xv6-65oo2/kalloc.c

// Physical memory allocator, intended to allocate
// memory for user processes, kernel stacks, page table pages,
// and pipe buffers. Allocates 4096-byte pages.

#include "types.h"
#include "defs.h"
#include "param.h"
#include "memlayout.h"
#include "mmu.h"
#include "spinlock.h"

void freerange(void *vstart, void *vend);
extern char end[]; // first address after kernel loaded from ELF file
                   // defined by the kernel linker script in kernel.ld

struct run {
  struct run *next;
};

struct {
  struct spinlock lock;
  int use_lock;
  struct run *freelist;
} kmem;

// Initialization happens in two phases.
// 1. main() calls kinit1() while still using entrypgdir to place just
// the pages mapped by entrypgdir on free list.
// 2. main() calls kinit2() with the rest of the physical pages
// after installing a full page table that maps them on all cores.
void
kinit1(void *vstart, void *vend)
{
  initlock(&kmem.lock, "kmem");
  kmem.use_lock = 0;
  freerange(vstart, vend);
}

void
kinit2(void *vstart, void *vend)
{
  freerange(vstart, vend);
  kmem.use_lock = 1;
}

void
freerange(void *vstart, void *vend)
{
  char *p;
  p = (char*)PGROUNDUP((uint64)vstart);
  for(; p + PGSIZE <= (char*)vend; p += PGSIZE)
    kfree(p);
}
//PAGEBREAK: 21
// Free the page of physical memory pointed at by v,
// which normally should have been returned by a
// call to kalloc().  (The exception is when
// initializing the allocator; see kinit above.)
void
kfree(char *v)
{
  struct run *r;

  if((uint64)v % PGSIZE || v < end || V2P(v) >= PHYSTOP)
    panic("kfree");

  // Fill with junk to catch dangling refs.
  memset(v, 1, PGSIZE);

  if(kmem.use_lock)
    acquire(&kmem.lock);
  r = (struct run*)v;
  r->next = kmem.freelist;
  kmem.freelist = r;
  if(kmem.use_lock)
    release(&kmem.lock);
}

// Allocate one 4096-byte page of physical memory.
// Returns a pointer that the kernel can use.
// Returns 0 if the memory cannot be allocated.
char*
kalloc(void)
{
  struct run *r;

  if(kmem.use_lock)
    acquire(&kmem.lock);
  r = kmem.freelist;
  if(r)
    kmem.freelist = r->next;
  if(kmem.use_lock)
    release(&kmem.lock);
  if(r != 0 && (uint64) r < KERNBASE)
    panic("kalloc");
  return (char*)r;
}
no /* */ comments 2006-09-06 17:50:20 +00:00			`// Physical memory allocator, intended to allocate`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`// memory for user processes, kernel stacks, page table pages,`
			`// and pipe buffers. Allocates 4096-byte pages.`
import 2006-06-12 15:22:12 +00:00
			`#include "types.h"`
			`#include "defs.h"`
i think my cmpxchg use was wrong in acquire nesting cli/sti: release shouldn't always enable interrupts separate setup of lapic from starting of other cpus, so cpu() works earlier flag to disable locking in console output make locks work even when curproc==0 (still crashes in clock interrupt) 2006-07-12 11:15:38 +00:00			`#include "param.h"`
Map kernel high Very important to give qemu memory through PHYSTOP :( 2011-07-29 11:31:27 +00:00			`#include "memlayout.h"`
Initial version of single-cpu xv6 with page tables 2010-07-02 18:51:53 +00:00			`#include "mmu.h"`
no more big kernel lock succeeds at usertests.c pipe test 2006-07-12 01:48:35 +00:00			`#include "spinlock.h"`

eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`void freerange(void vstart, void vend);`
			`extern char end[]; // first address after kernel loaded from ELF file`
Thanks Anton Burtsev <aburtsev@uci.edu> 2017-08-08 23:42:51 +00:00			`// defined by the kernel linker script in kernel.ld`
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00
import 2006-06-12 15:22:12 +00:00			`struct run {`
			`struct run *next;`
			`};`
group locks into structs they protect. few naming nits. 2009-05-31 05:12:21 +00:00
			`struct {`
			`struct spinlock lock;`
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`int use_lock;`
group locks into structs they protect. few naming nits. 2009-05-31 05:12:21 +00:00			`struct run *freelist;`
			`} kmem;`
import 2006-06-12 15:22:12 +00:00
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`// Initialization happens in two phases.`
			`// 1. main() calls kinit1() while still using entrypgdir to place just`
			`// the pages mapped by entrypgdir on free list.`
			`// 2. main() calls kinit2() with the rest of the physical pages`
			`// after installing a full page table that maps them on all cores.`
			`void`
			`kinit1(void vstart, void vend)`
Map kernel high Very important to give qemu memory through PHYSTOP :( 2011-07-29 11:31:27 +00:00			`{`
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`initlock(&kmem.lock, "kmem");`
			`kmem.use_lock = 0;`
			`freerange(vstart, vend);`
			`}`
Map kernel high Very important to give qemu memory through PHYSTOP :( 2011-07-29 11:31:27 +00:00
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`void`
			`kinit2(void vstart, void vend)`
			`{`
			`freerange(vstart, vend);`
			`kmem.use_lock = 1;`
Map kernel high Very important to give qemu memory through PHYSTOP :( 2011-07-29 11:31:27 +00:00			`}`
exec questions 2010-09-19 11:18:42 +00:00
import 2006-06-12 15:22:12 +00:00			`void`
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`freerange(void vstart, void vend)`
import 2006-06-12 15:22:12 +00:00			`{`
make new code like old code Variable declarations at top of function, separate from initialization. Use == 0 instead of ! for checking pointers. Consistent spacing around {, *, casts. Declare 0-parameter functions as (void) not (). Integer valued functions return -1 on failure, 0 on success. 2011-01-11 18:01:13 +00:00			`char *p;`
Checkpoint port of xv6 to x86-64. Passed usertests on 2 processors a few times. The x86-64 doesn't just add two levels to page tables to support 64 bit addresses, but is a different processor. For example, calling conventions, system calls, and segmentation are different from 32-bit x86. Segmentation is basically gone, but gs/fs in combination with MSRs can be used to hold a per-core pointer. In general, x86-64 is more straightforward than 32-bit x86. The port uses code from sv6 and the xv6 "rsc-amd64" branch. A summary of the changes is as follows: - Booting: switch to grub instead of xv6's bootloader (pass -kernel to qemu), because xv6's boot loader doesn't understand 64bit ELF files. And, we don't care anymore about booting. - Makefile: use -m64 instead of -m32 flag for gcc, delete boot loader, xv6.img, bochs, and memfs. For now dont' use -O2, since usertests with -O2 is bigger than MAXFILE! - Update gdb.tmpl to be for i386 or x86-64 - Console/printf: use stdarg.h and treat 64-bit addresses different from ints (32-bit) - Update elfhdr to be 64 bit - entry.S/entryother.S: add code to switch to 64-bit mode: build a simple page table in 32-bit mode before switching to 64-bit mode, share code for entering boot processor and APs, and tweak boot gdt. The boot gdt is the gdt that the kernel proper also uses. (In 64-bit mode, the gdt/segmentation and task state mostly disappear.) - exec.c: fix passing argv (64-bit now instead of 32-bit). - initcode.c: use syscall instead of int. - kernel.ld: load kernel very high, in top terabyte. 64 bits is a lot of address space! - proc.c: initial return is through new syscall path instead of trapret. - proc.h: update struct cpu to have some scratch space since syscall saves less state than int, update struct context to reflect x86-64 calling conventions. - swtch: simplify for x86-64 calling conventions. - syscall: add fetcharg to handle x86-64 calling convetions (6 arguments are passed through registers), and fetchaddr to read a 64-bit value from user space. - sysfile: update to handle pointers from user space (e.g., sys_exec), which are 64 bits. - trap.c: no special trap vector for sys calls, because x86-64 has a different plan for system calls. - trapasm: one plan for syscalls and one plan for traps (interrupt and exceptions). On x86-64, the kernel is responsible for switching user/kernel stacks. To do, xv6 keeps some scratch space in the cpu structure, and uses MSR GS_KERN_BASE to point to the core's cpu structure (using swapgs). - types.h: add uint64, and change pde_t to uint64 - usertests: exit() when fork fails, which helped in tracking down one of the bugs in the switch from 32-bit to 64-bit - vectors: update to make them 64 bits - vm.c: use bootgdt in kernel too, program MSRs for syscalls and core-local state (for swapgs), walk 4 levels in walkpgdir, add DEVSPACETOP, use task segment to set kernel stack for interrupts (but simpler than in 32-bit mode), add an extra argument to freevm (size of user part of address space) to avoid checking all entries till KERNBASE (there are MANY TB before the top 1TB). - x86: update trapframe to have 64-bit entries, which is what the processor pushes on syscalls and traps. simplify lgdt and lidt, using struct desctr, which needs the gcc directives packed and aligned. TODO: - use int32 instead of int? - simplify curproc(). xv6 has per-cpu state again, but this time it must have it. - avoid repetition in walkpgdir - fix validateint() in usertests.c - fix bugs (e.g., observed one a case of entering kernel with invalid gs or proc 2018-09-23 12:24:42 +00:00			`p = (char*)PGROUNDUP((uint64)vstart);`
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`for(; p + PGSIZE <= (char*)vend; p += PGSIZE)`
oops. last minute simplicifaction to kalloc(). 2010-08-31 23:21:33 +00:00			`kfree(p);`
import 2006-06-12 15:22:12 +00:00			`}`
Page break kalloc.c 2010-08-31 21:52:03 +00:00			`//PAGEBREAK: 21`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`// Free the page of physical memory pointed at by v,`
more comments 2006-09-07 14:12:30 +00:00			`// which normally should have been returned by a`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`// call to kalloc(). (The exception is when`
more comments 2006-09-07 14:12:30 +00:00			`// initializing the allocator; see kinit above.)`
import 2006-06-12 15:22:12 +00:00			`void`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`kfree(char *v)`
import 2006-06-12 15:22:12 +00:00			`{`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`struct run *r;`
import 2006-06-12 15:22:12 +00:00
Checkpoint port of xv6 to x86-64. Passed usertests on 2 processors a few times. The x86-64 doesn't just add two levels to page tables to support 64 bit addresses, but is a different processor. For example, calling conventions, system calls, and segmentation are different from 32-bit x86. Segmentation is basically gone, but gs/fs in combination with MSRs can be used to hold a per-core pointer. In general, x86-64 is more straightforward than 32-bit x86. The port uses code from sv6 and the xv6 "rsc-amd64" branch. A summary of the changes is as follows: - Booting: switch to grub instead of xv6's bootloader (pass -kernel to qemu), because xv6's boot loader doesn't understand 64bit ELF files. And, we don't care anymore about booting. - Makefile: use -m64 instead of -m32 flag for gcc, delete boot loader, xv6.img, bochs, and memfs. For now dont' use -O2, since usertests with -O2 is bigger than MAXFILE! - Update gdb.tmpl to be for i386 or x86-64 - Console/printf: use stdarg.h and treat 64-bit addresses different from ints (32-bit) - Update elfhdr to be 64 bit - entry.S/entryother.S: add code to switch to 64-bit mode: build a simple page table in 32-bit mode before switching to 64-bit mode, share code for entering boot processor and APs, and tweak boot gdt. The boot gdt is the gdt that the kernel proper also uses. (In 64-bit mode, the gdt/segmentation and task state mostly disappear.) - exec.c: fix passing argv (64-bit now instead of 32-bit). - initcode.c: use syscall instead of int. - kernel.ld: load kernel very high, in top terabyte. 64 bits is a lot of address space! - proc.c: initial return is through new syscall path instead of trapret. - proc.h: update struct cpu to have some scratch space since syscall saves less state than int, update struct context to reflect x86-64 calling conventions. - swtch: simplify for x86-64 calling conventions. - syscall: add fetcharg to handle x86-64 calling convetions (6 arguments are passed through registers), and fetchaddr to read a 64-bit value from user space. - sysfile: update to handle pointers from user space (e.g., sys_exec), which are 64 bits. - trap.c: no special trap vector for sys calls, because x86-64 has a different plan for system calls. - trapasm: one plan for syscalls and one plan for traps (interrupt and exceptions). On x86-64, the kernel is responsible for switching user/kernel stacks. To do, xv6 keeps some scratch space in the cpu structure, and uses MSR GS_KERN_BASE to point to the core's cpu structure (using swapgs). - types.h: add uint64, and change pde_t to uint64 - usertests: exit() when fork fails, which helped in tracking down one of the bugs in the switch from 32-bit to 64-bit - vectors: update to make them 64 bits - vm.c: use bootgdt in kernel too, program MSRs for syscalls and core-local state (for swapgs), walk 4 levels in walkpgdir, add DEVSPACETOP, use task segment to set kernel stack for interrupts (but simpler than in 32-bit mode), add an extra argument to freevm (size of user part of address space) to avoid checking all entries till KERNBASE (there are MANY TB before the top 1TB). - x86: update trapframe to have 64-bit entries, which is what the processor pushes on syscalls and traps. simplify lgdt and lidt, using struct desctr, which needs the gcc directives packed and aligned. TODO: - use int32 instead of int? - simplify curproc(). xv6 has per-cpu state again, but this time it must have it. - avoid repetition in walkpgdir - fix validateint() in usertests.c - fix bugs (e.g., observed one a case of entering kernel with invalid gs or proc 2018-09-23 12:24:42 +00:00			`if((uint64)v % PGSIZE \|\| v < end \|\| V2P(v) >= PHYSTOP)`
import 2006-06-12 15:22:12 +00:00			`panic("kfree");`

writeable => writable 2006-09-06 18:06:04 +00:00			`// Fill with junk to catch dangling refs.`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`memset(v, 1, PGSIZE);`
swtch saves callee-saved registers swtch idles on per-CPU stack, not on calling process's stack fix pipe bugs usertest.c tests pipes, fork, exit, close 2006-07-01 21:26:01 +00:00
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`if(kmem.use_lock)`
			`acquire(&kmem.lock);`
make new code like old code Variable declarations at top of function, separate from initialization. Use == 0 instead of ! for checking pointers. Consistent spacing around {, *, casts. Declare 0-parameter functions as (void) not (). Integer valued functions return -1 on failure, 0 on success. 2011-01-11 18:01:13 +00:00			`r = (struct run*)v;`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`r->next = kmem.freelist;`
			`kmem.freelist = r;`
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`if(kmem.use_lock)`
			`release(&kmem.lock);`
import 2006-06-12 15:22:12 +00:00			`}`

kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`// Allocate one 4096-byte page of physical memory.`
			`// Returns a pointer that the kernel can use.`
no /* */ comments 2006-09-06 17:50:20 +00:00			`// Returns 0 if the memory cannot be allocated.`
more idiomatic c 2006-07-16 16:05:37 +00:00			`char*`
make new code like old code Variable declarations at top of function, separate from initialization. Use == 0 instead of ! for checking pointers. Consistent spacing around {, *, casts. Declare 0-parameter functions as (void) not (). Integer valued functions return -1 on failure, 0 on success. 2011-01-11 18:01:13 +00:00			`kalloc(void)`
import 2006-06-12 15:22:12 +00:00			`{`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`struct run *r;`
import 2006-06-12 15:22:12 +00:00
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`if(kmem.use_lock)`
			`acquire(&kmem.lock);`
kalloc/kfree now only a page at a time do not keep sorted contiguous free list 2010-08-31 16:54:47 +00:00			`r = kmem.freelist;`
			`if(r)`
			`kmem.freelist = r->next;`
eliminate enter_alloc -- use kalloc for everything 2011-09-13 17:14:52 +00:00			`if(kmem.use_lock)`
			`release(&kmem.lock);`
Checkpoint port of xv6 to x86-64. Passed usertests on 2 processors a few times. The x86-64 doesn't just add two levels to page tables to support 64 bit addresses, but is a different processor. For example, calling conventions, system calls, and segmentation are different from 32-bit x86. Segmentation is basically gone, but gs/fs in combination with MSRs can be used to hold a per-core pointer. In general, x86-64 is more straightforward than 32-bit x86. The port uses code from sv6 and the xv6 "rsc-amd64" branch. A summary of the changes is as follows: - Booting: switch to grub instead of xv6's bootloader (pass -kernel to qemu), because xv6's boot loader doesn't understand 64bit ELF files. And, we don't care anymore about booting. - Makefile: use -m64 instead of -m32 flag for gcc, delete boot loader, xv6.img, bochs, and memfs. For now dont' use -O2, since usertests with -O2 is bigger than MAXFILE! - Update gdb.tmpl to be for i386 or x86-64 - Console/printf: use stdarg.h and treat 64-bit addresses different from ints (32-bit) - Update elfhdr to be 64 bit - entry.S/entryother.S: add code to switch to 64-bit mode: build a simple page table in 32-bit mode before switching to 64-bit mode, share code for entering boot processor and APs, and tweak boot gdt. The boot gdt is the gdt that the kernel proper also uses. (In 64-bit mode, the gdt/segmentation and task state mostly disappear.) - exec.c: fix passing argv (64-bit now instead of 32-bit). - initcode.c: use syscall instead of int. - kernel.ld: load kernel very high, in top terabyte. 64 bits is a lot of address space! - proc.c: initial return is through new syscall path instead of trapret. - proc.h: update struct cpu to have some scratch space since syscall saves less state than int, update struct context to reflect x86-64 calling conventions. - swtch: simplify for x86-64 calling conventions. - syscall: add fetcharg to handle x86-64 calling convetions (6 arguments are passed through registers), and fetchaddr to read a 64-bit value from user space. - sysfile: update to handle pointers from user space (e.g., sys_exec), which are 64 bits. - trap.c: no special trap vector for sys calls, because x86-64 has a different plan for system calls. - trapasm: one plan for syscalls and one plan for traps (interrupt and exceptions). On x86-64, the kernel is responsible for switching user/kernel stacks. To do, xv6 keeps some scratch space in the cpu structure, and uses MSR GS_KERN_BASE to point to the core's cpu structure (using swapgs). - types.h: add uint64, and change pde_t to uint64 - usertests: exit() when fork fails, which helped in tracking down one of the bugs in the switch from 32-bit to 64-bit - vectors: update to make them 64 bits - vm.c: use bootgdt in kernel too, program MSRs for syscalls and core-local state (for swapgs), walk 4 levels in walkpgdir, add DEVSPACETOP, use task segment to set kernel stack for interrupts (but simpler than in 32-bit mode), add an extra argument to freevm (size of user part of address space) to avoid checking all entries till KERNBASE (there are MANY TB before the top 1TB). - x86: update trapframe to have 64-bit entries, which is what the processor pushes on syscalls and traps. simplify lgdt and lidt, using struct desctr, which needs the gcc directives packed and aligned. TODO: - use int32 instead of int? - simplify curproc(). xv6 has per-cpu state again, but this time it must have it. - avoid repetition in walkpgdir - fix validateint() in usertests.c - fix bugs (e.g., observed one a case of entering kernel with invalid gs or proc 2018-09-23 12:24:42 +00:00			`if(r != 0 && (uint64) r < KERNBASE)`
			`panic("kalloc");`
make new code like old code Variable declarations at top of function, separate from initialization. Use == 0 instead of ! for checking pointers. Consistent spacing around {, *, casts. Declare 0-parameter functions as (void) not (). Integer valued functions return -1 on failure, 0 on success. 2011-01-11 18:01:13 +00:00			`return (char*)r;`
import 2006-06-12 15:22:12 +00:00			`}`
Initial version of single-cpu xv6 with page tables 2010-07-02 18:51:53 +00:00