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So this is the code I am trying to run:


int main(){

  int ret;

  ret = read(STDIN_FILENO,(int*)2000,3);

  return 0;

and this is the output I get at the terminal

anirudh@anirudh-Aspire-5920:~/Desktop/testing$ gcc test.c 
anirudh@anirudh-Aspire-5920:~/Desktop/testing$ ./a.out 
-1--Bad address
anirudh@anirudh-Aspire-5920:~/Desktop/testing$ ls
a.out  htmlget_ori.c  mysocket.cpp  Packet Sniffer.c  resolutionfinder.c  test.c

Question 1: When I type the address 2000 in th read call read(STDIN_FILENO,(int*)2000,3); then where does the address lies. I think this is the absolute address of the RAM that I am trying to access. am I right or is it offset and is added to the Stack Segment Base Address. I do not know. The program is not giving me a SEGFAULT for memory violation rather gives me Bad address

Question 2: Okay so the code crashes when I give the input as lls and bash executes the "ls" part of that "lls". The reason is that the code crashes after reading the first "l" and the rest "ls" part is executed by bash. but why bash is executing the left "ls" part. Why is bash doing so because my code is crashed and even if bash was its parent process it should not read from the file-descriptor (STDIN_FILNO) opened by the code I wrote. ( I think so)...

Thanks for your time.

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"I think this is the absolute address of the RAM that I am trying to access." You think so, based on what information? –  Karl Knechtel Jan 30 '11 at 9:31
@Anirudh: Is there really no better way than specifying a fixed memory location? Could you give some background information about what you're trying to achieve? –  stakx Jan 30 '11 at 9:41
why don't you use read() normally, i.e. unsigned char buffer[3]; read(STDIN_FILENO, &buffer, sizeof(buffer));??? –  Adrien Plisson Jan 30 '11 at 9:44

3 Answers 3

up vote 1 down vote accepted

You are running on a CPU with paging. Your OS maintains page tables which translate from virtual to physical addresses. The page table for your process doesn't contain anything for virtual address 2000, so read() notices, and returns -EFAULT.

stdin is connected to your terminal device (/dev/tty). Your process inherits that terminal from your shell, and the shell gets it back on process exit.

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The 2000 that you are trying to use as an address is a process-specific virtual address. Chances are good that nothing is mapped into that range; you can add this code to see what your mappings currently are:

char cmd[20];

sprintf(cmd, "pmap -x %i", getpid());
printf("%s\n", cmd);

If you really must gain access to system RAM around 2000 (and I can't imagine that you are), use the iopl(2) system call to map that address range into your process memory space. And beware the consequences. :)

As for the rest of the ls behaviour, try adding a \n to your printf() format string, I've found that not properly flushing output can lead to confusing-looking interaction, perhaps this is just confusing, rather than outright strange. :)

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even when I give it (int*) 0 it doesn't work. SO if I consider it to be part of my Data Segment then my code should be allowed to read the memory at the offset 0. –  Durin Jan 30 '11 at 9:36
@Anirudh Tomer, most operating systems by default refuse all access to the data page located at 0x0, as an easy way to find NULL-pointer mistakes. Try executing pmap -x $$ from your shell to get a better idea of how memory mapping works. –  sarnold Jan 30 '11 at 9:42
iopl() doesn't give access to memory assigned to a lower ring. It gives access to IO ports and to some privileged instructions. –  ninjalj Jan 30 '11 at 12:11

I will only answer question 1. I don't fully understand what you mean by question 2, plus it might take care of itself once you fix your first problem.

To answer your question 1, without being 100% sure, I would wager that (int*)2000 specifies a location in your program's data segment, i.e. that the 2000 is only the offset part. The reason why I think so is that generally, with any modern operating system, you hardly ever have unrestricted access to physical memory. The linker and the OS' program loader handle all the segment-related stuff for you -- your program only ever gets to see the offset portion of (virtual — see P.S. below) memory addresses. All things data-related usually happen in the data segment; code-related stuff (such as function calls) are usually bound to the code segment.

As I see it, you have no guarantee that any specific data structure will be located at offset 2000 of your data segment. Your read destination is therefore almost always invalid, as it basically means that you're writing data to a random location in memory.

P.S.: By virtual memory address, I mean that your program's segment will possibly be loaded at different physical memory addresses by the OS. So offset 2000 (for example) of any segment will not always mean the same absolute, physical memory address; rather it's an offset, i.e. relative to a segment's base address, which itself lies at an arbitrary physical memory address.

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I agree that it can't be an absolute address. But I don't agree that U can't access the address 2000 when its a part of the Data Segment of the process itself. In assembly language I can read and write to any address of my process space by just specifying the address's numerical value (offset). –  Durin Jan 30 '11 at 9:39
@Anirudh Tomer, even in assembly, 2000 won't be part of your data segment except under very very exceptional circumstances. Because 2000 < 4096, that address is in the first page, and Linux will NOT map the zero-page into your process unless you take some mighty strange steps. (It involves setting the process's personality type to an operating system that DOES allow mapping the zero page.) –  sarnold Jan 30 '11 at 9:44
@Anirudh Is it possible that you have 2000 in decimal confused with 2000 in hex? –  Karl Knechtel Jan 30 '11 at 9:54
@Anriudh: Your understanding is incorrect. When paging is enabled, even an assembly language program cannot access an address that is not within a mapped area of memory. –  caf Jan 31 '11 at 5:36

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