
|
||||
for (namep = name; *namep != 0 && *namep == *envp; namep++, envp++)
|
||||
;
|
||||
if (*namep == '\0' && *envp == '=')
|
||||
return(envp + 1);
|
||||
while (*envp++ != 0)
|
||||
;
|
||||
}
|
||||
return(NULL);
|
||||
}
|
||||
|
||||
|
||||
/*===========================================================================*
|
||||
* get_mem_map *
|
||||
*===========================================================================*/
|
||||
|
|
Loading…
Reference in a new issue