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1、操作系统作业(一),作业 #1,进程切换时需要保存哪些现场信息?请尽量考虑完全。,答案:进程切换过程是进程上下文的切换过程,进程上下文是指进程运行的物理环境。包括地址映寄存器、通用寄存器、浮点寄存器、SP、PSW(程序状态字)、PC(指令计数器)、以及打开文件表等。,2. 由核心返回目态程序时,进程的PSW和PC为何必须用一条机器指令同时恢复?,答案:中断向量中程序状态字PSW和指令计数器PC的内容必须由一条指令同时恢复,这样才能保证系统状态由管态转到目态的同时,控制转到上升进程的断点处继续执行。如果不同时恢复,则只能 1.先恢复PSW再恢复PC,在恢复PSW后已经转到目态,操作系统恢复PC的
2、使命无法完成 2.先恢复PC再恢复PSW,PC改变后转到操作系统另外区域(因为PSW仍在系统状态),PSW无法恢复,作业 #2,Consider the following program:var blocked: array0.1of boolean; turn:0.1;procedure P(id:integer);begin repeat blockedid:=true; while turnid do begin while blocked1-id do nothing turn:=id end; blockedid:=false; until falseend;,begin bloc
3、ked0:=false; blocked1:=false; turn:=0; parbegin P(0); P(1) parend;end.This is a software solution to the mutual exclusion problem proposed by Hyman. Find a counter example to demonstrate that this solution is incorrect. It is interesting to note that even the Communication of the ACM was fooled on t
4、his one.,begin repeat blockedid:=true; while turnid do begin while blocked1-id do nothing (1) turn:=id end; 若turn=1, blocked0:=true, blocked1:= false ,P(0), P(1)并发执行, P(0)先推进,当P(0)执行到while blocked1-id 时不满足条件跳出循环在(1)处让出处理机P(1)推进, P(1)执行while turnid 而进入临界区后让出处理机, P(0), 继续也进入临界区,不满足正确性。,作业 #3,关于读者写者问题改
5、进算法semaphore r_w_w ,mutex ,s=1;int count=0;写者活动:P(s);P(r_w_w);写操作;V(r_w_w);V(s);,读者活动:P(s);P(mutex);count+;if (count=1) p(r_w_w);V(mutex);V(s);读操作;P(mutex);count-;if (count=0) v(r_w_w);V(mutex);,写者优先算法int readcount ,writecount =0;semaphore rsem, wsem =1;Semaphore x ,y , z =1;,Reader: writer: p(z) 1
6、p(y) p(rsem) 2 writecount+ p(x) if(writecount=1)p(rsem) 4 readcount+ v(y) if(readcount=1) p(wsem) p(wsem) 5 v(x) v(rsem) 3 v(wsem) v(z) p(y) writecount- p(x) if(writecount=0) readcount- v(rsem) 6 if(readcount=0) v(wsem) 7 v(y) v(x),作业 #4,设系统有5台类型相同的打印机,依次编号为1-5。又设系统有n个使用打印机的进程,使用前申请,使用后释放。每个进程都有一个进程
7、标识,用于区分不同的进程。每个进程有一个优先数,不同进程的优先数各异。当有多个进程同时申请打印机时,按照进程优先数由高到低的次序实施分配。试用信号量和PV操作实现对打印机资源的管理,即要求编写如下函数和过程。,(1)函数require(pid,pri):申请一台打印机。参数pid为进程标识,其值为1-n之间的一个整数;pri为进程优先数,其值为正整数。函数返回值为所申请到的打印机的编号,其值为1-5的一个整数。(2)过程return(prnt):释放一台打印机。参数prnt为所释放的打印机的编号,其值为1-5的一个整数。,int lp5; (initial value is 1) int co
8、unt=5; int pN ;(initial value is -1) semaphore qN; (initial value is 0) semaphore mutex=1;,int require(int pid,int pri); p(mutex);L: if (count=0) pripid=pri; v(mutex) P(qpid); goto L; count-; int i; for( i=0; i5;i+) if (lpi!=0) lpi=0; return(i); V(mutex);,int return(int prnt) P(mutex); lpprnt=1; cou
9、nt+; int max , i , j; max=-1; for ( j=0;jmax) max=pj; i=j; if (max=-1) V(mutex); else pi=-1; v(qi;,2.Hoare管程实现SCAN算法,Procedure upscan; Var I:0.200; Begin I:=headpos; flag:=true; While (I=199)and(countI=0) Do I:=I+1; If I=199 Then Begin countI:=countI-1; signal(cylinderI) flag=false ; End End;,Proced
10、ure downscan; Var I:-1.199; Begin I:=headpos; flag:=true; While (I=0)and(countI=0) Do I:=I-1; If I=0 Then Begin countI:=countI-1; signal(cylinderI) flag=false ; End End;,Procedure release; Begin busy:=false; If direction=up Then Begin upscan; if flag=true then downscan End Else Begin downscan; if fl
11、ag=true then upscan End End;,Hansen管程中signal操作在唤醒条件队列的一个进程后执行此操作的进程离开管程,在本例中signal操作在release中的upscan和downscan中执行。如下:,Procedure release Begin If direction=up Then Begin upscan; downscan End Else Begin downscan; upscan End End;,当在upscan或downscan中执行signal操作时,进程就离开了管城即结束了release,不会去执行upscan或downscan后面的d
12、ownscan 或upscan。但是在Hoare管程中当进程执行signal操作时,不仅会唤醒条件队列中的一个进程,同时执行此操作的进程并不离开管程而是在管程中的紧急队列排队,若还沿用Hanson管程的代码会出现以下情况。,若进程在upscan中执行signal操作后进入紧急队列,当进程在紧急队列被唤醒后就会继续执行release中的后续代码即执行downscan,这不符合程序的语义,一个进程一次只能释放一个资源同时也就只能唤醒一个进程,若进程继续执行downscan会执行下一个唤醒动作。,读者/写者问题(写者优先),1. 用Ada语言中的会合解决读者/写者问题,要求写者优先。即编写一个任务,
13、其中有如下四个入口: start_read; finish_read, start_write, finish_write. 提示:可以使用嵌套的accept语句。,读者-写者问题,Task readers_writers is entry start_read; entry finish_read; entry start_write; entry finish_write;End readers_writes;Task body readers_writers is; Var read_count, write_count: integer; begin read_count:=0; wr
14、ite_count:=0;,读者-写者问题,Loop select when write_count=0 = accept start_read do read_count := read_count+1; end start_read or when read_count0 = accept finish_read do read_count := read_count-1; end finish_read; or,读者-写者问题,when write_count=0 = accept start_write do while read_count 0 do accept finish_re
15、ad do read_count:= read_count -1; end finish_read end while end start_write; write_count:=write_count+1; or when write_count0 = accept finish_write do write_count:=write_count-1; end finish_write; end select End loop;End readers_writers,读者-写者问题,读者活动:Readers_writes.start_read;读操作Readers_writers.finish_read;写者活动:Readers_writers.start_write;写操作Readers_writers.finish_write;,
