quinn-os/gdt.c

#include "inttypes.h"
#include "pvec.h"
#include "console.h"
#include "schedule.h"

extern void setGdt(uint64_t *, uint32_t);

// Each define here is for a specific flag in the descriptor.
// Refer to the intel documentation for a description of what each one does.
#define SEG_TYPE(x) ((x) << 0x04)        // Descriptor type (0 for system, 1 for code/data)
#define SEG_PRES(x) ((x) << 0x07)        // Present
#define SEG_SAVL(x) ((x) << 0x0C)        // Available for system use
#define SEG_LONG(x) ((x) << 0x0D)        // Long mode
#define SEG_SIZE(x) ((x) << 0x0E)        // Size (0 for 16-bit, 1 for 32)
#define SEG_GRAN(x) ((x) << 0x0F)        // Granularity (0 for 1B - 1MB, 1 for 4KB - 4GB)
#define SEG_PRIV(x) (((x)&0x03) << 0x05) // Set privilege level (0 - 3)

#define SEG_DATA_RD 0x00        // Read-Only
#define SEG_DATA_RDA 0x01       // Read-Only, accessed
#define SEG_DATA_RDWR 0x02      // Read/Write
#define SEG_DATA_RDWRA 0x03     // Read/Write, accessed
#define SEG_DATA_RDEXPD 0x04    // Read-Only, expand-down
#define SEG_DATA_RDEXPDA 0x05   // Read-Only, expand-down, accessed
#define SEG_DATA_RDWREXPD 0x06  // Read/Write, expand-down
#define SEG_DATA_RDWREXPDA 0x07 // Read/Write, expand-down, accessed
#define SEG_CODE_EX 0x08        // Execute-Only
#define SEG_CODE_EXA 0x09       // Execute-Only, accessed
#define SEG_CODE_EXRD 0x0A      // Execute/Read
#define SEG_CODE_EXRDA 0x0B     // Execute/Read, accessed
#define SEG_CODE_EXC 0x0C       // Execute-Only, conforming
#define SEG_CODE_EXCA 0x0D      // Execute-Only, conforming, accessed
#define SEG_CODE_EXRDC 0x0E     // Execute/Read, conforming
#define SEG_CODE_EXRDCA 0x0F    // Execute/Read, conforming, accessed

#define GDT_CODE_PL0 SEG_TYPE(1) | SEG_PRES(1) | SEG_SAVL(0) | SEG_LONG(0) | SEG_SIZE(1) | SEG_GRAN(1) | SEG_PRIV(0) | SEG_CODE_EXRD

#define GDT_DATA_PL0 SEG_TYPE(1) | SEG_PRES(1) | SEG_SAVL(0) | SEG_LONG(0) | SEG_SIZE(1) | SEG_GRAN(1) | SEG_PRIV(0) | SEG_DATA_RDWR

#define GDT_CODE_PL3 SEG_TYPE(1) | SEG_PRES(1) | SEG_SAVL(0) | SEG_LONG(0) | SEG_SIZE(1) | SEG_GRAN(1) | SEG_PRIV(3) | SEG_CODE_EXRD

#define GDT_DATA_PL3 SEG_TYPE(1) | SEG_PRES(1) | SEG_SAVL(0) | SEG_LONG(0) | SEG_SIZE(1) | SEG_GRAN(1) | SEG_PRIV(3) | SEG_DATA_RDWR

#define GDT_TSS SEG_GRAN(1) | SEG_PRES(1) | SEG_PRIV(0) | SEG_SIZE(1) | SEG_CODE_EXA

uint64_t gdt[6];

uint64_t create_descriptor(uint32_t base, uint32_t limit, uint16_t flag) {
  uint64_t descriptor;

  // Create the high 32 bit segment
  descriptor = limit & 0x000F0000;
  descriptor |= (flag << 8) & 0x00F0FF00;
  descriptor |= (base >> 16) & 0x000000FF;
  descriptor |= base & 0xFF000000;
  // Shift by 32 to allow for low part of segment
  descriptor <<= 32;

  // Create the low 32 bit segment
  descriptor |= base << 16;
  descriptor |= limit & 0x0000FFFF;

  return descriptor;
}

void init_tss(struct tss_t *tss) {
  gdt[5] = create_descriptor((uint32_t)tss, sizeof(struct tss_t), (GDT_TSS));
  asm __volatile__("ltr %%ax" : : "a"(0x28));
}

void init_gdt(void) {

  gdt[0] = create_descriptor(0, 0, 0);                       // Null descriptor
  gdt[1] = create_descriptor(0, 0x000FFFFF, (GDT_CODE_PL0)); // kernel code segment
  gdt[2] = create_descriptor(0, 0x000FFFFF, (GDT_DATA_PL0)); // kernel data segment
  gdt[3] = create_descriptor(0, 0x000FFFFF, (GDT_CODE_PL3)); // user code segment
  gdt[4] = create_descriptor(0, 0x000FFFFF, (GDT_DATA_PL3)); // user data segment

  setGdt(gdt, 48);
}