@ -20,7 +20,7 @@ There are many different ways to launch an application from a user perspective.
In this part we will consider the way when we just launch an application from the shell. As you know, the standard way to launch an application from shell is the following: We just launch a [terminal emulator](https://en.wikipedia.org/wiki/Terminal_emulator) application and just write the name of the program and pass or not arguments to our program, for example:
In this part we will consider the way when we just launch an application from the shell. As you know, the standard way to launch an application from shell is the following: We just launch a [terminal emulator](https://en.wikipedia.org/wiki/Terminal_emulator) application and just write the name of the program and pass or not arguments to our program, for example:
![ls shell](http://i66.tinypic.com/214w6so.jpg)
![ls shell](images/ls_shell.png)
Let's consider what does occur when we launch an application from the shell, what does shell do when we write program name, what does Linux kernel do etc. But before we will start to consider these interesting things, I want to warn that this book is about the Linux kernel. That's why we will see Linux kernel insides related stuff mostly in this part. We will not consider in details what does shell do, we will not consider complex cases, for example subshells etc.
Let's consider what does occur when we launch an application from the shell, what does shell do when we write program name, what does Linux kernel do etc. But before we will start to consider these interesting things, I want to warn that this book is about the Linux kernel. That's why we will see Linux kernel insides related stuff mostly in this part. We will not consider in details what does shell do, we will not consider complex cases, for example subshells etc.
Every access to a linear address is either a supervisor-mode access or a user-mode access. This access is determined by the `CPL` (current privilege level). If `CPL < 3` it is a supervisor mode access level, otherwise it is a user mode access level. For example, the top level page table entry contains access bits and has the following structure (See [arch/x86/include/asm/pgtable_types.h](https://github.com/torvalds/linux/blob/16f73eb02d7e1765ccab3d2018e0bd98eb93d973/arch/x86/include/asm/pgtable_types.h) for the bit offset definitions):
Every access to a linear address is either a supervisor-mode access or a user-mode access. This access is determined by the `CPL` (current privilege level). If `CPL < 3` it is a supervisor mode access level, otherwise it is a user mode access level. For example, the top level page table entry contains access bits and has the following structure (See [arch/x86/include/asm/pgtable_types.h](https://github.com/torvalds/linux/blob/16f73eb02d7e1765ccab3d2018e0bd98eb93d973/arch/x86/include/asm/pgtable_types.h) for the bit offset definitions):
type. Note that the value of the `TVR_SIZE` depends on the `CONFIG_BASE_SMALL` kernel configuration option:
type. Note that the value of the `TVR_SIZE` depends on the `CONFIG_BASE_SMALL` kernel configuration option:
![base small](http://i68.tinypic.com/aylkt2.png)
![base small](images/base_small.png)
that reduces size of the kernel data structures if disabled. The `v1` is array that may contain `64` or `256` elements where an each element represents a dynamic timer that will decay within the next `255` system timer interrupts. Next three fields: `tv2`, `tv3` and `tv4` are lists with dynamic timers too, but they store dynamic timers which will decay the next `2^14 - 1`, `2^20 - 1` and `2^26` respectively. The last `tv5` field represents list which stores dynamic timers with a large expiring period.
that reduces size of the kernel data structures if disabled. The `v1` is array that may contain `64` or `256` elements where an each element represents a dynamic timer that will decay within the next `255` system timer interrupts. Next three fields: `tv2`, `tv3` and `tv4` are lists with dynamic timers too, but they store dynamic timers which will decay the next `2^14 - 1`, `2^20 - 1` and `2^26` respectively. The last `tv5` field represents list which stores dynamic timers with a large expiring period.