Operating Systems 2017F Lecture 14: Difference between revisions
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==Video== | |||
The video from the lecture given on Oct. 31, 2017 [http://homeostasis.scs.carleton.ca/~soma/os-2017f/lectures/comp3000-2017f-lec14-31Oct2017.mp4 is now available]. | |||
==Review Notes== | ==Review Notes== | ||
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- mmap: The virtual address range corresponds to the contents of a file or RAM. | - mmap: The virtual address range corresponds to the contents of a file or RAM. | ||
- Concurrency: More than one thing is happening at the same time. | - Concurrency: More than one thing is happening at the same time. | ||
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Professor's explanations of assignment 1 and 2 : | |||
What does stat really return? | |||
Inode number, directry , number if hard links | |||
If you have a file, you basically hard link, and it is basically a reference count. | |||
Manual page for stat() , man stat(2) | |||
o Ctime: modification made by the inode, | |||
o Everytime you read a file, you write to a file system , and it is expensive and not good for you device | |||
Device files are not real file, they are name spaces to access other things, like terminal, screen video. | |||
o Ex: dev random, is not really a file, it just produces bits | |||
o You have to compare which device they are pointing to and if they return the same major and minor ID’s then they are equal | |||
Q10 Review : | |||
Only if it is waiting you wake it up and set the flag into 1 | |||
o Affect = kicks you out | |||
o Generating a lot of signals to the consumer | |||
A signal should happen occasionally | |||
o Kill -1 , you kill every process . don’t get it ask ? | |||
o Maybe you should set the consumer to 0 and see what happens , in 3000pc | |||
Why does the program deadlocks when request a large amount of numbers ? | |||
o signals aren’t always delivered , they sometimes get lost, but generlay they get there unless you send various amount of signals | |||
theory about time: | |||
o gettimeofdat: man gettimeofday | |||
Creating a process: | Creating a process: |
Latest revision as of 04:59, 4 November 2017
Video
The video from the lecture given on Oct. 31, 2017 is now available.
Review Notes
Definitions:
- OS: A resource Manager that abstracts the hardware so that applications can get easy access to it. The OS facilitates resource sharing among concurrent programs. - Kernel: The first program to launch when the computer boots. The kernel has absolute power over the hardware; it manages and controls access to these resources. - Process: A running program. It has one or more threads and address space. - Thread: A function that runs in the same memory space as other functions. - Memory: A contiguous array of bytes. Modern systems virtualize memory, mapping it to physical memory so it can be shared among processes. - Interrupts: A mechanism used by the kernel that interrupts the CPU when other tasks are higher priority. - Signals: Inter-process communications. A mechanism used by the kernel and processes to communicate with one another. - System Call: Specialized functions used by programs to request more resources from the kernel. - File: A hierarchical name with a value mapping (Key/Value pair) - Shell: Another program that is used to send system calls to the kernel or launch other programs. - File system: A set of files grouped together with a common hierarchical root. - Fragmentation: Variable sized memory allocation. - Internal Fragmentation: Space wasted in an allocation. - Concurrency: More than one thing happening at a time. - Atomic Variables: Variables that guarantee a strict ordering of operations. - Segmentation: Managing memory without paging. - Segments: A variable sized block of memory that can be placed in different parts of the address space. - Segfault: When a virtual address does not have a corresponding physical address. - mmap: The virtual address range corresponds to the contents of a file or RAM. - Concurrency: More than one thing is happening at the same time.
Professor's explanations of assignment 1 and 2 :
What does stat really return? Inode number, directry , number if hard links If you have a file, you basically hard link, and it is basically a reference count. Manual page for stat() , man stat(2) o Ctime: modification made by the inode, o Everytime you read a file, you write to a file system , and it is expensive and not good for you device Device files are not real file, they are name spaces to access other things, like terminal, screen video. o Ex: dev random, is not really a file, it just produces bits o You have to compare which device they are pointing to and if they return the same major and minor ID’s then they are equal Q10 Review : Only if it is waiting you wake it up and set the flag into 1 o Affect = kicks you out o Generating a lot of signals to the consumer A signal should happen occasionally o Kill -1 , you kill every process . don’t get it ask ? o Maybe you should set the consumer to 0 and see what happens , in 3000pc Why does the program deadlocks when request a large amount of numbers ? o signals aren’t always delivered , they sometimes get lost, but generlay they get there unless you send various amount of signals theory about time: o gettimeofdat: man gettimeofday
Creating a process:
- fork() creates a process and execve() loads the binary to the new process.
- returns a process id
- pid > 0, parent process
- pid < 0, error
- pid = 0, child process
- returns a process id
- When a parent does not deal with its child processes they become zombies
- If a parent dies before its children they become orphans that are re-parented by the OS
- wait()
- suspends the current process until one, some, or all of its children have terminated
- wait() can be called anytime to check on the status of children
IO redirection:
- >, direct to stdout
- <, direct to stdin
- |, connect the output of one process to the input of another process
- when a process starts it is given file descriptors to stdout, stdin, and stderr
Inodes:
- Contain information about the blocks corresponding to the contents of a file on disk, its owner, and the file access permissions.
- A filename points to an inode
- The inode count represents all of the files and folders on disk
- Hard links create another name to the same inode number
- Only point to files within the same file system
- Symbolic links are files with their own inode
- Can point to files in other partitions or file systems
Virtual Memory:
- Every process receives a memory map with virtual addresses that correspond to physical addresses.
Memory Allocation Challenges:
- Need to have a contiguous address range
- Data Structures can not be moved once allocated
- Memory is constantly allocated and deallocated
Solution to these challenges:
- Use fixed size chunks that can be stored anywhere
- Called a page in memory or a block on disk
- Sizes are always a power of 2 because addresses are indexed in bits
- The benefit: it removes the limitations on array sizes.
- Use a table to map virtual memory to physical memory -- called a page table
- In a 32 bit system: the top 20 bits are the page locations and the lower 12 bits are the page offset
Concurrency:
- Challenge: keeping the shared state consistent; want deterministic behavior from concurrent computations
- Solution: Need mechanisms that bypass the memory hierarchy.
- Use filesystem locking primitives -> atomic variables -> semaphores
- Use signals to synchronize the shared state
Segmentation:
- The physical address can be found by adding the segment register to the offset.