chapter 3: processes and threads dhamdhere: operating systems a concept-based approach, 2ed slide...
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Chapter 3: Processes and Threads Dhamdhere: Operating Systems— A Concept-Based Approach, 2ed Slide No: 3 Copyright © 2006 A threads is a program execution within the context of a process (i.e., it uses the resources of a process); many threads can be created within the same process Switching between threads of the same process involves much less switching overheadTRANSCRIPT
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 1Copyright © 2006
Threads
• Context switch between processes is an expensive operation. It leads to high overhead
• A thread is an alternative model for execution of a program that incurs smaller overhead while switching between threads of the same application
Q: How is this achieved?
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 2Copyright © 2006
Thread switching overhead
• A process context switch involves: 1. saving the context of the
process in operation 2. saving its CPU state 3. loading the state of the new
process 4. loading its CPU state
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 3Copyright © 2006
• A threads is a program execution within the context of a process (i.e., it uses the resources of a process); many threads can be created within the same process
• Switching between threads of the same process involves much less switching overhead
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 4Copyright © 2006
• BPROCESS
THREADS
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 5Copyright © 2006
OOP WITH C++ & JAVA – D SAMANTA –PHI(B)
• MULTITHREADING MEANS MULTIPLE FLOW OF CONTROL -- 2 ADVANTAGES
• 1. BETTER UTLIZN OF RES• 2. SEVERAL PROBS SOLVED
BETTER BY MULTITHREADS - EXS
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 6Copyright © 2006
EXS(B)
• PROGRAM TO DISPLAY ANIMATION, DOCUMENTS TO PLAY MUSIC, & DOWNLOAD FILES FROM THE NET AT THE SAME TIME
• NETWORK SIMULATION EX –ADHOC NETW
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 7Copyright © 2006
• B• JAVA IS A MULTITHREADED LANG• BECAUSE JAVA THRS RUN IN THE
SAME MEM SPACE, THEY CAN EASILY COMMN AMONG THEMSELVES, BECAUSE AN OBJECT IN ONE THR CAN CALL A METHOD IN ANOTHER THR WITHOUT ANY OVERHEAD REQ FROM THE OS
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 8Copyright © 2006
• B• T1=new testthread(“thread1”, (int)
(math.random()*2000));• T2, T3• T2.start();• T1.start();• T3.start();
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 9Copyright © 2006
• B• Start(), stop(), suspend(), resume();
sleep(int n), setPriority(int p), yield() – yield method causes the run time to switch the context from the current thr to the next available runnable thr.
• SPECIALITY –FACILITIES AT THE LANG LEVEL –USER CONTROL
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 10Copyright © 2006
Threads
• Where are threads useful?• If two processes share the same address
space and the same resources, they have identical context–switching between these processes
involves saving and reloading of their contexts. This overhead is redundant.
• In such situations, it is better to use threads.
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 11Copyright © 2006
Threads in process Pi : (a) concept, (b) implementation
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 12Copyright © 2006
Advantages of threads
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 13Copyright © 2006
Different kinds of threads
• Kernel-level threads: Threads are created through system calls. The kernel is aware of their existence, and schedules them
• User-level threads: Threads are created and maintained by a thread library, whose routines exist as parts of a process. Kernel is oblivious of their existences.
• Hybrid threads: A combination of the above.
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 14Copyright © 2006
Q: Why three kinds of threads?A: Consider switching overhead,
concurrency/parallelism
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 15Copyright © 2006
Scheduling of kernel-level threads
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 16Copyright © 2006
EVENT
SAVE THREAD STATE
EVENT PROCESSING
SCHEDULING
THREAD OF SAME PR ?
SAVE PR CONTEXT
LOAD NEW CONTEXT
DISPATCH THREAD
YES
NO
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 17Copyright © 2006
Scheduling of user-level threads
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 18Copyright © 2006
Kernel-level and user-level threads
• Thread switching overhead
• Concurrency and parallelism
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 19Copyright © 2006
Actions of the threads library: N, R, B indicate running, ready and blocked --- this schematic should be
replaced by the schematic of Ex. 3.6.
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 20Copyright © 2006
Hybrid thread models
• Hybrid threads have elements of both kernel-level and user-level threads
• Each user-level thread has a thread control block (TCB)• Each kernel-level thread has a kernel thread control
block (KTCB)• Three models of associating user-level and kernel-level
threads– One-to-one association– Many-to-one association– Many-to-many association
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 21Copyright © 2006
Hybrid thread models
• This schematic should be added (Fig. 3.15)
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 22Copyright © 2006
Process Interactions
Processes may interact in four different ways:1.Sharing of data – Data consistency should
be preserved2.Synchronization of actions– Processes
should perform their actions in a desired order
3.Passing of messages – Messages should be stored and delivered appropriately
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 23Copyright © 2006
4. Sending of Signals – Processes should be able to send signals to other processes and specify signal handling actions when signals are sent to them
The OS performs message passing and provides facilities
for the other three modes of interaction
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 24Copyright © 2006
An example of data sharing: airline reservations
• MULTIPLE PROCESSES –EACH PR SERVICING ONE AGENT TERMINAL
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 25Copyright © 2006
RACE CONDITIONS(B)
• LET Ds BE A SHARED VAR• Ai & Aj BE PRS WHICH SHARE THIS
VAR & OPERATE CONCURRENTLY• Ai : Ds=Ds+10;• Aj : Ds=Ds+5;• BECAUSE OF CONCURRENCY THERE
IS UNCERTAINTY –RACE CONDN• SOLUTION – MUTUAL EXCLN
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 26Copyright © 2006
Race conditions in data sharing
Results of operations performed on shared data may bewrong if race conditions exist. Let us see why this may be so• Let operations Oi and Oj update value of a shared data
d, let fi(d) and fj(d) represent the value of d after the operations
• If processes Pi and Pj perform operations Oi and Oj
– If Oi is performed before Oj, resulting value of d is fi(fj(d))
– If Oj is performed before Oi, resulting value of d is fj(fi(d))
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 27Copyright © 2006
Race conditions in data sharing
• A race condition is a situation in which the result of performing operations Oi and Oj in two processes is neither fi(fj(d)) nor fj(fi(d)).
• Q: Why do race conditions exist?
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 28Copyright © 2006
Data sharing by processes of a reservations system
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 29Copyright © 2006
Race condition in the airline reservations system
• Race conditions in the airline reservations system may have two consequences:–nextseatno may not be updated
properly–Same seat number may be
allocated to two passengers
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 30Copyright © 2006
Race conditions in the airline reservations system
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 31Copyright © 2006
Control synchronization between processes: Operation sj should be performed after si
TIME
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 32Copyright © 2006
• (FIG a) PR Pi EXECUTES Si 1ST & THEN Pj EXECUTES Sj
• (FIG b) PR Pj IS NOT ALLOWED TO EXEC Sj TILL Pi EXECUTES Si
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 33Copyright © 2006
EX 4.6(1ST EDN) – DESIGN TO REDUCE THE TIME OF EXECN
• Y=HCF(Amax, X) WHERE A IS ARRAY OF N ELEMENTS
• INSERT Y IN ARR• ARR A IN ASC ORDER• TO DET NO. OF PRS &
COMPUTATIONS IN EACH PR• PROBLEM SPLIT INTO FOLL STEPS
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 34Copyright © 2006
1.READ N ELMENTS OF ARR A2.FIND Amax3.READ X4.DET Y=HCF(Amax, X)5.INCLUDE Y IN ARR A & ARR IN ASC
ORDER• EACH ST IS CONSIDERED TO BE A
SEPARATE PR –THEN DET WHICH OF THESE PRS INTERACT
• 2, 4, 5 ARE INTERACTING PRS• CONC CAN BE ACHIEVED BY
SPLITTING 2 & 5 INTO TWO PARTS
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 35Copyright © 2006
2(a) COPY ARR A TO ARR B2(b) FIND Amax5(a) ARRANGE ARR B IN ASC ORDER5(b) INCLUDE Y IN ARR B AT APPROPR
PLACE
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 36Copyright © 2006
P1
READ ELS
OF A
COPY A
TO B
P2
FIND Amax
P3
READ X
P4
Y=HCF(A
max, X)
P5
ARR B IN
ASC
ORDER
P6
INCLUDE Y
IN ARR B
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 37Copyright © 2006
WHICH ARE THE PRS THAT CAN RUN CONCURRENTLY ?
• P1, P3 –C• P1 & P2 CANNOT RUN CONC AS THEY
SHARE ARR A• P2 MUST GO AFTER P1 FINISHES• P4 CAN BE INITD ONLY AFTER P1 & P3
TERMINATE• P5 CAN BE INITD AFTER P1 TERMS,
WHILE P6 CAN START ONLY AFTER P4 & P5 TERMINATE
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 38Copyright © 2006
Interprocess messages
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 39Copyright © 2006
Advantages of message passing
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 40Copyright © 2006
IMPLEMENTATION OF INTERACTING PROCESSES
FORK - JOIN & PARBEGIN - PAREND
• FORK SPAWNS A NEW PR & JOIN WAITS FOR A PREVIOUSLY CREATED PR TO TERMINATE
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 41Copyright © 2006
PR 0
FORK A,J,3
PR 0
JOIN J
FORK B
PR 1
JOIN J
PR 2
JOIN J
PR i
J
J+1
A
B
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 42Copyright © 2006
• FOR I= 1 TO 100• READ A[I];• M=3;• FORK LAB1;• FORK LAB2;• GOTO LAB3;• LAB1: X=MIN(A);• GOTO LAB3;• LAB2: Y=MAX(A);• LAB3: JOIN M;• RESULT=Y/X;
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 43Copyright © 2006
• FOR I= 1 TO 100• READ A[I];• PARBEGIN• X=MIN(A);• Y=MAX(A);• PAREND• RESULT=Y/X;
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 44Copyright © 2006
Signals
• A process can send signals to other processes to convey exceptional situations
• A process must anticipate signals from other processes• It must provide a signal handler for each such signal. It
specifies the handler through a system call. The kernel notes information about the signal handler
• The kernel activates the signal handler when a signal is sent to the process
• Schematic of signals on the next slide
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 45Copyright © 2006
Signal handling by process Pi (a) Initialization, (b) Signal processing
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 46Copyright © 2006
Processes in Unix
• A process operates in two modes---user mode and kernel mode.– When a process makes a system call, it enters the kernel mode
and itself executes the kernel code for handling the system call– It reenters the user mode after handling the system call– Hence two running states: User running and kernel running– A process in the kernel running state is non-interruptible– A process in kernel running mode gets blocked when it makes
an I/O request– Kernel code is written in a reentrant manner so that a process
can enter the kernel mode even if other processes are blocked in that mode
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 47Copyright © 2006
Process state transitions in Unix
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 48Copyright © 2006
Threads in Solaris
• Provides three entities for concurrency:– User threads: Managed by a threads library– Light weight processes (LWP): A unit of parallelism within a
process. Threads library maps user threads into LWPs. Several LWPs may be created within a process.
– Kernel threads: A kernel thread is associated with each LWP. The kernel also creates some kernel threads for its own use, e.g., a thread to handle disk I/O.
• Mapping between threads and LWPs influences parallelism (see Hybrid models’ schematic)
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 49Copyright © 2006
Processes and threads in Linux
• Linux supports kernel-level threads• Threads and processes are treated alike except at
creation– A thread shares the information about memory management,
current directory, open files and signal handlers of its parent process; a process does not share any information of its parent
• A thread or process contains information about– Its parent– Its deemed parent, to whom its termination should be reported
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 50Copyright © 2006
Processes and threads in Linux
• Process and thread states:– Task_running: scheduled or waiting to be scheduled– Task_interruptible: sleeping on an event, but may receive a
signal– Task_uninterruptible: sleeping and may not receive a signal– Task_stopped: operation has been stopped by a signal– Task_zombie: operation completed, but its parent has not issued
a system call to check whether it has terminated
• Interruptibility simplifies implementation of signals
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 51Copyright © 2006
Processes and threads in Windows
• A process is a unit for resource allocation, and a thread is a unit for concurrency. Hence each process must have at least one thread in it
• Thread states:– Standby: Thread has been selected to run on a CPU– Transition: Kernel stack has been swapped out
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Chapter 3:Processes and Threads
Dhamdhere: Operating Systems—A Concept-Based Approach, 2ed
Slide No: 52Copyright © 2006
Thread state transitions in Windows 2000