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Author SHA1 Message Date
Mathieu Maret
0d60bdeb7f wip fat16/32 2024-08-03 11:19:28 +02:00
Mathieu Maret
dff2cce035 wip 2024-07-30 14:59:00 +02:00
Mathieu Maret
1dd7d6191e VFS: design for the name cache system 2024-05-23 16:27:20 +02:00
11 changed files with 876 additions and 7 deletions

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@ -17,7 +17,7 @@
uaddr_t loadElfProg(const char *prog, struct process *proc) uaddr_t loadElfProg(const char *prog, struct process *proc)
{ {
int i; int i;
uaddr_t lastUserAddr = 0; uaddr_t lastUserAddr = 0;
struct uAddrSpace *as = processGetAddrSpace(proc); struct uAddrSpace *as = processGetAddrSpace(proc);
/* e_ident value */ /* e_ident value */

27
core/fs.c Normal file
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@ -0,0 +1,27 @@
#include "fs.h"
#include "list.h"
#include "stddef.h"
// List of all fs supported (e.g. EXT4, FAT32 ...)
struct file_system *fsList = NULL;
int fsRegister(struct file_system *fs){
list_add_tail(fsList, fs);
return 0;
}
int fsInodeUnref(struct inode *inode)
{
//TODO
(void)inode;
return 0;
};
int fsInodeRef(struct inode *inode)
{
//TODO
(void)inode;
return 0;
};

167
core/fs.h Normal file
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@ -0,0 +1,167 @@
#pragma once
#include "ata.h"
#include "fsEntry.h"
#include "process.h"
#include "stdint.h"
#include "types.h"
#include <stddef.h>
#include <stdint.h>
#define FS_NAME_MAXLEN 32
// Forward declaration
struct file_system;
struct file_system_instance;
struct fs_stat;
struct file;
typedef enum {
FS_INODE_REGULAR_FILE = 0x01,
FS_INODE_DIRECTORY = 0x02,
FS_INODE_SYMLINK = 0x04,
FS_INODE_DEVICE_CHAR = 0x08,
FS_INODE_DEVICE_BLOCK = 0x10
} fs_inode_type_t;
struct inode_operation {
};
/**
* Represent a file on the disk
*/
struct inode {
struct file_system_instance *fs;
uint64_t location;
size_t onDiskRef;
size_t inMemRef;
fs_inode_type_t type;
#define FS_READABLE 00400
#define FS_WRITABLE 00200
#define FS_EXECUTABLE 00100
uint32_t mode;
bool_t dirty;
struct inode_operation *ops;
union {
struct inode_dir_ops *opsDir;
struct inode_dir_symlink *opsSymlink;
};
int (*destructor)(struct inode *this);
int (*newOpenedFile)(struct inode *this, const struct process *owner, uint32_t openFlags,
struct file **result);
int (*closeOpenedFile)(struct inode *this, struct file *of);
void *custom;
struct inode *prevDirty, *nextDirty;
};
struct file_system_instance_ops { // super_operations
// From the inode location, instantiace a struct inode
int (*getInodeFromDevice)(struct file_system_instance *this, uint64_t storageLocation,
struct inode **result);
int (*allocateNewInode)(struct file_system_instance *this, fs_inode_type_t type,
const struct process *creator, uint32_t accessRights,
uint32_t open_creat_flags, struct inode **result);
int (*statfs)(struct file_system_instance *this, struct fs_stat *result);
};
struct file_system_instance {
struct file_system *fsType; // this instance is of this type of file_system
struct inode *device; // device (like block one) could have a disk associated
#define FS_MOUNT_SYNC (1 << 0)
#define FS_MOUNT_READONLY (1 << 1)
#define FS_MOUNT_NOEXEC (1 << 2)
uint32_t flags;
struct fs_entry *root; // root fs_entry for this fs instance
struct inode *dirtyNodes; // list of inodes that are out of sync
void *custom; // custom
const struct file_system_instance_ops *ops;
struct file_system_instance *prev, *next;
};
typedef enum { SEEK_SET, SEEK_CUR, SEEK_END } seek_mode_t;
struct file_system {
char name[FS_NAME_MAXLEN];
struct file_system_instance *instances;
void *custom;
int (*mount)(struct file_system *this, struct inode *device, const char *args,
struct file_system_instance **mountedFs);
int (*umount)(struct file_system *this, struct file_system_instance *mountedFs);
//tmp function to implement fs in kernel only as a firts step
void *(*open)(struct ata_device *disk, struct ata_partition *path, uint32_t mode);
int (*read)(struct ata_device *disk, void *private, uint32_t size, uint32_t nmemb,
char *out);
int (*resolve)(struct ata_device *disk);
int (*close)(void *private);
int (*seek)(void *private, uint32_t offset, seek_mode_t seek_mode);
// end tmp
struct file_system *prev, *next;
};
struct file_operations {
loff_t (*llseek)(struct file *this, loff_t offset, seek_mode_t whence);
ssize_t (*read)(struct file *this, char *buf, size_t size, loff_t *offset);
ssize_t (*write)(struct file *this, const char *buf, size_t size, loff_t *offset);
int (*mmap)(struct file *this, uaddr_t *uaddr, size_t size,
int32_t access_rights, int32_t flags, loff_t offset);
int (*open)(struct inode *, struct file *);
int (*flush)(struct file *);
int (*release)(struct inode *, struct file *);
};
/**
* A opened file by a process
*/
struct file {
const struct process *owner;
struct fs_entry *direntry;
uint ref;
int64_t position;
#define O_ACCMODE 0003
#define O_RDONLY 00
#define O_WRONLY 01
#define O_RDWR 02
#define O_CREAT 0100 /* Not fcntl. */
#define O_EXCL 0200 /* Not fcntl. */
#define O_NOCTTY 0400 /* Not fcntl. */
#define O_TRUNC 01000 /* Not fcntl. */
#define O_APPEND 02000
#define O_DIRECTORY 0200000 /* Must be a directory. */
#define O_NOFOLLOW 0400000 /* Do not follow links. */
#define O_SYNC 04010000
#define O_CLOEXEC 02000000 /* Set close_on_exec. */
uint32_t flags;
const struct file_operations *ops;
int (*duplicate)(struct file *this, const struct process *owner, struct file **result);
void *custom;
};
int fsRegister(struct file_system *fs);
int fsInodeUnref(struct inode *inode);
int fsInodeRef(struct inode *inode);

215
core/fsEntry.c Normal file
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@ -0,0 +1,215 @@
#include "alloc.h"
#include "assert.h"
#include "fsEntry.h"
#include "errno.h"
#include "list.h"
#include "mem.h"
bool_t pstringSplipPath(struct pstr *path, struct pstr *upper, struct pstr *lower)
{
typeof(path->name) curPos = path->name;
typeof(path->len) curLen = path->len;
typeof(path->len) upperLen = 0;
// Skip leading /
while (curLen > 0 && curPos[0] == '/') {
curPos++;
curLen--;
}
upper->name = curPos;
// Find first non /
while (curLen > 0 && curPos[0] != '/') {
upperLen++;
curLen--;
curPos++;
}
upper->len = upperLen;
while (curLen > 0 && curPos[0] == '/') {
curPos++;
curLen--;
}
lower->name = curPos;
lower->len = path->len - (lower->name - path->name);
return lower->len > 0;
}
bool_t pstringIsEq(const struct pstr *p1, const struct pstr *p2)
{
return p1->len == p2->len && (memcmp(p1->name, p2->name, p1->len) == 0);
}
bool_t pstringIsStr(const struct pstr *p, char *s)
{
size_t slen = strlen(s);
return p->len == slen && (memcmp(p->name, s, slen) == 0);
}
int fsEntryRef(struct fs_entry *entry)
{
entry->ref++;
return 0;
}
int fsEntryUnref(struct fs_entry **entry)
{
struct fs_entry *toDelete = NULL, *entryTmp;
entryTmp = *entry;
while (entryTmp) {
assert(entryTmp->ref > 0);
entryTmp->ref--;
if (entryTmp->ref > 0)
break;
if (entryTmp == *entry)
*entry = NULL;
if (entryTmp->parent) {
struct fs_entry *parent = entryTmp->parent;
assert(entryTmp->parent->ref >= 1);
list_delete_named(parent->childs, entryTmp, prevSiblings, nextSiblings);
// At next iteration we will decrement parent's ref cnt
}
// Avoid recursivity in kernel by using a list of entry to suppress
list_add_tail_named(toDelete, entryTmp, prevSiblings, nextSiblings);
// now, unref parent
entryTmp = entryTmp->parent;
}
// free 0 ref entries
while (!list_is_empty_named(toDelete, prevSiblings, nextSiblings)) {
entryTmp = list_pop_head_named(toDelete, prevSiblings, nextSiblings);
fsInodeUnref(entryTmp->node);
free(entryTmp);
}
return 0;
}
struct fs_entry *fsEntryAlloc(struct fs_entry *parent, const struct pstr *name, struct inode *inode)
{
struct fs_entry *entry = zalloc(sizeof(struct fs_entry));
if (!entry)
return NULL;
if (name && name->len > 0) {
char *allocName = malloc(name->len);
if (!allocName) {
free(entry);
return NULL;
}
memcpy(allocName, name->name, name->len);
entry->name.len = name->len;
entry->name.name = allocName;
}
entry->ref = 1;
entry->node = inode;
entry->parent = parent;
fsInodeRef(inode);
if (parent) {
fsEntryRef(parent);
list_add_head_named(parent->childs, entry, prevSiblings, nextSiblings);
}
return entry;
}
int fsEntryLookup(struct fs_entry *entry, const struct pstr *name, const struct fs_entry *root, struct fs_entry **result)
{
if (pstringIsStr(name, ".")) {
*result = entry;
} else if (pstringIsStr(name, "..")) {
if (entry == root) {
*result = entry;
} else {
// If this entry is mounted, get the mountpoint
for (; entry->mountpoint; entry = entry->mountpoint) {
// No-op
}
assert(NULL != entry->parent);
*result = entry->parent;
}
fsEntryRef(*result);
return 0;
} else {
struct fs_entry *child;
int childIdx;
list_foreach_forward_named(entry->childs, child, childIdx, prevSiblings, nextSiblings)
{
if (pstringIsEq(&child->name, name)) {
break;
}
}
if (!list_foreach_early_break(entry->childs, child, childIdx))
return -ENOENT;
*result = child;
}
// Follow the mount chain
for (; (*result)->mountedFs; *result = (*result)->mountedFs)
;
fsEntryRef(*result);
return 0;
}
int fsEntrySetup(void)
{
return allocBookSlab(sizeof(struct fs_entry), PAGE_SIZE, 0, 0);
}
int fsEntryMount(struct fs_entry *mountpoint, struct fs_entry *mounted)
{
if (mountpoint->mountedFs != NULL || mounted->mountpoint != NULL) {
return -EBUSY;
}
mountpoint->mountedFs = mounted;
mounted->mountpoint = mountpoint;
fsEntryRef(mounted);
fsEntryRef(mountpoint);
return 0;
}
int fsEntryUmount(struct fs_entry *mounted)
{
if (!mounted->mountpoint || !mounted->mountpoint->mountedFs || mounted->mountpoint->mountedFs != mounted)
return -ENOENT;
if (mounted->mountedFs)
return -EBUSY;
// self + mounted
if (mounted->ref != 2)
return -EBUSY;
mounted->mountpoint->mountedFs = NULL;
fsEntryUnref(&mounted->mountpoint);
mounted->mountpoint = NULL;
fsEntryUnref(&mounted);
return 0;
}

183
core/fsEntry.h Normal file
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@ -0,0 +1,183 @@
#pragma once
#include "fs.h"
#include "stdint.h"
#include "stddef.h"
/**
* Those structures aimes to represent VFS directory entries in memory.
* It's the equivalent of the Linux dentry or SimpleOs sos_fs_nscache_node.
*/
/**
* Path or Pascal String
* */
struct pstr {
size_t len;
const char *name;
};
#define PSTR_INIT(n, l) \
{ \
.len = l, .name = n \
}
#define PSTR_STATIC_INIT(n) \
{ \
.len = sizeof(n) - 1, .name = n \
}
/**
* @brief Structure representing a file system entry.
*
* This structure holds information about a file system entry,
* including its name, associated inode, relationships within
* the file system hierarchy, and reference count.
*/
struct fs_entry {
struct pstr name;
struct inode *node;
struct fs_entry *parent; // parent directory
struct fs_entry *mountpoint; // if this is a mounted fs, point to mountpoint
struct fs_entry *mountedFs; // Fs possibly mounted on this fsEntry
struct fs_entry *childs; // point to the list of children
struct fs_entry *nextSiblings, *prevSiblings; // Sibling at the same level
uint ref; // reference counter
};
/**
* @brief Splits a pstr path into upper and lower components.
*
* This function takes a path and splits it into an upper component
* (the first segment of the path) and a lower component (the rest of the path).
*
* @param path Pointer to the input pstr structure representing the path.
* @param upper Pointer to the pstr structure to store the upper component.
* @param lower Pointer to the pstr structure to store the lower component.
* @return bool_t Returns true if there is a lower component, false otherwise.
*/
bool_t pstringSplipPath(struct pstr *path, struct pstr *upper, struct pstr *lower);
/**
* @brief Compares two pstr structures to check if they are equal.
*
* This function compares the length and the content of the strings
* in the two provided pstr structures.
*
* @param a Pointer to the first pstr structure.
* @param b Pointer to the second pstr structure.
* @return int Returns 1 if the structures are equal, 0 otherwise.
*/
bool_t pstringIsEq(const struct pstr *p1, const struct pstr *p2);
/**
* @brief Checks if a pstr structure matches a given C string.
*
* @param s Pointer to the null-terminated C string to compare.
* @return bool_t Returns true if the pstr matches the C string, false otherwise.
*/
bool_t pstringIsStr(const struct pstr *p, char *s);
/**
* @brief Increments the reference count of a file system entry.
*
* This function increments the reference count of the given file system
* entry. It is typically used to manage the lifecycle of file system
* entries, ensuring that they are not prematurely deallocated.
*
* @param entry Pointer to the fsEntry structure whose reference count will be incremented.
* @return int Returns 0 on success.
*/
int fsEntryRef(struct fs_entry *entry);
/**
* @brief Decrements the reference count of a file system entry.
*
* This function decrements the reference count of the given file system
* entry. It is typically used to manage the lifecycle of file system
* entries, ensuring that they are not prematurely deallocated.
*
* @param entry Pointer to the fsEntry structure whose reference count will be decremented.
* @return int Returns 0 on success.
*/
int fsEntryUnref(struct fs_entry **entry);
/**
* @brief Allocates and initializes a new fsEntry.
*
* This function allocates memory for a new `fsEntry` structure, initializes
* it with the provided name and inode, and adds it to the parent's list of children.
*
* @param parent Pointer to the parent `fsEntry` structure. Can be NULL if the new entry has no parent.
* @param name Pointer to the `pstr` structure representing the name of the new entry. Can be NULL.
* @param inode Pointer to the `inode` structure associated with the new entry.
*
* @return struct fsEntry* Pointer to the newly allocated `fsEntry` structure, or NULL if allocation fails.
*
* @note The reference count of the new entry is set to 1.
* @note If a parent is provided, the new entry is added to the parent's list of children and the parent's reference count is incremented.
* @note The inode's reference count is incremented.
*/
struct fs_entry *fsEntryAlloc(struct fs_entry *parent, const struct pstr *name, struct inode *inode);
/**
* @brief Looks up an entry in the file system.
*
* This function searches for a specified entry within the children
* of a given directory entry. The search is limited to the entries
* that are already in memory. If the entry is not found, it indicates
* that the entry must be resolved using disk accesses.
*
* @param entry The node in which we are looking for the entry.
* @param name The name of the entry we are looking for.
* @param root The base node beyond which lookup must not go (to
* support chroot): a kind of "barrier".
* @param result The fsEntry for the given entry (set only when
* the return value is 0).
*
* @return int Returns 0 if the entry is found, otherwise returns a non-zero error code.
* -ENOENT if the entry could not be found in the entry directory.
*
* @note The mountpoints are followed.
* @note result is a NEW reference to the node. It should be unreferenced when unused.
*/
int fsEntryLookup(struct fs_entry *entry, const struct pstr *name,
const struct fs_entry *root, struct fs_entry **result);
/**
* @brief Setup the fsEntry subsystem
*
*/
int fsEntrySetup(void);
/**
* @brief Mounts a file system entry at a specified mount point.
*
* This function mounts a file system entry (`mounted`) at a specified mount point (`mountpoint`).
* It updates the `mountedFs` field of the mount point and the `mountpoint` field of the mounted entry.
*
* @param mountpoint Pointer to the `fsEntry` structure representing the mount point.
* @param mounted Pointer to the `fsEntry` structure representing the file system entry to be mounted.
*
* @return int Returns 0 on success, or -EBUSY if either the mount point is already occupied or the mounted entry is already mounted.
*
* @note The reference counts of both the mount point and the mounted entry are incremented.
*/
int fsEntryMount(struct fs_entry *mountpoint, struct fs_entry *mounted);
/**
* @brief Unmounts a file system entry.
*
* This function unmounts a file system entry (`mounted`) from its mount point.
* It updates the `mountedFs` field of the mount point and the `mountpoint` field of the mounted entry.
*
* @param mounted Pointer to the `fsEntry` structure representing the file system entry to be unmounted.
*
* @return int Returns 0 on success, -ENOENT if the entry is not mounted, or -EBUSY if the entry is busy.
*
* @note The unmount operation fails if the mounted entry has children or other references.
* @note The reference counts of both the mount point and the mounted entry are decremented.
*/
int fsEntryUmount(struct fs_entry *mounted);

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@ -171,7 +171,7 @@ void reverse(char s[])
} }
/* K&R */ /* K&R */
int strlen(const char s[]) size_t strlen(const char s[])
{ {
int i = 0; int i = 0;
while (s[i] != '\0') while (s[i] != '\0')

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@ -26,7 +26,7 @@ __attribute__ ((access (write_only, 1, 3))) void *memset(void *s, int c, size_t
char *itoa(long long int value, char *str, int base); char *itoa(long long int value, char *str, int base);
int atoi(const char *str); int atoi(const char *str);
void reverse(char s[]); void reverse(char s[]);
int strlen(const char s[]); size_t strlen(const char s[]);
__attribute__ ((access (read_only, 1, 2))) unsigned int strnlen(const char *s, size_t count); __attribute__ ((access (read_only, 1, 2))) unsigned int strnlen(const char *s, size_t count);
int strcmp(const char s1[], const char s2[]); int strcmp(const char s1[], const char s2[]);
__attribute__ ((access (read_only, 2), access (write_only, 1, 3))) char *strzcpy(char *dst, const char *src, int len); __attribute__ ((access (read_only, 2), access (write_only, 1, 3))) char *strzcpy(char *dst, const char *src, int len);

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@ -3,10 +3,10 @@
#include "ata.h" #include "ata.h"
#include "elf.h" #include "elf.h"
#include "exception.h" #include "exception.h"
#include "fsEntry.h"
#include "gdt.h" #include "gdt.h"
#include "idt.h" #include "idt.h"
#include "interrupt.h" #include "interrupt.h"
#include "io.h"
#include "irq.h" #include "irq.h"
#include "kernel.h" #include "kernel.h"
#include "keyboard.h" #include "keyboard.h"
@ -19,7 +19,6 @@
#include "process.h" #include "process.h"
#include "serial.h" #include "serial.h"
#include "stack.h" #include "stack.h"
#include "stdarg.h"
#include "swintr.h" #include "swintr.h"
#include "thread.h" #include "thread.h"
#ifdef RUN_TEST #ifdef RUN_TEST
@ -41,7 +40,6 @@ void idleThread(void *arg)
} }
} }
#define FILE_HEADER_SIZE 16 #define FILE_HEADER_SIZE 16
#define FILE_MAX_SIZE 64 // In nb of sectors #define FILE_MAX_SIZE 64 // In nb of sectors
void loadUserSpace() void loadUserSpace()
@ -53,7 +51,7 @@ void loadUserSpace()
return; return;
} }
char *buf = malloc(FILE_MAX_SIZE * DISK_SECTOR_SIZE); char *buf = (char *)malloc(FILE_MAX_SIZE * DISK_SECTOR_SIZE);
if (buf == NULL) { if (buf == NULL) {
printf("ENOMEM\n"); printf("ENOMEM\n");
return; return;
@ -259,6 +257,9 @@ void kmain(unsigned long magic, unsigned long addr)
irqSetRoutine(IRQ_TIMER, pit_handler); irqSetRoutine(IRQ_TIMER, pit_handler);
ATAInit(); ATAInit();
// VFS name caching
fsEntrySetup();
#ifdef RUN_TEST #ifdef RUN_TEST
run_test(); run_test();
#endif #endif

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@ -9,3 +9,6 @@ typedef unsigned long paddr_t;
// Userspace vaddr // Userspace vaddr
typedef unsigned long uaddr_t; typedef unsigned long uaddr_t;
// Offset
typedef long long loff_t;

83
drivers/fat16.c Normal file
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@ -0,0 +1,83 @@
#include <stdint.h>
/**
* media organization:
* * boot record (1 sector, so could be called boot sector): BPB + Extended Boot Record
* * File Allocation Table (FAT)
* * data area
*/
struct ebr_fat16 { // Extended Boot Record for FAT16
uint8_t drive_number;
uint8_t flags;
uint8_t signature; // Must be 0x29 for FAT16
uint8_t vol_id[4];
uint8_t vol_label[11];
uint8_t sys_id[8]; // Do not trust this!
uint8_t bootcode[448];
uint16_t bootable_signature; // 0xAA55
} __attribute__((packed));
struct ebr_fat32 { // Extended Boot Record for FAT32
uint32_t fat_size;
uint16_t flags;
uint16_t fat_version_number;
uint32_t root_cluster_nb;
uint8_t reserved[12];
uint8_t drive_number;
uint8_t flags_nt;
uint8_t signature;
uint8_t vol_id[4];
uint8_t vol_label[11];
uint8_t sys_id[8]; // Should be always "FAT32"
uint8_t bootcode[420];
uint16_t bootable_signature; // 0xAA55
} __attribute__((packed));
struct bpb { // Bios Param Block
uint8_t jump_ins[3];
uint8_t oem_id[3];
uint16_t bytes_per_sector;
uint8_t sector_per_cluster;
uint16_t reserved_sectors; // boot sectors included
uint8_t nb_fat;
uint16_t nb_root_dirs;
uint16_t nb_sectors;
uint8_t media_description_type;
uint16_t sectors_per_fat;
uint16_t sectors_per_track;
uint16_t number_of_heads;
uint32_t hidden_sectors;
uint32_t nb_large_sectors;
union {
struct ebr_fat32 fat32;
struct ebr_fat16 fat16;
};
} __attribute__((packed));
typedef enum {
READ_ONLY = 0x01,
HIDDEN = 0x02,
SYSTEM = 0x04,
VOLUME_ID = 0x08,
DIRECTORY = 0x10,
ARCHIVE = 0x20,
LFN = READ_ONLY | HIDDEN | SYSTEM | VOLUME_ID,
} __attribute__((__packed__)) directory_entry_type_t;
struct directory_entry {
uint8_t filename[11];
directory_entry_type_t type;
uint8_t reserved;
uint8_t creation_time_hundredths_sec;
uint16_t creation_time; // hour[5] min[6] sec[5]
uint16_t creation_date; // year[7] month[4] day[5]
uint16_t last_access_date; // year[7] month[4] day[5]
uint16_t cluster_nb_high;
uint16_t modification_time; // hour[5] min[6] sec[5]
uint16_t modification_date; // year[7] month[4] day[5]
uint16_t cluster_nb_low;
uint32_t size; // in bytes
} __attribute__((packed));

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@ -3,8 +3,12 @@
#include "ata.h" #include "ata.h"
#include "assert.h" #include "assert.h"
#include "cpu_context.h" #include "cpu_context.h"
#include "errno.h"
#include "fsEntry.h"
#include "kernel.h" #include "kernel.h"
#include "klibc.h" #include "klibc.h"
#include "stddef.h"
#include "stdint.h"
#include "thread.h" #include "thread.h"
#include "list.h" #include "list.h"
#include "mem.h" #include "mem.h"
@ -493,8 +497,194 @@ void testRingBuffer()
ringbufferDestroy(inst); ringbufferDestroy(inst);
} }
void printPstr(struct pstr *str){
for(uint i = 0; i < str->len; i++){
putc(str->name[i]);
}
}
void printPstrln(struct pstr *str){
printPstr(str);
putc('\n');
}
void testFsPstring()
{
bool_t result;
struct pstr path, upper, lower, lower2, lower3;
// Test 1
path.name = "/usr/local/bin";
path.len = 14;
result = pstringSplipPath(&path, &upper, &lower);
printf("Test 1:\n");
printPstrln(&path);
printPstrln(&upper);
printPstrln(&lower);
printf("Result: %s\n\n", result ? "true" : "false");
// Test 2
path.name = "/home/user";
path.len = 10;
result = pstringSplipPath(&path, &upper, &lower);
printf("Test 2:\n");
printPstrln(&path);
printPstrln(&upper);
printPstrln(&lower);
printf("Result: %s\n\n", result ? "true" : "false");
// Test 3
path.name = "/tmp";
path.len = 4;
result = pstringSplipPath(&path, &upper, &lower);
printf("Test 3:\n");
printPstrln(&path);
printPstrln(&upper);
printPstrln(&lower);
printf("Result: %s\n\n", result ? "true" : "false");
// Test 4
path.name = "/var/log/";
path.len = 9;
result = pstringSplipPath(&path, &upper, &lower);
printf("Test 4:\n");
printPstrln(&path);
printPstrln(&upper);
printPstrln(&lower);
printf("Result: %s\n\n", result ? "true" : "false");
// Test 5
path.name = "/";
path.len = 1;
result = pstringSplipPath(&path, &upper, &lower);
printf("Test 5:\n");
printPstrln(&path);
printPstrln(&upper);
printPstrln(&lower);
printf("Result: %s\n\n", result ? "true" : "false");
// Test 6
const char *tmp = "///home///file/test///";
path.name = tmp;
path.len = strlen(tmp);
struct pstr test = PSTR_STATIC_INIT("test");
struct pstr empty = PSTR_INIT("", 0);
struct pstr slash = PSTR_INIT("/", 1);
struct pstr dot = PSTR_INIT("..", 2);
printf("Test 6:\n");
printPstr(&path);
assert(pstringSplipPath(&path, &upper, &lower));
printf("\nUpper: ");
printPstr(&upper);
printf("\nLower: ");
printPstr(&lower);
printf("\n");
assert(pstringSplipPath(&lower, &upper, &lower2));
printf("\nUpper: ");
printPstr(&upper);
printf("\nLower: ");
printPstr(&lower2);
printf("\n");
assert(pstringSplipPath(&lower2, &upper, &lower3) == 0);
printf("\nUpper: ");
printPstr(&upper);
printf("\nLower: ");
printPstr(&lower3);
printf("\n");
assert(pstringIsEq(&upper, &test));
assert(pstringSplipPath(&empty, &upper, &lower) == FALSE);
assert(pstringSplipPath(&slash, &upper, &lower) == FALSE);
assert(pstringIsEq(&empty, &test) == FALSE);
assert(pstringIsEq(&dot, &test) == FALSE);
}
void testFsEntry()
{
printf("Test fsEntry: create tree\n");
struct inode inode;
struct pstr rootname = PSTR_STATIC_INIT("/");
struct pstr homename = PSTR_STATIC_INIT("home");
struct pstr usrname = PSTR_STATIC_INIT("usr");
struct pstr file1name = PSTR_STATIC_INIT("file1");
struct pstr mntname = PSTR_STATIC_INIT("mnt");
struct pstr mntfilename = PSTR_STATIC_INIT("file2");
struct pstr dot = PSTR_STATIC_INIT(".");
struct pstr dot2 = PSTR_STATIC_INIT("..");
// create fs with /home, /mnt, /usr/file1
struct fs_entry *root = fsEntryAlloc(NULL, &rootname, &inode);
struct fs_entry *home = fsEntryAlloc(root, &homename, &inode);
struct fs_entry *usr = fsEntryAlloc(root, &usrname, &inode);
struct fs_entry *mnt = fsEntryAlloc(root, &mntname, &inode);
struct fs_entry *file1 = fsEntryAlloc(home, &file1name, &inode);
// /file2
struct fs_entry *rootExt = fsEntryAlloc(NULL, &rootname, &inode);
struct fs_entry *mntfile = fsEntryAlloc(rootExt, &mntfilename, &inode);
struct fs_entry *res, *res2;
assert(root && home && usr);
printf("Test fsEntry: Lookup\n");
// find a child
assert(fsEntryLookup(root, &homename, NULL, &res) == 0);
assert(home == res);
fsEntryUnref(&res);
// cd .
assert(fsEntryLookup(home, &dot, NULL, &res) == 0);
assert(home == res);
fsEntryUnref(&res);
// cd ..
assert(fsEntryLookup(home, &dot2, NULL, &res) == 0);
assert(root == res);
fsEntryUnref(&res);
// find a non-child fail
assert(fsEntryLookup(home, &usrname, NULL, &res) == -ENOENT);
// find mnt and mount rootExt
assert(fsEntryLookup(root, &mntname, NULL, &res) == 0);
assert(res == mnt);
assert(fsEntryMount(res, rootExt)==0);
fsEntryUnref(&res); //lookup increase ref
// find on mounted
assert(fsEntryLookup(root, &mntname, NULL, &res) == 0);
fsEntryUnref(&res); //lookup increase ref
assert(fsEntryLookup(res, &mntfilename, NULL, &res2) == 0);
fsEntryUnref(&res2); //lookup increase ref
// Clen rootExt
fsEntryUnref(&mntfile);
// unmount rootExt
assert(fsEntryUmount(rootExt) == 0);
printf("Test fsEntry: free tree\n");
fsEntryUnref(&usr);
assert(root->ref > 0);
assert(usr == NULL);
fsEntryUnref(&home);
assert(home != NULL);
fsEntryUnref(&file1);
assert(file1 == NULL);
fsEntryUnref(&mnt);
assert(mnt == NULL);
fsEntryUnref(&mntfile);
fsEntryUnref(&rootExt);
}
void run_test(void) void run_test(void)
{ {
testFsPstring();
testFsEntry();
// Example of checking thx to access attributs // Example of checking thx to access attributs
//int a[4] = {0}; //int a[4] = {0};
//int b[3] = {0}; //int b[3] = {0};