C++ suriyaaOS-Windows10上的Cygwin-Makefile错误:目标的配方';模块/ext2.o';失败
嗨,飞越者C++ suriyaaOS-Windows10上的Cygwin-Makefile错误:目标的配方';模块/ext2.o';失败,c++,windows,github,C++,Windows,Github,嗨,飞越者 我目前不擅长编写一个好的C++对象文件>(对于我自己的虚拟操作系统“SuriyaOS”),不知道原因。-- 我的完整项目来源:() 这是我的内核/modules/Makefile: OBJS:= $(OBJS) modules/module.o \ modules/null.o modules/stdtty.o modules/x86serial.o\ modules/ide.o modules/bochsvbe.o \ modul
我目前不擅长编写一个好的C++对象文件>(对于我自己的虚拟操作系统“SuriyaOS”),不知道原因。-- 我的完整项目来源:()
这是我的
内核/modules/MakefileOBJS:= $(OBJS) modules/module.o \
modules/null.o modules/stdtty.o modules/x86serial.o\
modules/ide.o modules/bochsvbe.o \
modules/ext2.o modules/dospartition.o \
modules/clock_x86.o modules/keys.o
#include <os.h>
#include <ext2.h>
File* ext2_mount(char* name,u32 flag,File* suriyaa){
int ret=ext2_check_disk(suriyaa);
if (ret!=RETURN_OK){
io.print("ext2: can't mount %s in %s \n",suriyaa->getName(),name);
return NULL;
}
else{
io.print("ext2: mount %s in %s \n",suriyaa->getName(),name);
Ext2* ret=new Ext2(name);
ret->ext2inode=EXT2_INUM_ROOT;
ext2_get_disk_info(suriyaa,ret);
ret->scan();
return ret;
}
}
module("module.ext2",MODULE_FILESYSTEM,Ext2,ext2_mount)
Ext2::~Ext2(){
}
Ext2::Ext2(char* n) : File(n,TYPE_DIRECTORY)
{
map=NULL;
}
void Ext2::scan(){
ext2_scan(this);
}
u32 Ext2::close(){
return NOT_DEFINED;
}
u32 Ext2::open(u32 flag){
ext2_inode *inodee=ext2_read_inode(disk,ext2inode);
map=ext2_read_file(disk,inodee);
kfree(inodee);
return RETURN_OK;
}
u32 Ext2::read(u32 pos,u8* buffer,u32 sizee){
u32 bufsize=sizee;
if ((pos + bufsize) > (size))
bufsize = (u32)(size) - pos;
memcpy((char*)buffer, (char *) (map + pos), bufsize);
return bufsize;
}
u32 Ext2::write(u32 pos,u8* buffer,u32 sizee){
return NOT_DEFINED;
}
u32 Ext2::ioctl(u32 id,u8* buffer){
return NOT_DEFINED;
}
u32 Ext2::remove(){
delete this;
return RETURN_OK;
}
/*
* EXT2 specification
*/
int ext2_read_sb(File* suriya,ext2_super_block *sb)
{
if (suriyaa!=NULL){
suriyaa->read((u32)1024,(u8 *) sb,sizeof(ext2_super_block));
return RETURN_OK;
}
else
return ERROR_PARAM;
}
int ext2_read_gd(File* fsuriyaa,ext2_group_desc *gd,ext2_disk* info)
{
if (fsuriyaa!=NULL){
u32 offset;
offset = ((info->blocksize == 1024) ? 2048 : info->blocksize);
int gd_size = (info->groups * ((int)sizeof(struct ext2_group_desc)));
fsuriyaa->read(offset,(u8*) gd,gd_size);
return RETURN_OK;
}
else
return ERROR_PARAM;
}
void ext2_get_disk_info(File*suriyaa,Ext2 *fp)
{
ext2_disk* info=(ext2_disk*)kmalloc(sizeof(ext2_disk));
info->sb=(ext2_super_block*)kmalloc(sizeof(ext2_super_block));
info->suriyaa=suriyaa;
int i, j;
ext2_read_sb(suriyaa,info->sb);
info->blocksize = 1024 << ((info->sb)->s_log_block_size);
i = (info->sb->s_blocks_count / info->sb->s_blocks_per_group) + ((info->sb->s_blocks_count % info->sb->s_blocks_per_group) ? 1 : 0);
j = (info->sb->s_inodes_count / info->sb->s_inodes_per_group) + ((info->sb->s_inodes_count % info->sb->s_inodes_per_group) ? 1 : 0);
info->groups = (i > j) ? i : j;
int gd_size = info->groups * ((int)sizeof(ext2_group_desc));
info->gd = (ext2_group_desc *) kmalloc(gd_size);
ext2_read_gd(info->suriyaa,info->gd,info);
fp->disk=info;
return;
}
int ext2_check_disk(File *suriyaa)
{
ext2_super_block *sb=(ext2_super_block *)kmalloc(sizeof(ext2_super_block));
if (ext2_read_sb(suriyaa,sb)!=RETURN_OK)
return ERROR_PARAM;
if (sb->s_magic==0xEF53){
kfree(sb);
return RETURN_OK;
}
else{
kfree(sb);
return ERROR_PARAM;
}
}
ext2_inode *ext2_read_inode(ext2_disk* hd, int i_num)
{
int gr_num, index;
u32 offset;
ext2_inode *inode;
ext2_group_desc * info=hd->gd;
inode = (ext2_inode *) kmalloc((hd->sb)->s_inode_size);//sizeof(ext2_inode));
gr_num = (i_num - 1) / ((hd->sb)->s_inodes_per_group);
index = (i_num - 1) % ((hd->sb)->s_inodes_per_group);
offset = (info[gr_num].bg_inode_table * (hd->blocksize)) + (index * ((hd->sb)->s_inode_size));
if ((hd->suriyaa)!=NULL){
(hd->suriyaa)->read(offset,(u8*) inode,(hd->sb)->s_inode_size);
}
return inode;
}
int ext2_is_directory(Ext2 *fp)
{
ext2_inode *inod=ext2_read_inode(fp->disk,fp->ext2inode);
int ret=(inod->i_mode & EXT2_S_IFDIR) ? 1 : 0;
kfree(inod);
return ret;
}
char *ext2_read_file(ext2_disk *hd,ext2_inode *inode)
{
File *suriyaa=hd->suriyaa;
char *mmap_base, *mmap_head, *buf;
int *p, *pp, *ppp;
int i, j, k;
int n, size;
buf = (char *) kmalloc(hd->blocksize);
p = (int *) kmalloc(hd->blocksize);
pp = (int *) kmalloc(hd->blocksize);
ppp = (int *) kmalloc(hd->blocksize);
/* taille totale du fichier */
size = inode->i_size;
mmap_head = mmap_base = (char*)kmalloc(size);
/* direct block number */
for (i = 0; i < 12 && inode->i_block[i]; i++) {
suriyaa->read((u32)(inode->i_block[i] * hd->blocksize),(u8*) buf, (hd->blocksize));
n = ((size > (int)hd->blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
/* indirect block number */
if (inode->i_block[12]) {
suriyaa->read((u32)(inode->i_block[12] * hd->blocksize), (u8*) p, (hd->blocksize));
for (i = 0; i < (int)hd->blocksize / 4 && p[i]; i++) {
suriyaa->read((u32)(p[i] * hd->blocksize),(u8*)buf, (hd->blocksize));
n = ((size > (int)hd->blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
}
/* bi-indirect block number */
if (inode->i_block[13]) {
suriyaa->read((u32)(inode->i_block[13] * hd->blocksize), (u8*) p, (hd->blocksize));
for (i = 0; i < (int)hd->blocksize / 4 && p[i]; i++) {
suriyaa->read((u32)(p[i] * (int)hd->blocksize), (u8*) pp,(hd->blocksize));
for (j = 0; j < (int)hd->blocksize / 4 && pp[j]; j++) {
suriyaa->read((u32)(pp[j] * hd->blocksize),(u8*)buf,(hd->blocksize));
n = ((size > (int)hd-> blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
}
}
/* tri-indirect block number */
if (inode->i_block[14]) {
suriyaa->read((u32)(inode->i_block[14] * hd->blocksize), (u8*) p,(hd->blocksize));
for (i = 0; i < (int)hd->blocksize / 4 && p[i]; i++) {
suriyaa->read((u32)(p[i] * hd->blocksize), (u8*) pp,(hd->blocksize));
for (j = 0; j < (int)hd->blocksize / 4 && pp[j]; j++) {
suriyaa->read((u32)(pp[j] * hd->blocksize), (u8*) ppp,(hd->blocksize));
for (k = 0; k < (int)hd->blocksize / 4 && ppp[k]; k++) {
suriyaa->read((u32)(ppp[k] * hd->blocksize),(u8*)buf,(hd->blocksize));
n = ((size > (int)hd->blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
}
}
}
kfree(buf);
kfree(p);
kfree(pp);
kfree(ppp);;
return mmap_base;
}
int ext2_scan(Ext2 *dir)
{
ext2_directory_entry *dentry;
Ext2 *leaf;
u32 dsize;
char *filename;
int f_toclose;
ext2_inode *inode = ext2_read_inode(dir->disk, dir->ext2inode);
if (dir->getType()!=TYPE_DIRECTORY) {
return ERROR_PARAM;
}
if (!dir->map) {
dir->map = ext2_read_file(dir->disk, inode);
f_toclose = 1;
} else {
f_toclose = 0;
}
dsize = inode->i_size;
dentry = (ext2_directory_entry *) dir->map;
while (inode && dsize) {
filename = (char *) kmalloc(dentry->name_len + 1);
memcpy(filename,(char*)&(dentry->name), dentry->name_len);
filename[dentry->name_len] = 0;
if (strcmp(".", filename) && strcmp("..", filename)) {
if (dir->find(filename)==NULL) {
leaf= new Ext2(filename);
leaf->ext2inode = dentry->inode;
leaf->disk=dir->disk;
if (ext2_is_directory(leaf))
leaf->setType(TYPE_DIRECTORY);
else
leaf->setType(TYPE_FILE);
dir->addChild(leaf);
leaf->map = 0;
ext2_inode *inod=ext2_read_inode((ext2_disk*)leaf->disk,leaf->ext2inode);
leaf->setSize(inod->i_size);
kfree(inod);
}
}
kfree(filename);
dsize -= dentry->rec_len;
dentry = (ext2_directory_entry *) ((char *) dentry + dentry->rec_len);
}
kfree(inode);
if (f_toclose == 1) {
kfree(dir->map);
dir->map = 0;
}
return 0;
}
#ifndef __EXT2__
#define __EXT2__
#include <runtime/types.h>
#include <core/file.h>
#include <io.h>
/*
* Ext2 specification
*/
struct ext2_super_block {
u32 s_inodes_count; /* Total number of inodes */
u32 s_blocks_count; /* Total number of blocks */
u32 s_r_blocks_count; /* Total number of blocks reserved for the super user */
u32 s_free_blocks_count; /* Total number of free blocks */
u32 s_free_inodes_count; /* Total number of free inodes */
u32 s_first_data_block; /* Id of the block containing the superblock structure */
u32 s_log_block_size; /* Used to compute block size = 1024 << s_log_block_size */
u32 s_log_frag_size; /* Used to compute fragment size */
u32 s_blocks_per_group; /* Total number of blocks per group */
u32 s_frags_per_group; /* Total number of fragments per group */
u32 s_inodes_per_group; /* Total number of inodes per group */
u32 s_mtime; /* Last time the file system was mounted */
u32 s_wtime; /* Last write access to the file system */
u16 s_mnt_count; /* How many `mount' since the last was full verification */
u16 s_max_mnt_count; /* Max count between mount */
u16 s_magic; /* = 0xEF53 */
u16 s_state; /* File system state */
u16 s_errors; /* Behaviour when detecting errors */
u16 s_minor_rev_level; /* Minor revision level */
u32 s_lastcheck; /* Last check */
u32 s_checkinterval; /* Max. time between checks */
u32 s_creator_os; /* = 5 */
u32 s_rev_level; /* = 1, Revision level */
u16 s_def_resuid; /* Default uid for reserved blocks */
u16 s_def_resgid; /* Default gid for reserved blocks */
u32 s_first_ino; /* First inode useable for standard files */
u16 s_inode_size; /* Inode size */
u16 s_block_group_nr; /* Block group hosting this superblock structure */
u32 s_feature_compat;
u32 s_feature_incompat;
u32 s_feature_ro_compat;
u8 s_uuid[16]; /* Volume id */
char s_volume_name[16]; /* Volume name */
char s_last_mounted[64]; /* Path where the file system was last mounted */
u32 s_algo_bitmap; /* For compression */
u8 s_padding[820];
} __attribute__ ((packed));
struct ext2_group_desc {
u32 bg_block_bitmap; /* Id of the first block of the "block bitmap" */
u32 bg_inode_bitmap; /* Id of the first block of the "inode bitmap" */
u32 bg_inode_table; /* Id of the first block of the "inode table" */
u16 bg_free_blocks_count; /* Total number of free blocks */
u16 bg_free_inodes_count; /* Total number of free inodes */
u16 bg_used_dirs_count; /* Number of inodes allocated to directories */
u16 bg_pad; /* Padding the structure on a 32bit boundary */
u32 bg_reserved[3]; /* Future implementation */
} __attribute__ ((packed));
struct ext2_inode {
u16 i_mode; /* File type + access rights */
u16 i_uid;
u32 i_size;
u32 i_atime;
u32 i_ctime;
u32 i_mtime;
u32 i_dtime;
u16 i_gid;
u16 i_links_count;
u32 i_blocks; /* 512 bytes blocks ! */
u32 i_flags;
u32 i_osd1;
/*
* [0] -> [11] : block number (32 bits per block)
* [12] : indirect block number
* [13] : bi-indirect block number
* [14] : tri-indirect block number
*/
u32 i_block[15];
u32 i_generation;
u32 i_file_acl;
u32 i_dir_acl;
u32 i_faddr;
u8 i_osd2[12];
} __attribute__ ((packed));
struct ext2_directory_entry {
u32 inode; /* inode number or 0 (unused) */
u16 rec_len; /* offset to the next dir. entry */
u8 name_len; /* name length */
u8 file_type;
char name;
} __attribute__ ((packed));
struct ext2_disk {
ext2_super_block* sb;
ext2_group_desc* gd;
u32 blocksize;
u16 groups; /* Total number of groups */
File* suriyaa;
};
/* super_block: s_errors */
#define EXT2_ERRORS_CONTINUE 1
#define EXT2_ERRORS_RO 2
#define EXT2_ERRORS_PANIC 3
#define EXT2_ERRORS_DEFAULT 1
/* inode: i_mode */
#define EXT2_S_IFMT 0xF000 /* format mask */
#define EXT2_S_IFSOCK 0xC000 /* socket */
#define EXT2_S_IFLNK 0xA000 /* symbolic link */
#define EXT2_S_IFREG 0x8000 /* regular file */
#define EXT2_S_IFBLK 0x6000 /* block device */
#define EXT2_S_IFDIR 0x4000 /* directory */
#define EXT2_S_IFCHR 0x2000 /* character device */
#define EXT2_S_IFIFO 0x1000 /* fifo */
#define EXT2_S_ISUID 0x0800 /* SUID */
#define EXT2_S_ISGID 0x0400 /* SGID */
#define EXT2_S_ISVTX 0x0200 /* sticky bit */
#define EXT2_S_IRWXU 0x01C0 /* user access rights mask */
#define EXT2_S_IRUSR 0x0100 /* read */
#define EXT2_S_IWUSR 0x0080 /* write */
#define EXT2_S_IXUSR 0x0040 /* execute */
#define EXT2_S_IRWXG 0x0038 /* group access rights mask */
#define EXT2_S_IRGRP 0x0020 /* read */
#define EXT2_S_IWGRP 0x0010 /* write */
#define EXT2_S_IXGRP 0x0008 /* execute */
#define EXT2_S_IRWXO 0x0007 /* others access rights mask */
#define EXT2_S_IROTH 0x0004 /* read */
#define EXT2_S_IWOTH 0x0002 /* write */
#define EXT2_S_IXOTH 0x0001 /* execute */
#define EXT2_INUM_ROOT 2
/*
* Driver class
*/
class Ext2 : public File
{
public:
Ext2(char* n);
~Ext2();
u32 open(u32 flag);
u32 close();
u32 read(u32 pos,u8* buffer,u32 sizee);
u32 write(u32 pos,u8* buffer,u32 sizee);
u32 ioctl(u32 id,u8* buffer);
u32 remove();
void scan();
char* map;
ext2_disk* disk;
int ext2inode;
private:
};
int ext2_check_disk(File *suriyaa);
void ext2_get_disk_info(File*suriyaa,Ext2 *fp);
int ext2_read_gd(File* fsuriyaa,ext2_group_desc *gd,ext2_disk* info);
int ext2_read_sb(File* suriyaa,ext2_super_block *sb);
ext2_inode* ext2_read_inode(ext2_disk* hd, int i_num);
int ext2_is_directory(Ext2 *fp);
int ext2_scan(Ext2 *dir);
char * ext2_read_file(ext2_disk *hd,ext2_inode *inode);
#endif
内核/modules/ext2.ccOBJS:= $(OBJS) modules/module.o \
modules/null.o modules/stdtty.o modules/x86serial.o\
modules/ide.o modules/bochsvbe.o \
modules/ext2.o modules/dospartition.o \
modules/clock_x86.o modules/keys.o
#include <os.h>
#include <ext2.h>
File* ext2_mount(char* name,u32 flag,File* suriyaa){
int ret=ext2_check_disk(suriyaa);
if (ret!=RETURN_OK){
io.print("ext2: can't mount %s in %s \n",suriyaa->getName(),name);
return NULL;
}
else{
io.print("ext2: mount %s in %s \n",suriyaa->getName(),name);
Ext2* ret=new Ext2(name);
ret->ext2inode=EXT2_INUM_ROOT;
ext2_get_disk_info(suriyaa,ret);
ret->scan();
return ret;
}
}
module("module.ext2",MODULE_FILESYSTEM,Ext2,ext2_mount)
Ext2::~Ext2(){
}
Ext2::Ext2(char* n) : File(n,TYPE_DIRECTORY)
{
map=NULL;
}
void Ext2::scan(){
ext2_scan(this);
}
u32 Ext2::close(){
return NOT_DEFINED;
}
u32 Ext2::open(u32 flag){
ext2_inode *inodee=ext2_read_inode(disk,ext2inode);
map=ext2_read_file(disk,inodee);
kfree(inodee);
return RETURN_OK;
}
u32 Ext2::read(u32 pos,u8* buffer,u32 sizee){
u32 bufsize=sizee;
if ((pos + bufsize) > (size))
bufsize = (u32)(size) - pos;
memcpy((char*)buffer, (char *) (map + pos), bufsize);
return bufsize;
}
u32 Ext2::write(u32 pos,u8* buffer,u32 sizee){
return NOT_DEFINED;
}
u32 Ext2::ioctl(u32 id,u8* buffer){
return NOT_DEFINED;
}
u32 Ext2::remove(){
delete this;
return RETURN_OK;
}
/*
* EXT2 specification
*/
int ext2_read_sb(File* suriya,ext2_super_block *sb)
{
if (suriyaa!=NULL){
suriyaa->read((u32)1024,(u8 *) sb,sizeof(ext2_super_block));
return RETURN_OK;
}
else
return ERROR_PARAM;
}
int ext2_read_gd(File* fsuriyaa,ext2_group_desc *gd,ext2_disk* info)
{
if (fsuriyaa!=NULL){
u32 offset;
offset = ((info->blocksize == 1024) ? 2048 : info->blocksize);
int gd_size = (info->groups * ((int)sizeof(struct ext2_group_desc)));
fsuriyaa->read(offset,(u8*) gd,gd_size);
return RETURN_OK;
}
else
return ERROR_PARAM;
}
void ext2_get_disk_info(File*suriyaa,Ext2 *fp)
{
ext2_disk* info=(ext2_disk*)kmalloc(sizeof(ext2_disk));
info->sb=(ext2_super_block*)kmalloc(sizeof(ext2_super_block));
info->suriyaa=suriyaa;
int i, j;
ext2_read_sb(suriyaa,info->sb);
info->blocksize = 1024 << ((info->sb)->s_log_block_size);
i = (info->sb->s_blocks_count / info->sb->s_blocks_per_group) + ((info->sb->s_blocks_count % info->sb->s_blocks_per_group) ? 1 : 0);
j = (info->sb->s_inodes_count / info->sb->s_inodes_per_group) + ((info->sb->s_inodes_count % info->sb->s_inodes_per_group) ? 1 : 0);
info->groups = (i > j) ? i : j;
int gd_size = info->groups * ((int)sizeof(ext2_group_desc));
info->gd = (ext2_group_desc *) kmalloc(gd_size);
ext2_read_gd(info->suriyaa,info->gd,info);
fp->disk=info;
return;
}
int ext2_check_disk(File *suriyaa)
{
ext2_super_block *sb=(ext2_super_block *)kmalloc(sizeof(ext2_super_block));
if (ext2_read_sb(suriyaa,sb)!=RETURN_OK)
return ERROR_PARAM;
if (sb->s_magic==0xEF53){
kfree(sb);
return RETURN_OK;
}
else{
kfree(sb);
return ERROR_PARAM;
}
}
ext2_inode *ext2_read_inode(ext2_disk* hd, int i_num)
{
int gr_num, index;
u32 offset;
ext2_inode *inode;
ext2_group_desc * info=hd->gd;
inode = (ext2_inode *) kmalloc((hd->sb)->s_inode_size);//sizeof(ext2_inode));
gr_num = (i_num - 1) / ((hd->sb)->s_inodes_per_group);
index = (i_num - 1) % ((hd->sb)->s_inodes_per_group);
offset = (info[gr_num].bg_inode_table * (hd->blocksize)) + (index * ((hd->sb)->s_inode_size));
if ((hd->suriyaa)!=NULL){
(hd->suriyaa)->read(offset,(u8*) inode,(hd->sb)->s_inode_size);
}
return inode;
}
int ext2_is_directory(Ext2 *fp)
{
ext2_inode *inod=ext2_read_inode(fp->disk,fp->ext2inode);
int ret=(inod->i_mode & EXT2_S_IFDIR) ? 1 : 0;
kfree(inod);
return ret;
}
char *ext2_read_file(ext2_disk *hd,ext2_inode *inode)
{
File *suriyaa=hd->suriyaa;
char *mmap_base, *mmap_head, *buf;
int *p, *pp, *ppp;
int i, j, k;
int n, size;
buf = (char *) kmalloc(hd->blocksize);
p = (int *) kmalloc(hd->blocksize);
pp = (int *) kmalloc(hd->blocksize);
ppp = (int *) kmalloc(hd->blocksize);
/* taille totale du fichier */
size = inode->i_size;
mmap_head = mmap_base = (char*)kmalloc(size);
/* direct block number */
for (i = 0; i < 12 && inode->i_block[i]; i++) {
suriyaa->read((u32)(inode->i_block[i] * hd->blocksize),(u8*) buf, (hd->blocksize));
n = ((size > (int)hd->blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
/* indirect block number */
if (inode->i_block[12]) {
suriyaa->read((u32)(inode->i_block[12] * hd->blocksize), (u8*) p, (hd->blocksize));
for (i = 0; i < (int)hd->blocksize / 4 && p[i]; i++) {
suriyaa->read((u32)(p[i] * hd->blocksize),(u8*)buf, (hd->blocksize));
n = ((size > (int)hd->blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
}
/* bi-indirect block number */
if (inode->i_block[13]) {
suriyaa->read((u32)(inode->i_block[13] * hd->blocksize), (u8*) p, (hd->blocksize));
for (i = 0; i < (int)hd->blocksize / 4 && p[i]; i++) {
suriyaa->read((u32)(p[i] * (int)hd->blocksize), (u8*) pp,(hd->blocksize));
for (j = 0; j < (int)hd->blocksize / 4 && pp[j]; j++) {
suriyaa->read((u32)(pp[j] * hd->blocksize),(u8*)buf,(hd->blocksize));
n = ((size > (int)hd-> blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
}
}
/* tri-indirect block number */
if (inode->i_block[14]) {
suriyaa->read((u32)(inode->i_block[14] * hd->blocksize), (u8*) p,(hd->blocksize));
for (i = 0; i < (int)hd->blocksize / 4 && p[i]; i++) {
suriyaa->read((u32)(p[i] * hd->blocksize), (u8*) pp,(hd->blocksize));
for (j = 0; j < (int)hd->blocksize / 4 && pp[j]; j++) {
suriyaa->read((u32)(pp[j] * hd->blocksize), (u8*) ppp,(hd->blocksize));
for (k = 0; k < (int)hd->blocksize / 4 && ppp[k]; k++) {
suriyaa->read((u32)(ppp[k] * hd->blocksize),(u8*)buf,(hd->blocksize));
n = ((size > (int)hd->blocksize) ? (int)hd->blocksize : size);
memcpy(mmap_head, buf, n);
mmap_head += n;
size -= n;
}
}
}
}
kfree(buf);
kfree(p);
kfree(pp);
kfree(ppp);;
return mmap_base;
}
int ext2_scan(Ext2 *dir)
{
ext2_directory_entry *dentry;
Ext2 *leaf;
u32 dsize;
char *filename;
int f_toclose;
ext2_inode *inode = ext2_read_inode(dir->disk, dir->ext2inode);
if (dir->getType()!=TYPE_DIRECTORY) {
return ERROR_PARAM;
}
if (!dir->map) {
dir->map = ext2_read_file(dir->disk, inode);
f_toclose = 1;
} else {
f_toclose = 0;
}
dsize = inode->i_size;
dentry = (ext2_directory_entry *) dir->map;
while (inode && dsize) {
filename = (char *) kmalloc(dentry->name_len + 1);
memcpy(filename,(char*)&(dentry->name), dentry->name_len);
filename[dentry->name_len] = 0;
if (strcmp(".", filename) && strcmp("..", filename)) {
if (dir->find(filename)==NULL) {
leaf= new Ext2(filename);
leaf->ext2inode = dentry->inode;
leaf->disk=dir->disk;
if (ext2_is_directory(leaf))
leaf->setType(TYPE_DIRECTORY);
else
leaf->setType(TYPE_FILE);
dir->addChild(leaf);
leaf->map = 0;
ext2_inode *inod=ext2_read_inode((ext2_disk*)leaf->disk,leaf->ext2inode);
leaf->setSize(inod->i_size);
kfree(inod);
}
}
kfree(filename);
dsize -= dentry->rec_len;
dentry = (ext2_directory_entry *) ((char *) dentry + dentry->rec_len);
}
kfree(inode);
if (f_toclose == 1) {
kfree(dir->map);
dir->map = 0;
}
return 0;
}
#ifndef __EXT2__
#define __EXT2__
#include <runtime/types.h>
#include <core/file.h>
#include <io.h>
/*
* Ext2 specification
*/
struct ext2_super_block {
u32 s_inodes_count; /* Total number of inodes */
u32 s_blocks_count; /* Total number of blocks */
u32 s_r_blocks_count; /* Total number of blocks reserved for the super user */
u32 s_free_blocks_count; /* Total number of free blocks */
u32 s_free_inodes_count; /* Total number of free inodes */
u32 s_first_data_block; /* Id of the block containing the superblock structure */
u32 s_log_block_size; /* Used to compute block size = 1024 << s_log_block_size */
u32 s_log_frag_size; /* Used to compute fragment size */
u32 s_blocks_per_group; /* Total number of blocks per group */
u32 s_frags_per_group; /* Total number of fragments per group */
u32 s_inodes_per_group; /* Total number of inodes per group */
u32 s_mtime; /* Last time the file system was mounted */
u32 s_wtime; /* Last write access to the file system */
u16 s_mnt_count; /* How many `mount' since the last was full verification */
u16 s_max_mnt_count; /* Max count between mount */
u16 s_magic; /* = 0xEF53 */
u16 s_state; /* File system state */
u16 s_errors; /* Behaviour when detecting errors */
u16 s_minor_rev_level; /* Minor revision level */
u32 s_lastcheck; /* Last check */
u32 s_checkinterval; /* Max. time between checks */
u32 s_creator_os; /* = 5 */
u32 s_rev_level; /* = 1, Revision level */
u16 s_def_resuid; /* Default uid for reserved blocks */
u16 s_def_resgid; /* Default gid for reserved blocks */
u32 s_first_ino; /* First inode useable for standard files */
u16 s_inode_size; /* Inode size */
u16 s_block_group_nr; /* Block group hosting this superblock structure */
u32 s_feature_compat;
u32 s_feature_incompat;
u32 s_feature_ro_compat;
u8 s_uuid[16]; /* Volume id */
char s_volume_name[16]; /* Volume name */
char s_last_mounted[64]; /* Path where the file system was last mounted */
u32 s_algo_bitmap; /* For compression */
u8 s_padding[820];
} __attribute__ ((packed));
struct ext2_group_desc {
u32 bg_block_bitmap; /* Id of the first block of the "block bitmap" */
u32 bg_inode_bitmap; /* Id of the first block of the "inode bitmap" */
u32 bg_inode_table; /* Id of the first block of the "inode table" */
u16 bg_free_blocks_count; /* Total number of free blocks */
u16 bg_free_inodes_count; /* Total number of free inodes */
u16 bg_used_dirs_count; /* Number of inodes allocated to directories */
u16 bg_pad; /* Padding the structure on a 32bit boundary */
u32 bg_reserved[3]; /* Future implementation */
} __attribute__ ((packed));
struct ext2_inode {
u16 i_mode; /* File type + access rights */
u16 i_uid;
u32 i_size;
u32 i_atime;
u32 i_ctime;
u32 i_mtime;
u32 i_dtime;
u16 i_gid;
u16 i_links_count;
u32 i_blocks; /* 512 bytes blocks ! */
u32 i_flags;
u32 i_osd1;
/*
* [0] -> [11] : block number (32 bits per block)
* [12] : indirect block number
* [13] : bi-indirect block number
* [14] : tri-indirect block number
*/
u32 i_block[15];
u32 i_generation;
u32 i_file_acl;
u32 i_dir_acl;
u32 i_faddr;
u8 i_osd2[12];
} __attribute__ ((packed));
struct ext2_directory_entry {
u32 inode; /* inode number or 0 (unused) */
u16 rec_len; /* offset to the next dir. entry */
u8 name_len; /* name length */
u8 file_type;
char name;
} __attribute__ ((packed));
struct ext2_disk {
ext2_super_block* sb;
ext2_group_desc* gd;
u32 blocksize;
u16 groups; /* Total number of groups */
File* suriyaa;
};
/* super_block: s_errors */
#define EXT2_ERRORS_CONTINUE 1
#define EXT2_ERRORS_RO 2
#define EXT2_ERRORS_PANIC 3
#define EXT2_ERRORS_DEFAULT 1
/* inode: i_mode */
#define EXT2_S_IFMT 0xF000 /* format mask */
#define EXT2_S_IFSOCK 0xC000 /* socket */
#define EXT2_S_IFLNK 0xA000 /* symbolic link */
#define EXT2_S_IFREG 0x8000 /* regular file */
#define EXT2_S_IFBLK 0x6000 /* block device */
#define EXT2_S_IFDIR 0x4000 /* directory */
#define EXT2_S_IFCHR 0x2000 /* character device */
#define EXT2_S_IFIFO 0x1000 /* fifo */
#define EXT2_S_ISUID 0x0800 /* SUID */
#define EXT2_S_ISGID 0x0400 /* SGID */
#define EXT2_S_ISVTX 0x0200 /* sticky bit */
#define EXT2_S_IRWXU 0x01C0 /* user access rights mask */
#define EXT2_S_IRUSR 0x0100 /* read */
#define EXT2_S_IWUSR 0x0080 /* write */
#define EXT2_S_IXUSR 0x0040 /* execute */
#define EXT2_S_IRWXG 0x0038 /* group access rights mask */
#define EXT2_S_IRGRP 0x0020 /* read */
#define EXT2_S_IWGRP 0x0010 /* write */
#define EXT2_S_IXGRP 0x0008 /* execute */
#define EXT2_S_IRWXO 0x0007 /* others access rights mask */
#define EXT2_S_IROTH 0x0004 /* read */
#define EXT2_S_IWOTH 0x0002 /* write */
#define EXT2_S_IXOTH 0x0001 /* execute */
#define EXT2_INUM_ROOT 2
/*
* Driver class
*/
class Ext2 : public File
{
public:
Ext2(char* n);
~Ext2();
u32 open(u32 flag);
u32 close();
u32 read(u32 pos,u8* buffer,u32 sizee);
u32 write(u32 pos,u8* buffer,u32 sizee);
u32 ioctl(u32 id,u8* buffer);
u32 remove();
void scan();
char* map;
ext2_disk* disk;
int ext2inode;
private:
};
int ext2_check_disk(File *suriyaa);
void ext2_get_disk_info(File*suriyaa,Ext2 *fp);
int ext2_read_gd(File* fsuriyaa,ext2_group_desc *gd,ext2_disk* info);
int ext2_read_sb(File* suriyaa,ext2_super_block *sb);
ext2_inode* ext2_read_inode(ext2_disk* hd, int i_num);
int ext2_is_directory(Ext2 *fp);
int ext2_scan(Ext2 *dir);
char * ext2_read_file(ext2_disk *hd,ext2_inode *inode);
#endif
当我输入Windows 10 CMD:
make allC:\Users\Suriyaa\suriyaaosC:\Users\Suriyaa\suriyaaos>make all
Building Kernel
make -C ./kernel
make[1]: Entering directory '/cygdrive/c/Users/Suriyaa/suriyaaos/kernel'
g++ -I ./ -I ./modules -I ./core -I ./arch/x86 -g -O2 -w -trigraphs -fno-builtin
-fno-exceptions -fno-stack-protector -O0 -m32 -fno-rtti -nostdlib -nodefaultl
ibs -D__x86__ -c modules/ext2.cc -o modules/ext2.o
modules/ext2.cc: In function 'int ext2_read_sb(File*, ext2_super_block*)':
modules/ext2.cc:77:6: error: 'suriyaa' was not declared in this scope
if (suriyaa!=NULL){
^
Makefile:58: recipe for target 'modules/ext2.o' failed
make[1]: *** [modules/ext2.o] Error 1
make[1]: Leaving directory '/cygdrive/c/Users/Suriyaa/suriyaaos/kernel'
Makefile:10: recipe for target 'all' failed
make: *** [all] Error 2
有人知道问题出在哪里吗
问题不在于您的
makefileext2.ccint ext2_read_sb(File* suriya,ext2_super_block *sb)
当您呼叫
suriya时,是suriya
=代码中的NULLa