my-os-project2/kernel/vfs/vfs.c

#include <stdint.h>
#include <stddef.h>
#include "vfs.h"
#include "kprintf.h"
#include "spinlock/spinlock.h"
#include "hal/hal.h"
#include "util/util.h"
#include "hshtb.h"
#include "assert.h"
#include "errors.h"
#include "fs/kvfs/kvfs.h"
#include "fs/portlfs/portlfs.h"
#include "storedev/storedev.h"
#include "baseimg/baseimg.h"
#include "dlmalloc/malloc.h"

VfsTable VFS_TABLE;

void vfs_init_kvfs(VfsMountPoint *mp) {
  mp->read = &kvfs_read;
  mp->write = &kvfs_write;
  mp->remove = &kvfs_remove;
  mp->check = &kvfs_check;
  mp->cleanup = &kvfs_cleanup;
  mp->create = &kvfs_create;
}

void vfs_init_littlefs(VfsMountPoint *mp) {
  struct lfs_config *cfg = dlmalloc(sizeof(*cfg));
  hal_memset(cfg, 0, sizeof(*cfg));
  cfg->context = mp;
  cfg->read = &portlfs_read;
  cfg->prog = &portlfs_prog;
  cfg->erase = &portlfs_erase;
  cfg->sync = &portlfs_sync;
  cfg->block_size = LITTLEFS_BLOCK_SIZE;
  cfg->block_count = mp->backingsd->capacity(mp->backingsd) / LITTLEFS_BLOCK_SIZE;
  cfg->read_size = 64;
  cfg->prog_size = 64;
  cfg->block_cycles = 16;
  cfg->cache_size = 64;
  cfg->lookahead_size = 64;
  cfg->read_buffer = NULL;
  cfg->prog_buffer = NULL;
  cfg->lookahead_buffer = NULL;
  cfg->name_max = 0;
  cfg->file_max = 0;
  cfg->attr_max = 0;
  int err = lfs_mount(&mp->fs.littlefs.instance, cfg);
  if (err < 0) {
    ERR("vfs", "Little FS mount failed\n");
  }

  mp->read = &littlefs_read;
  mp->write = &littlefs_write;
  mp->remove = &littlefs_remove;
  mp->check = &littlefs_check;
  mp->cleanup = &littlefs_cleanup;
  mp->create = &littlefs_create;
}

int32_t vfs_mount(char *mountpoint, int32_t fstype, StoreDev *backingsd) {
  VfsMountPoint *mp = NULL;

  spinlock_acquire(&VFS_TABLE.spinlock);
  HSHTB_ALLOC(&VFS_TABLE, mountpoints, mountpoint, label, mp);
  spinlock_release(&VFS_TABLE.spinlock);

  if (mp == NULL) {
    return E_NOMEMORY;
  }

  hal_memcpy(mp->label, mountpoint, hal_strlen(mountpoint));
  mp->backingsd = backingsd;
  mp->fstype = fstype;
  switch (fstype) {
    case VFS_KVFS:
      vfs_init_kvfs(mp);
      break;
    case VFS_LITTLEFS:
      vfs_init_littlefs(mp);
      break;
    default:
      return E_UNKNOWN_FSTYPE;
  }

  return E_OK;
}

int32_t vfs_unmount(char *mountpoint) {
  VfsMountPoint *mp = NULL;

  spinlock_acquire(&VFS_TABLE.spinlock);
  HSHTB_GET(&VFS_TABLE, mountpoints, mountpoint, label, mp);
  spinlock_release(&VFS_TABLE.spinlock);

  if (mp == NULL) {
    return E_NOENTRY;
  }

  spinlock_acquire(&mp->spinlock);
  int32_t err = mp->cleanup(mp);
  if (err != E_OK) {
    spinlock_release(&mp->spinlock);
    return err;
  }
  hal_memset(mp, 0, sizeof(*mp));
  spinlock_release(&mp->spinlock);
  return E_OK;
}

int32_t vfs_read(char *mountpoint, const char *path, uint8_t *const buffer, size_t n, size_t off) {
  VfsMountPoint *mp = NULL;

  spinlock_acquire(&VFS_TABLE.spinlock);
  HSHTB_GET(&VFS_TABLE, mountpoints, mountpoint, label, mp);
  spinlock_release(&VFS_TABLE.spinlock);

  if (mp == NULL) {
    return E_NOENTRY;
  }

  return mp->read(mp, path, buffer, n, off);
}

int32_t vfs_create(char *mountpoint, const char *path, int32_t type) {
  VfsMountPoint *mp = NULL;

  spinlock_acquire(&VFS_TABLE.spinlock);
  HSHTB_GET(&VFS_TABLE, mountpoints, mountpoint, label, mp);
  spinlock_release(&VFS_TABLE.spinlock);

  if (mp == NULL) {
    return E_NOENTRY;
  }

  return mp->create(mp, path, type);
}

int32_t vfs_write(char *mountpoint, const char *path, const uint8_t *const buffer, size_t n, size_t off) {
  VfsMountPoint *mp = NULL;

  spinlock_acquire(&VFS_TABLE.spinlock);
  HSHTB_GET(&VFS_TABLE, mountpoints, mountpoint, label, mp);
  spinlock_release(&VFS_TABLE.spinlock);

  if (mp == NULL) {
    return E_NOENTRY;
  }

  return mp->write(mp, path, buffer, n, off);
}

int32_t vfs_remove(char *mountpoint, const char *path) {
  VfsMountPoint *mp = NULL;

  spinlock_acquire(&VFS_TABLE.spinlock);
  HSHTB_GET(&VFS_TABLE, mountpoints, mountpoint, label, mp);
  spinlock_release(&VFS_TABLE.spinlock);

  if (mp == NULL) {
    return E_NOENTRY;
  }

  return mp->remove(mp, path);
}

int32_t tmpvars_init(void) {
  RamSdInitExtra extra = { .capacity = KVFS_NODES_MAX * KVFS_BUFFER_SIZE };
  StoreDev *backingsd = storedev_create(STOREDEV_RAMSD, &extra);
  if (backingsd == NULL) {
    return E_NOMEMORY;
  }
  return vfs_mount("tmpvars", VFS_KVFS, backingsd);
}

int32_t base_init(void) {
  RamSdInitExtra extra = { .capacity = baseimg_getsize(), .preallocbuffer = (uint8_t*)baseimg_getaddr() };
  StoreDev *backingsd = storedev_create(STOREDEV_RAMSD, &extra);
  if (backingsd == NULL) {
    return E_NOMEMORY;
  }
  return vfs_mount("base", VFS_LITTLEFS, backingsd);
}

void vfs_init(void) {
  hal_memset(&VFS_TABLE, 0, sizeof(VFS_TABLE));
  spinlock_init(&VFS_TABLE.spinlock);

  tmpvars_init();
  base_init();

  LOG("vfs", "init done\n");

  for (size_t i = 0; i < LEN(VFS_TABLE.mountpoints); i++) {
    if (!VFS_TABLE.mountpoints[i].taken) continue;
    VfsMountPoint *vmp = &VFS_TABLE.mountpoints[i];
    LOG("vfs", "mount point %s: %s, backing device: %s\n",
        vmp->label, vfs_strings[vmp->fstype], storedev_strings[vmp->backingsd->sdtype]);
    if (vmp->check != NULL) {
      bool ok = vmp->check();
      if (ok) {
        LOG("vfs", "check = %s\n", "OK");
      } else {
        ERR("vfs", "check = %s\n", "FAIL");
      }
    } else {
      LOG("vfs", "check skipped\n");
    }
  }
}