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path: root/src/kernel/task.c
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#include "paging.h"
#include "panic.h"
#include "pmap.h"
#include "task.h"
#include "util.h"
#include "log.h"

struct tss {
  struct tss *prev;

  uint32_t esp0;
  uint32_t ss0;
  uint32_t esp1;
  uint32_t ss1;
  uint32_t esp2;
  uint32_t ss2;

  uint32_t cr3;
  uint32_t eip;
  uint32_t eflags;

  uint32_t eax;
  uint32_t ecx;
  uint32_t edx;
  uint32_t ebx;
  uint32_t esp;
  uint32_t ebp;
  uint32_t esi;
  uint32_t edi;

  uint32_t es;
  uint32_t cs;
  uint32_t ss;
  uint32_t ds;
  uint32_t fs;
  uint32_t gs;

  uint32_t ldt;
  uint16_t trap;
  uint16_t iomp;
} __attribute__ ((packed));

#define TSS ((struct tss *)0x00004f98)

#define MAX_TASKS 64

struct task_state tasks[MAX_TASKS];
struct task_state *active_task;

void init_tasks() {
  active_task = tasks;

  for (uint8_t i = 0; i < MAX_TASKS; ++i)
    tasks[i].page_directory = 0;

  TSS->ss0 = 0x18;
  TSS->esp0 = 0x00040000;
//TSS->cs = 0x13;
//TSS->ds = 0x1b;
//TSS->ss = 0x1b;
  TSS->iomp = sizeof(struct tss);

  asm volatile (
    "mov $0x08, %%ax\n"
    "ltr %%ax"
  : : : "ax");
}

uint32_t new_task(struct task_state state) {
  for (uint8_t n = 0; n < MAX_TASKS; ++n)
    if (!tasks[n].page_directory) {
      tasks[n] = state;
      tasks[n].waiting = false;
      for (uint8_t i = 0; i < MAX_WAITS; ++i)
        tasks[n].waits[i].mode = NONE;
      return n + 1;
    }
  PANIC("Maximum number of tasks reached.");
}

static void tmp_halt() {
//logf(LOG_INFO, "scheduler halting");
  TSS->esp0 = 0x0003c000;
  asm("sti\n"
      "hlt\n"
      "cli");
  TSS->esp0 = 0x00040000;
//logf(LOG_INFO, "scheduler resumed");
}

void advance_active_task() {
//logf(LOG_INFO, "entered scheduler from \"%s\"", active_task->name);
  struct task_state *old_task = active_task;
  while (1) {
    if (++active_task == tasks + MAX_TASKS)
      active_task = tasks;
    if (active_task->page_directory && !active_task->waiting) {
    //logf(LOG_INFO, "exiting scheduler to \"%s\"", active_task->name);
      return;
    }
    if (active_task == old_task)
      tmp_halt();
  }
}

void make_sure_tasks() {
  for (uint8_t n = 0; n < MAX_TASKS; ++n)
    if (tasks[n].page_directory)
      return;
  logf(LOG_INFO, "No tasks, halting.");
  while (1)
    asm("hlt");
}

//IPC stuff isn't fully implemented, or tested in this version.
//i'm planning to finish and make use of it in the next version,
//making the terminal its own application instead of a library.

#define MAX_IPC_PIPES 1024
#define IPC_BUFFER_PAGES 1

struct ipc_pipe {
  void *buffer;
  void *buffer_next_send;
  const void *buffer_next_read;

  uint32_t sender_handle;
  uint32_t reader_handle;
  bool delete_when_empty;
} ipc_pipes[MAX_IPC_PIPES];

void delete_pipe(struct ipc_pipe *pipe) {
  free_pages(pipe->buffer, IPC_BUFFER_PAGES);
  pipe->buffer = 0;
}

void delete_task(struct task_state *state) {
  switch_to_kernel_cr3();
  free_task_pd(state->page_directory);
  switch_to_task_cr3();
  state->page_directory = 0;

  unwait_any((struct wait){.mode = PROCESS_END, .task = state});
  unwait_any((struct wait){.mode = IPC_RECEIVE, .task = state});
  unwait_any((struct wait){.mode = IPC_SEND,    .task = state});

  const uint32_t handle = active_task - tasks + 1;
  for (struct ipc_pipe *pipe = ipc_pipes; pipe < ipc_pipes + MAX_IPC_PIPES; ++pipe)
    if (pipe->buffer) {
      if (pipe->reader_handle == handle)
        delete_pipe(pipe);
      else if (pipe->sender_handle == handle) {
        if (pipe->buffer_next_read == pipe->buffer_next_send)
          delete_pipe(pipe);
        else
          pipe->delete_when_empty = true;
      }
    }
}

uint32_t find_unread_ipc() {
  const uint32_t r_handle = active_task - tasks + 1;
  for (struct ipc_pipe *pipe = ipc_pipes; pipe < ipc_pipes + MAX_IPC_PIPES; ++pipe)
    if (pipe->buffer && (pipe->reader_handle == r_handle) &&
        (pipe->buffer_next_read != pipe->buffer_next_send))
      return pipe->sender_handle;
  return 0;
}

struct ipc_pipe *get_existing_pipe(uint32_t sender_handle, uint32_t reader_handle) {
  for (struct ipc_pipe *i = ipc_pipes; i < ipc_pipes + MAX_IPC_PIPES; ++i)
    if (i->buffer && (i->sender_handle == sender_handle) &&
                     (i->reader_handle == reader_handle))
      return i;
  return 0;
}

uint32_t ipc_send(uint32_t reader_handle, uint32_t count, const void *buffer) {
  if (!reader_handle || !tasks[reader_handle - 1].page_directory)
    return -1;

  const uint32_t our_handle = active_task - tasks + 1;
  struct ipc_pipe *pipe = get_existing_pipe(our_handle, reader_handle);
  if (!pipe) {
    for (struct ipc_pipe *i = ipc_pipes; i < ipc_pipes + MAX_IPC_PIPES; ++i)
      if (!i->buffer) {
        i->buffer = allocate_kernel_pages(IPC_BUFFER_PAGES);
        i->buffer_next_read = i->buffer;
        i->buffer_next_send = i->buffer;
        i->reader_handle = reader_handle;
        i->sender_handle = our_handle;
        i->delete_when_empty = false;
        pipe = i;
        break;
      }
    if (!pipe)
      PANIC("out of ipc pipes");
  }

  unwait(tasks + reader_handle - 1, (struct wait){.mode = IPC_RECEIVE, .task = active_task});
  unwait(tasks + reader_handle - 1, (struct wait){.mode = IPC_RECEIVE_ANY});

  uint32_t send_left = pipe->buffer_next_read - pipe->buffer_next_send - 1;
  if (send_left < 0)
    send_left += 4096 * IPC_BUFFER_PAGES;
  if (count > send_left)
    count = send_left;

  if (pipe->buffer_next_send + count < pipe->buffer + 4096 * IPC_BUFFER_PAGES) {
    memcpy(pipe->buffer_next_send, buffer, count);
    pipe->buffer_next_send += count;
    return count;
  }

  const uint32_t first_batch = pipe->buffer + 4096 * IPC_BUFFER_PAGES - pipe->buffer_next_send;
  memcpy(pipe->buffer_next_send, buffer, first_batch);
  memcpy(pipe->buffer, buffer + first_batch, count - first_batch);
  pipe->buffer_next_send += count - 4096;
  return count;
}

uint32_t ipc_read(uint32_t sender_handle, uint32_t count, void *buffer) {
  if (!sender_handle || !tasks[sender_handle - 1].page_directory)
    return -1;

  const uint32_t our_handle = active_task - tasks + 1;
  struct ipc_pipe *pipe = get_existing_pipe(sender_handle, our_handle);
  if (!pipe)
    return 0;

  unwait(tasks + sender_handle - 1, (struct wait){.mode = IPC_SEND, .task = active_task});

  //TODO
}

void add_wait(struct wait wait) {
  for (uint8_t i = 0; i < MAX_WAITS; ++i)
    if (!active_task->waits[i].mode) {
      active_task->waits[i] = wait;
      active_task->waiting = true;
      return;
    }
  PANIC("Out of waits for task.");
}

void unwait_any(struct wait wait) {
  for (uint8_t i = 0; i < MAX_TASKS; ++i)
    if (tasks[i].page_directory)
      unwait(tasks + i, wait);
}

void unwait(struct task_state *task, struct wait wait) {
  if (!task->waiting)
    return;
  for (uint8_t i = 0; i < MAX_WAITS; ++i) {
    if (task->waits[i].mode != wait.mode)
      continue;
    switch (wait.mode) {
    case PROCESS_END:
    case IPC_RECEIVE:
      if (task->waits[i].task != wait.task)
        continue;
      break;
    case WINDOW_ACTION:
    case IPC_RECEIVE_ANY:
      break;
    default:
      PANIC("Unwait matched with unrecognized wait mode.");
    }
    for (uint8_t i = 0; i < MAX_WAITS; ++i)
      task->waits[i].mode = NONE;
    task->waiting = false;
    return;
  }
}