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I am trying to implement a Data Flow Anomaly Detection using ptrace. After a bit of research I implemented a program which is similar to strace. And I am now confused on this:
"System calls provide the interface between a process and the operating system" This is what wiki tells me about system calls.
When I am using ptrace to modify the processes memory, Am I working on user space or kernel space?
Really confused on this.

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You are operating in the address space of a separate process; this requires the intercession of (and permission from) the kernel, since independent processes cannot normally affect each others' address spaces.

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Actually ptrace will generate a int 0x80 for each system call right? So I am dealing with a interrupt so I am in kernel space right? This was my first thought. Was I wrong ? – bi0s.kidd0 Apr 11 '12 at 5:06
Not exactly, it can stop the process when it makes a system call (which is already int 0x80 for Linux on Intel) but it can also simply inspect process memory or registers. Any of these however cannot be done directly to a process by another process; that second process must instead ask the kernel to act on the first, which is what ptrace does. – geekosaur Apr 11 '12 at 5:13
So if I want to operate directly in kernel space what should I do ?? – bi0s.kidd0 Apr 11 '12 at 5:29
That is usually not permitted, because it has fairly serious security implications. Guarding and validating access to kernel capabilities (which is, when it comes down to it, full control of the system) is the point of system calls. If you really want to do kernel-level operations, you would create a new system call to expose those operations to userspace, preferably with access controls so a buggy userspace process cannot damage some other process's (or worse, the kernel's own or some device's) memory. – geekosaur Apr 11 '12 at 5:34

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