2009-05-31 02:28:45 +02:00
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// Segments in proc->gdt.
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// Also known to bootasm.S and trapasm.S
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2006-09-07 16:12:30 +02:00
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#define SEG_KCODE 1 // kernel code
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#define SEG_KDATA 2 // kernel data+stack
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2009-05-31 02:28:45 +02:00
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#define SEG_KCPU 3 // kernel per-cpu data
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2010-08-06 03:16:55 +02:00
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#define SEG_UCODE 4 // user code
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#define SEG_UDATA 5 // user data+stack
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2009-05-31 02:28:45 +02:00
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#define SEG_TSS 6 // this process's task state
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#define NSEGS 7
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2006-06-12 17:22:12 +02:00
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2010-09-02 10:15:17 +02:00
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// Per-CPU state
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struct cpu {
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uchar id; // Local APIC ID; index into cpus[] below
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2010-09-13 21:34:44 +02:00
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struct context *scheduler; // swtch() here to enter scheduler
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2010-09-02 10:15:17 +02:00
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struct taskstate ts; // Used by x86 to find stack for interrupt
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struct segdesc gdt[NSEGS]; // x86 global descriptor table
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volatile uint booted; // Has the CPU started?
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int ncli; // Depth of pushcli nesting.
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int intena; // Were interrupts enabled before pushcli?
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// Cpu-local storage variables; see below
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struct cpu *cpu;
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2010-09-13 21:34:44 +02:00
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struct proc *proc; // The currently-running process.
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2010-09-02 10:15:17 +02:00
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};
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extern struct cpu cpus[NCPU];
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extern int ncpu;
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// Per-CPU variables, holding pointers to the
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// current cpu and to the current process.
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// The asm suffix tells gcc to use "%gs:0" to refer to cpu
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2010-09-13 21:34:44 +02:00
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// and "%gs:4" to refer to proc. seginit sets up the
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2010-09-02 10:15:17 +02:00
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// %gs segment register so that %gs refers to the memory
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// holding those two variables in the local cpu's struct cpu.
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// This is similar to how thread-local variables are implemented
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// in thread libraries such as Linux pthreads.
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2010-09-13 21:34:44 +02:00
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extern struct cpu *cpu asm("%gs:0"); // &cpus[cpunum()]
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extern struct proc *proc asm("%gs:4"); // cpus[cpunum()].proc
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2010-09-02 10:15:17 +02:00
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//PAGEBREAK: 17
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2006-09-07 16:12:30 +02:00
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// Saved registers for kernel context switches.
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2008-10-15 07:14:10 +02:00
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// Don't need to save all the segment registers (%cs, etc),
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2006-09-07 16:12:30 +02:00
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// because they are constant across kernel contexts.
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2009-05-31 02:28:45 +02:00
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// Don't need to save %eax, %ecx, %edx, because the
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// x86 convention is that the caller has saved them.
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// Contexts are stored at the bottom of the stack they
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// describe; the stack pointer is the address of the context.
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2009-10-07 21:31:55 +02:00
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// The layout of the context matches the layout of the stack in swtch.S
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2010-08-06 17:12:18 +02:00
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// at the "Switch stacks" comment. Switch doesn't save eip explicitly,
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2009-10-07 23:42:14 +02:00
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// but it is on the stack and allocproc() manipulates it.
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2007-08-28 14:48:33 +02:00
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struct context {
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2008-10-15 07:14:10 +02:00
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uint edi;
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uint esi;
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uint ebx;
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uint ebp;
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uint eip;
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Changes to allow use of native x86 ELF compilers, which on my
Linux 2.4 box using gcc 3.4.6 don't seem to follow the same
conventions as the i386-jos-elf-gcc compilers.
Can run make 'TOOLPREFIX=' or edit the Makefile.
curproc[cpu()] can now be NULL, indicating that no proc is running.
This seemed safer to me than having curproc[0] and curproc[1]
both pointing at proc[0] potentially.
The old implementation of swtch depended on the stack frame layout
used inside swtch being okay to return from on the other stack
(exactly the V6 you are not expected to understand this).
It also could be called in two contexts: at boot time, to schedule
the very first process, and later, on behalf of a process, to sleep
or schedule some other process.
I split this into two functions: scheduler and swtch.
The scheduler is now a separate never-returning function, invoked
by each cpu once set up. The scheduler looks like:
scheduler() {
setjmp(cpu.context);
pick proc to schedule
blah blah blah
longjmp(proc.context)
}
The new swtch is intended to be called only when curproc[cpu()] is not NULL,
that is, only on behalf of a user proc. It does:
swtch() {
if(setjmp(proc.context) == 0)
longjmp(cpu.context)
}
to save the current proc context and then jump over to the scheduler,
running on the cpu stack.
Similarly the system call stubs are now in assembly in usys.S to avoid
needing to know the details of stack frame layout used by the compiler.
Also various changes in the debugging prints.
2006-07-11 03:07:40 +02:00
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};
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2009-05-31 07:12:21 +02:00
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enum procstate { UNUSED, EMBRYO, SLEEPING, RUNNABLE, RUNNING, ZOMBIE };
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2006-07-12 03:48:35 +02:00
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2006-09-07 16:12:30 +02:00
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// Per-process state
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struct proc {
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2008-10-15 07:15:32 +02:00
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uint sz; // Size of process memory (bytes)
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2010-09-13 21:34:44 +02:00
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pde_t* pgdir; // Page table
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2008-10-15 07:15:32 +02:00
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char *kstack; // Bottom of kernel stack for this process
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2009-08-31 08:02:08 +02:00
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enum procstate state; // Process state
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2009-05-31 02:39:17 +02:00
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volatile int pid; // Process ID
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2008-10-15 07:15:32 +02:00
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struct proc *parent; // Parent process
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2009-05-31 02:28:45 +02:00
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struct trapframe *tf; // Trap frame for current syscall
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2010-09-13 21:34:44 +02:00
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struct context *context; // swtch() here to run process
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2008-10-15 07:15:32 +02:00
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void *chan; // If non-zero, sleeping on chan
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int killed; // If non-zero, have been killed
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2006-09-07 16:12:30 +02:00
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struct file *ofile[NOFILE]; // Open files
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2008-10-15 07:15:32 +02:00
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struct inode *cwd; // Current directory
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char name[16]; // Process name (debugging)
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2006-06-12 17:22:12 +02:00
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};
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2007-08-24 16:56:17 +02:00
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// Process memory is laid out contiguously, low addresses first:
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2006-09-07 16:12:30 +02:00
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// text
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// original data and bss
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// fixed-size stack
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// expandable heap
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