arch/amd64/context.c - openbios - Git at Google

 /*
  * context switching
  * 2003-10 by SONE Takeshi
  */

 #include "config.h"
 #include "kernel/kernel.h"
 #include "segment.h"
 #include "context.h"

 #define MAIN_STACK_SIZE 16384
 #define IMAGE_STACK_SIZE 4096

 #define debug printk

 static void start_main(void); /* forward decl. */
 void __exit_context(void); /* assembly routine */

 /*
  * Main context structure
  * It is placed at the bottom of our stack, and loaded by assembly routine
  * to start us up.
  */
 struct context main_ctx __attribute__((section (".initctx"))) = {
     .gdt_base = (uint64_t) gdt,
     .gdt_limit = GDT_LIMIT,
     .cs = FLAT_CS,
     .ds = FLAT_DS,
     .es = FLAT_DS,
     .fs = FLAT_DS,
     .gs = FLAT_DS,
     .ss = FLAT_DS,
     .esp = (uint32_t) ESP_LOC(&main_ctx),
     .eip = (uint32_t) start_main,
     .return_addr = (uint32_t) __exit_context,
 };

 /* This is used by assembly routine to load/store the context which
  * it is to switch/switched.  */
 struct context *__context = &main_ctx;

 /* Stack for loaded ELF image */
 static uint8_t image_stack[IMAGE_STACK_SIZE];

 /* Pointer to startup context (physical address) */
 unsigned long __boot_ctx;

 /*
  * Main starter
  * This is the C function that runs first.
  */
 static void start_main(void)
 {
     int retval;
     extern int openbios(void);

     /* Save startup context, so we can refer to it later.
      * We have to keep it in physical address since we will relocate. */
     __boot_ctx = virt_to_phys(__context);

     /* Start the real fun */
     retval = openbios();

     /* Pass return value to startup context. Bootloader may see it. */
     boot_ctx->eax = retval;

     /* Returning from here should jump to __exit_context */
     __context = boot_ctx;
 }

 /* Setup a new context using the given stack.
  */
 struct context *
 init_context(uint8_t *stack, uint32_t stack_size, int num_params)
 {
     struct context *ctx;

     ctx = (struct context *)
 	(stack + stack_size - (sizeof(*ctx) + num_params*sizeof(uint32_t)));
     memset(ctx, 0, sizeof(*ctx));

     /* Fill in reasonable default for flat memory model */
     ctx->gdt_base = virt_to_phys(gdt);
     ctx->gdt_limit = GDT_LIMIT;
     ctx->cs = FLAT_CS;
     ctx->ds = FLAT_DS;
     ctx->es = FLAT_DS;
     ctx->fs = FLAT_DS;
     ctx->gs = FLAT_DS;
     ctx->ss = FLAT_DS;
     ctx->esp = virt_to_phys(ESP_LOC(ctx));
     ctx->return_addr = virt_to_phys(__exit_context);

     return ctx;
 }

 /* Switch to another context. */
 struct context *switch_to(struct context *ctx)
 {
     struct context *save, *ret;

     debug("switching to new context:\n");
     save = __context;
     __context = ctx;
     asm ("pushl %cs; call __switch_context");
     ret = __context;
     __context = save;
     return ret;
 }

 /* Start ELF Boot image */
 uint32_t start_elf(uint32_t entry_point, uint32_t param)
 {
     struct context *ctx;

     ctx = init_context(image_stack, sizeof image_stack, 1);
     ctx->eip = entry_point;
     ctx->param[0] = param;
     ctx->eax = 0xe1fb007;
     ctx->ebx = param;

     ctx = switch_to(ctx);
     return ctx->eax;
 }
	/*
	* context switching
	* 2003-10 by SONE Takeshi
	*/

	#include "config.h"
	#include "kernel/kernel.h"
	#include "segment.h"
	#include "context.h"

	#define MAIN_STACK_SIZE 16384
	#define IMAGE_STACK_SIZE 4096

	#define debug printk

	static void start_main(void); /* forward decl. */
	void __exit_context(void); /* assembly routine */

	/*
	* Main context structure
	* It is placed at the bottom of our stack, and loaded by assembly routine
	* to start us up.
	*/
	struct context main_ctx __attribute__((section (".initctx"))) = {
	.gdt_base = (uint64_t) gdt,
	.gdt_limit = GDT_LIMIT,
	.cs = FLAT_CS,
	.ds = FLAT_DS,
	.es = FLAT_DS,
	.fs = FLAT_DS,
	.gs = FLAT_DS,
	.ss = FLAT_DS,
	.esp = (uint32_t) ESP_LOC(&main_ctx),
	.eip = (uint32_t) start_main,
	.return_addr = (uint32_t) __exit_context,
	};

	/* This is used by assembly routine to load/store the context which
	* it is to switch/switched. */
	struct context *__context = &main_ctx;

	/* Stack for loaded ELF image */
	static uint8_t image_stack[IMAGE_STACK_SIZE];

	/* Pointer to startup context (physical address) */
	unsigned long __boot_ctx;

	/*
	* Main starter
	* This is the C function that runs first.
	*/
	static void start_main(void)
	{
	int retval;
	extern int openbios(void);

	/* Save startup context, so we can refer to it later.
	* We have to keep it in physical address since we will relocate. */
	__boot_ctx = virt_to_phys(__context);

	/* Start the real fun */
	retval = openbios();

	/* Pass return value to startup context. Bootloader may see it. */
	boot_ctx->eax = retval;

	/* Returning from here should jump to __exit_context */
	__context = boot_ctx;
	}

	/* Setup a new context using the given stack.
	*/
	struct context *
	init_context(uint8_t *stack, uint32_t stack_size, int num_params)
	{
	struct context *ctx;

	ctx = (struct context *)
	(stack + stack_size - (sizeof(ctx) + num_paramssizeof(uint32_t)));
	memset(ctx, 0, sizeof(*ctx));

	/* Fill in reasonable default for flat memory model */
	ctx->gdt_base = virt_to_phys(gdt);
	ctx->gdt_limit = GDT_LIMIT;
	ctx->cs = FLAT_CS;
	ctx->ds = FLAT_DS;
	ctx->es = FLAT_DS;
	ctx->fs = FLAT_DS;
	ctx->gs = FLAT_DS;
	ctx->ss = FLAT_DS;
	ctx->esp = virt_to_phys(ESP_LOC(ctx));
	ctx->return_addr = virt_to_phys(__exit_context);

	return ctx;
	}

	/* Switch to another context. */
	struct context switch_to(struct context ctx)
	{
	struct context save, ret;

	debug("switching to new context:\n");
	save = __context;
	__context = ctx;
	asm ("pushl %cs; call __switch_context");
	ret = __context;
	__context = save;
	return ret;
	}

	/* Start ELF Boot image */
	uint32_t start_elf(uint32_t entry_point, uint32_t param)
	{
	struct context *ctx;

	ctx = init_context(image_stack, sizeof image_stack, 1);
	ctx->eip = entry_point;
	ctx->param[0] = param;
	ctx->eax = 0xe1fb007;
	ctx->ebx = param;

	ctx = switch_to(ctx);
	return ctx->eax;
	}