文件系统重构

This commit is contained in:
xiaoyi1212 2024-05-12 14:34:03 +08:00
parent 8a2a8685e4
commit 7e471c20ba
27 changed files with 2973 additions and 456 deletions

0
boot/asmfunc.asm Normal file
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@ -80,6 +80,15 @@ def build_network(): # 构建网络系统
return -1 return -1
return 0 return 0
def build_fs(): # 构建文件系统
print("Building fs source code...")
for file in os.listdir(cd + '\\fs'):
cmd = cd + gcc + " " + "fs\\" + file + " -o " + "target\\" + file.split(".")[0] + ".o"
e = os.system(cmd)
if e != 0:
return -1
return 0
def linker(): # 交叉编译链接 def linker(): # 交叉编译链接
print("Linking object files...") print("Linking object files...")
source_file = "" source_file = ""
@ -106,6 +115,9 @@ a = build_sysapp()
if a != 0: if a != 0:
exit(-1) exit(-1)
a = build_network() a = build_network()
if a != 0:
exit(-1)
a = build_fs()
if a != 0: if a != 0:
exit(-1) exit(-1)
a = linker() a = linker()

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@ -62,35 +62,35 @@ uint8_t read_cmos(uint8_t p) {
return data; return data;
} }
static uint32_t get_hour() { uint32_t get_hour() {
return bcd2hex(read_cmos(CMOS_CUR_HOUR)); return bcd2hex(read_cmos(CMOS_CUR_HOUR));
} }
;static uint32_t get_min() { uint32_t get_min() {
return bcd2hex(read_cmos(CMOS_CUR_MIN)); return bcd2hex(read_cmos(CMOS_CUR_MIN));
} }
static uint32_t get_sec() { uint32_t get_sec() {
return bcd2hex(read_cmos(CMOS_CUR_SEC)); return bcd2hex(read_cmos(CMOS_CUR_SEC));
} }
static uint32_t get_day_of_month() { uint32_t get_day_of_month() {
return bcd2hex(read_cmos(CMOS_MON_DAY)); return bcd2hex(read_cmos(CMOS_MON_DAY));
} }
static uint32_t get_day_of_week() { uint32_t get_day_of_week() {
return bcd2hex(read_cmos(CMOS_WEEK_DAY)); return bcd2hex(read_cmos(CMOS_WEEK_DAY));
} }
static uint32_t get_mon() { uint32_t get_mon() {
return bcd2hex(read_cmos(CMOS_CUR_MON)); return bcd2hex(read_cmos(CMOS_CUR_MON));
} }
static uint32_t get_year() { uint32_t get_year() {
return (bcd2hex(read_cmos(CMOS_CUR_CEN)) * 100) + bcd2hex(read_cmos(CMOS_CUR_YEAR)) + 1980; return (bcd2hex(read_cmos(CMOS_CUR_CEN)) * 100) + bcd2hex(read_cmos(CMOS_CUR_YEAR)) + 1980;
} }
static int is_leap_year(int year) { int is_leap_year(int year) {
if (year % 4 != 0) return 0; if (year % 4 != 0) return 0;
if (year % 400 == 0) return 1; if (year % 400 == 0) return 1;
return year % 100 != 0; return year % 100 != 0;

62
driver/dma.c Normal file
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@ -0,0 +1,62 @@
#include "../include/dma.h"
#include "../include/io.h"
unsigned char MaskReg[8] = {0x0A, 0x0A, 0x0A, 0x0A, 0xD4, 0xD4, 0xD4, 0xD4};
unsigned char ModeReg[8] = {0x0B, 0x0B, 0x0B, 0x0B, 0xD6, 0xD6, 0xD6, 0xD6};
unsigned char ClearReg[8] = {0x0C, 0x0C, 0x0C, 0x0C, 0xD8, 0xD8, 0xD8, 0xD8};
unsigned char PagePort[8] = {0x87, 0x83, 0x81, 0x82, 0x8F, 0x8B, 0x89, 0x8A};
unsigned char AddrPort[8] = {0x00, 0x02, 0x04, 0x06, 0xC0, 0xC4, 0xC8, 0xCC};
unsigned char CountPort[8] = {0x01, 0x03, 0x05, 0x07, 0xC2, 0xC6, 0xCA, 0xCE};
void dma_xfer(unsigned char channel, unsigned long address, unsigned int length,
unsigned char read) {
unsigned char page = 0, mode = 0;
unsigned int offset = 0;
if (read)
mode = 0x48 + channel;
else
mode = 0x44 + channel;
page = address >> 16;
offset = address & 0xFFFF;
length--;
_dma_xfer(channel, page, offset, length, mode);
}
void _dma_xfer(unsigned char DMA_channel, unsigned char page,
unsigned int offset, unsigned int length, unsigned char mode) {
/* 我们不想别的事情来打扰 */
asm("cli");
/* 设置DMA通道以便我们可以正确传输数据这很简单只要我们用I/O操作告诉DMA控制器就行了
*/
/* 我们将使用这个通道DMA_channel*/
io_out8(MaskReg[DMA_channel], 0x04 | DMA_channel);
/* 我们先得解除DMA对这个通道的屏蔽不然用不了 */
io_out8(ClearReg[DMA_channel], 0x00);
/* 向DMA发送指定的模式 */
io_out8(ModeReg[DMA_channel], mode);
/* 发送偏移量地址先发送高八位再发送低八位因为一次性最多只能发送一个byte
*/
io_out8(AddrPort[DMA_channel], LOW_BYTE(offset));
io_out8(AddrPort[DMA_channel], HI_BYTE(offset));
/* 发送数据所在的物理页 */
io_out8(PagePort[DMA_channel], page);
/* 发送数据的长度 跟之前一样,先发送低八位,再发送高八位*/
io_out8(CountPort[DMA_channel], LOW_BYTE(length));
io_out8(CountPort[DMA_channel], HI_BYTE(length));
/* 现在我们该做的东西已经全部做完了所以启用DMA_channel */
io_out8(MaskReg[DMA_channel], DMA_channel);
/* 重新让CPU能够接收到中断 */
asm("sti");
}

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driver/floppy.c Normal file
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@ -0,0 +1,399 @@
#include "../include/floppy.h"
#include "../include/task.h"
#include "../include/printf.h"
#include "../include/vdisk.h"
#include "../include/io.h"
#include "../include/dma.h"
struct task_struct *floppy_use;
struct task_struct *waiter;
volatile int floppy_int_count = 0;
static volatile int done = 0;
static int dchange = 0;
static int motor = 0;
static int mtick = 0;
static volatile int tmout = 0;
static unsigned char status[7] = {0};
static unsigned char statsz = 0;
static unsigned char sr0 = 0;
static unsigned char fdc_track = 0xff;
static DrvGeom geometry = {DG144_HEADS, DG144_TRACKS, DG144_SPT};
unsigned long tbaddr = 0x80000L;
static void Read(char drive, unsigned char *buffer, unsigned int number,
unsigned int lba) {
floppy_use = get_current();
for (int i = 0; i < number; i += SECTORS_ONCE) {
int sectors = ((number - i) >= SECTORS_ONCE) ? SECTORS_ONCE : (number - i);
fdc_rw(lba + i, buffer + i * 512, 1, sectors);
}
floppy_use = NULL;
}
static void Write(char drive, unsigned char *buffer, unsigned int number,
unsigned int lba) {
floppy_use = get_current();
for (int i = 0; i < number; i += SECTORS_ONCE) {
int sectors = ((number - i) >= SECTORS_ONCE) ? SECTORS_ONCE : (number - i);
fdc_rw(lba + i, buffer + i * 512, 0, sectors);
}
floppy_use = NULL;
}
void init_floppy() {
sendbyte(CMD_VERSION); //发送命令(获取软盘版本),如果收到回应,说明软盘正在工作
if (getbyte() == -1) {
printf("floppy: no floppy drive found\n");
printf("No fount FDC\n");
return;
}
register_interrupt_handler(0x26,flint);
printf("[\035floppy\036]: FLOPPY DISK:RESETING\n");
reset(); //重置软盘驱动器
printf("[\035floppy\036]:FLOPPY DISK:reset over!\n");
sendbyte(CMD_VERSION); //获取软盘版本
printf("[\035floppy\036]:FDC_VER:0x%x\n", getbyte()); //并且输出到屏幕上
vdisk vd;
strcpy(vd.DriveName, "floppy");
vd.Read = Read;
vd.Write = Write;
vd.size = 1474560;
vd.flag = 1;
register_vdisk(vd);
}
int fdc_rw_ths(int track,
int head,
int sector,
unsigned char* blockbuff,
int read,
unsigned long nosectors) {
// 跟上面的大同小异
int tries, copycount = 0;
unsigned char* p_tbaddr = (char*)0x80000;
unsigned char* p_blockbuff = blockbuff;
motoron();
if (!read && blockbuff) {
for (copycount = 0; copycount < (nosectors * 512); copycount++) {
*p_tbaddr = *p_blockbuff;
p_blockbuff++;
p_tbaddr++;
}
}
for (tries = 0; tries < 3; tries++) {
if (io_in8(FDC_DIR) & 0x80) {
dchange = 1;
seek(1);
recalibrate();
motoroff();
return fdc_rw_ths(track, head, sector, blockbuff, read, nosectors);
}
if (!seek(track)) {
motoroff();
return 0;
}
io_out8(FDC_CCR, 0);
if (read) {
dma_xfer(2, tbaddr, nosectors * 512, 0);
sendbyte(CMD_READ);
} else {
dma_xfer(2, tbaddr, nosectors * 512, 1);
sendbyte(CMD_WRITE);
}
sendbyte(head << 2);
sendbyte(track);
sendbyte(head);
sendbyte(sector);
sendbyte(2);
sendbyte(geometry.spt);
if (geometry.spt == DG144_SPT)
sendbyte(DG144_GAP3RW);
else
sendbyte(DG168_GAP3RW);
sendbyte(0xff);
wait_floppy_interrupt();
if ((status[0] & 0xc0) == 0)
break;
recalibrate();
}
motoroff();
if (read && blockbuff) {
p_blockbuff = blockbuff;
p_tbaddr = (char*)0x80000;
for (copycount = 0; copycount < (nosectors * 512); copycount++) {
*p_blockbuff = *p_tbaddr;
p_blockbuff++;
p_tbaddr++;
}
}
return (tries != 3);
}
int write_floppy_for_ths(int track,
int head,
int sec,
unsigned char* blockbuff,
unsigned long nosec) {
int res = fdc_rw_ths(track, head, sec, blockbuff, 0, nosec);
}
void flint(registers_t *reg) {
floppy_int_count =
1; // 设置中断计数器为1代表中断已经发生或者是系统已经收到了中断
io_out8(0x20, 0x20); // 发送EOI信号告诉PIC我们已经处理完了这个中断
//task_run(waiter);
// task_next();
}
void sendbyte(int byte) {
volatile int msr;
int tmo; // 超时计数器
for (tmo = 0; tmo < 128; tmo++) // 这里我们只给128次尝试的机会
{
msr = io_in8(FDC_MSR);
if ((msr & 0xc0) ==
0x80) {
io_out8(FDC_DATA, byte);
return;
}
io_in8(0x80); /* 等待 */
}
}
int getbyte() {
int msr; // 软盘驱动器状态寄存器
int tmo; // 软盘驱动器状态寄存器的超时计数器
for (tmo = 0; tmo < 128; tmo++){
msr = io_in8(FDC_MSR);
if ((msr & 0xd0) == 0xd0){
return io_in8(FDC_DATA);
}
io_in8(0x80); /* 延时 */
}
return -1; /* 没读取到 */
}
void set_waiter(struct task_struct *t) {
while(waiter); // wait
waiter = t;
}
void reset(void) {
set_waiter(get_current());
io_out8(FDC_DOR, 0);
mtick = 0;
motor = 0;
io_out8(FDC_DRS, 0);
io_out8(FDC_DOR, 0x0c);
wait_floppy_interrupt();
sendbyte(CMD_SPECIFY);
sendbyte(0xdf); /* SRT = 3ms, HUT = 240ms */
sendbyte(0x02); /* HLT = 16ms, ND = 0 */
recalibrate();
dchange =
0; //清除“磁盘更改”状态将dchange设置为false让别的函数知道磁盘更改状态已经被清楚了
}
void motoron(void) {
if (!motor) {
mtick = -1; /* 停止电机计时 */
io_out8(FDC_DOR, 0x1c);
for (int i = 0; i < 80000; i++)
;
motor = 1; //设置电机状态为true
}
}
/* 关闭电机 */
void motoroff(void) {
if (motor) {
mtick = 13500; /* 重新初始化电机计时器 */
}
}
/* 重新校准驱动器 */
void recalibrate() {
set_waiter(get_current());
/* 先启用电机 */
motoron();
/* 然后重新校准电机 */
sendbyte(CMD_RECAL);
sendbyte(0);
/* 等待软盘中断(也就是电机校准成功) */
wait_floppy_interrupt();
/* 关闭电机 */
motoroff();
}
void wait_floppy_interrupt() {
io_sti();
while(!floppy_int_count);
statsz = 0; // 清空状态
while ((statsz < 7) &&(io_in8(FDC_MSR) &(1<< 4))) {
status[statsz++] = getbyte(); // 获取数据
}
/* 获取中断状态 */
sendbyte(CMD_SENSEI);
sr0 = getbyte();
fdc_track = getbyte();
floppy_int_count = 0;
floppy_use = NULL;
return;
}
int seek(int track) {
if (fdc_track == track) /* 目前的磁道和需要seek的磁道一样吗 */
{
// 一样的话就不用seek了
return 1;
}
set_waiter(get_current());
/* 向软盘控制器发送SEEK命令 */
sendbyte(CMD_SEEK);
sendbyte(0);
sendbyte(track); /* 要seek到的磁道号 */
/* 发送完之后,软盘理应会送来一个中断 */
wait_floppy_interrupt(); // 所以我们需要等待软盘中断
for (int i = 0; i < 500; i++)
;
/* 检查一下成功了没有 */
if ((sr0 != 0x20) || (fdc_track != track))
return 0; // 没成功
else
return 1; // 成功了
}
void block2hts(int block, int* track, int* head, int* sector) {
*track = (block / 18) / 2;
*head = (block / 18) % 2;
*sector = block % 18 + 1;
}
void hts2block(int track, int head, int sector, int* block) {
*block = track * 18 * 2 + head * 18 + sector;
}
int fdc_rw(int block,
unsigned char* blockbuff,
int read,
unsigned long nosectors) {
set_waiter(get_current());
int head, track, sector, tries, copycount = 0;
unsigned char* p_tbaddr =
(char*)0x80000; // 512byte
// 缓冲区大家可以放心我们再page.c已经把这里设置为占用了
unsigned char* p_blockbuff = blockbuff; // r/w的数据缓冲区
/* 获取block对应的ths */
block2hts(block, &track, &head, &sector);
motoron();
if (!read && blockbuff) {
/* 从数据缓冲区复制数据到轨道缓冲区 */
for (copycount = 0; copycount < (nosectors * 512); copycount++) {
*p_tbaddr = *p_blockbuff;
p_blockbuff++;
p_tbaddr++;
}
}
for (tries = 0; tries < 3; tries++) {
/* 检查 */
if (io_in8(FDC_DIR) & 0x80) {
waiter = NULL;
dchange = 1;
seek(1); /* 清除磁盘更改 */
recalibrate();
motoroff();
return fdc_rw(block, blockbuff, read, nosectors);
}
waiter = NULL;
/* seek到track的位置*/
if (!seek(track)) {
motoroff();
waiter = NULL;
return 0;
}
set_waiter(get_current());
/* 传输速度500K/s */
io_out8(FDC_CCR, 0);
/* 发送命令 */
if (read) {
dma_xfer(2, tbaddr, nosectors * 512, 0);
sendbyte(CMD_READ);
} else {
dma_xfer(2, tbaddr, nosectors * 512, 1);
sendbyte(CMD_WRITE);
}
sendbyte(head << 2);
sendbyte(track);
sendbyte(head);
sendbyte(sector);
sendbyte(2); /* 每个扇区是512字节 */
sendbyte(geometry.spt);
if (geometry.spt == DG144_SPT)
sendbyte(DG144_GAP3RW);
else
sendbyte(DG168_GAP3RW);
sendbyte(0xff);
/* 等待中断...... */
/* 读写数据不需要中断状态 */
wait_floppy_interrupt();
if ((status[0] & 0xc0) == 0)
break; /* worked! outta here! */
waiter = NULL;
recalibrate(); /* az报错了再试一遍 */
}
/* 关闭电动机 */
motoroff();
if (read && blockbuff) {
/* 复制数据 */
p_blockbuff = blockbuff;
p_tbaddr = (char*)0x80000;
for (copycount = 0; copycount < (nosectors * 512); copycount++) {
*p_blockbuff = *p_tbaddr;
p_blockbuff++;
p_tbaddr++;
}
}
return (tries != 3);
}

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fs/fat.c Normal file

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fs/file.c Normal file
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#include "../include/file.h"
#include "../include/memory.h"
#include "../include/common.h"
int fseek(FILE *fp, int offset, int whence) {
if (whence == 0) {
fp->p = offset;
} else if (whence == 1) {
fp->p += offset;
} else if (whence == 2) {
fp->p = fp->fileSize + offset;
} else {
return -1;
}
return 0;
}
long ftell(FILE *stream) { return stream->p; }
FILE *fopen(char *filename, char *mode) {
unsigned int flag = 0;
FILE *fp = (FILE *)kmalloc(sizeof(FILE));
while (*mode != '\0') {
switch (*mode) {
case 'a':
flag |= APPEND;
break;
case 'b':
break;
case 'r':
flag |= READ;
break;
case 'w':
flag |= WRITE;
break;
case '+':
flag |= PLUS;
break;
default:
break;
}
mode++;
}
if (vfs_filesize(filename) == -1) {
kfree(fp);
return NULL; // 找不到
} else if (flag & WRITE) {
char buffe2[100];
// vfs_delfile(filename);
// vfs_createfile(filename);
}
if (flag & WRITE) {
fp->fileSize = 0;
} else {
fp->fileSize = vfs_filesize(filename);
}
fp->bufferSize = 0;
if (flag & READ || flag & PLUS || flag & APPEND) {
fp->bufferSize = vfs_filesize(filename);
// printk("[Set]BufferSize=%d\n",fp->bufferSize);
}
if (flag & WRITE || flag & PLUS || flag & APPEND) {
fp->bufferSize += 100;
}
if (fp->bufferSize == 0) {
fp->bufferSize = 1;
}
fp->buffer = kmalloc(fp->bufferSize);
if (flag & PLUS || flag & APPEND || flag & READ) {
// printk("ReadFile........\n");
vfs_readfile(filename, fp->buffer);
}
fp->p = 0;
if (flag & APPEND) {
fp->p = fp->fileSize;
}
fp->name = kmalloc(strlen(filename) + 1);
strcpy(fp->name, filename);
fp->mode = flag;
// printk("[fopen]BufferSize=%d\n",fp->bufferSize);
return fp;
}
int fgetc(FILE *stream) {
if (CANREAD(stream->mode)) {
if (stream->p >= stream->fileSize) {
return EOF;
} else {
return stream->buffer[stream->p++];
}
} else {
return EOF;
}
}
int fputc(int ch, FILE *stream) {
if (CANWRITE(stream->mode)) {
// printk("Current Buffer=%s\n",stream->buffer);
if (stream->p >= stream->bufferSize) {
// printk("Realloc....(%d,%d)\n",stream->p,stream->bufferSize);
stream->buffer = realloc(stream->buffer, stream->bufferSize + 100);
stream->bufferSize += 100;
}
if (stream->p >= stream->fileSize) {
stream->fileSize++;
}
// printk("Current Buffer=%s(A)\n",stream->buffer);
stream->buffer[stream->p++] = ch;
// printk("Current Buffer=%s(B)\n",stream->buffer);
return ch;
}
return EOF;
}
unsigned int fwrite(const void *ptr, unsigned int size, unsigned int nmemb,
FILE *stream) {
if (CANWRITE(stream->mode)) {
unsigned char *c_ptr = (unsigned char *)ptr;
for (int i = 0; i < size * nmemb; i++) {
fputc(c_ptr[i], stream);
}
return nmemb;
} else {
return 0;
}
}
unsigned int fread(void *buffer, unsigned int size, unsigned int count,
FILE *stream) {
if (CANREAD(stream->mode)) {
unsigned char *c_ptr = (unsigned char *)buffer;
for (int i = 0; i < size * count; i++) {
unsigned int ch = fgetc(stream);
if (ch == EOF) {
return i;
} else {
c_ptr[i] = ch;
}
}
return count;
} else {
return 0;
}
}
int fclose(FILE *fp) {
if (fp == NULL) {
return EOF;
}
if (CANWRITE(fp->mode)) {
// printk("Save file.....(%s) Size =
//%d\n",fp->buffer,fp->fileSize);
// Edit_File(fp->name, fp->buffer, fp->fileSize, 0);
vfs_writefile(fp->name, fp->buffer, fp->fileSize);
}
kfree(fp->buffer);
kfree(fp->name);
kfree(fp);
return 0;
}
char *fgets(char *str, int n, FILE *stream) {
if (CANREAD(stream->mode)) {
for (int i = 0; i < n; i++) {
unsigned int ch = fgetc(stream);
if (ch == EOF) {
if (i == 0) {
return NULL;
} else {
break;
}
}
if (ch == '\n') {
break;
}
str[i] = ch;
}
return str;
}
return NULL;
}
int fputs(const char *str, FILE *stream) {
if (CANWRITE(stream->mode)) {
for (int i = 0; i < strlen(str); i++) {
fputc(str[i], stream);
}
return 0;
}
return EOF;
}
int fprintf(FILE *stream, const char *format, ...) {
if (CANWRITE(stream->mode)) {
int len;
va_list ap;
va_start(ap, format);
char *buf = kmalloc(1024);
len = vsprintf(buf, format, ap);
fputs(buf, stream);
kfree(buf);
va_end(ap);
return len;
} else {
// printk("CAN NOT WRITE\n");
return EOF;
}
}
int feof(FILE *stream) {
if (stream->p >= stream->fileSize) {
return EOF;
}
return 0;
}
int ferror(FILE *stream) { return 0; }
int fsz(char *filename) { return vfs_filesize(filename); }
void EDIT_FILE(char *name, char *dest, int length, int offset) {
if (vfs_filesize(name) == -1) {
//没有找到文件,创建一个,然后再编辑
vfs_createfile(name);
EDIT_FILE(name, dest, length, offset);
return;
}
vfs_writefile(name, dest, length);
return;
}
int Copy(char *path, char *path1) {
unsigned char *path1_file_buffer;
if (fsz(path) == -1) {
// printk("file not found\n");
return -1;
}
// printk("-----------------------------\n");
vfs_createfile(path1);
path1_file_buffer = kmalloc(fsz(path) + 1);
int sz = fsz(path);
vfs_readfile(path, path1_file_buffer);
vfs_writefile(path1, path1_file_buffer, sz);
kfree(path1_file_buffer);
return 0;
}

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/*
* PlantsOS FileSystem Abstract Interface
* Copyright by min0911
*/
#include "../include/printf.h"
#include "../include/vfs.h"
#include "../include/common.h"
#include "../include/memory.h"
vfs_t vfsstl[26];
vfs_t vfsMount_Stl[26];
vfs_t *vfs_now;
static vfs_t *drive2fs(uint8_t drive) {
for (int i = 0; i < 26; i++) {
if (vfsMount_Stl[i].drive == toupper(drive) && vfsMount_Stl[i].flag == 1) {
return &vfsMount_Stl[i];
}
}
return NULL;
}
static vfs_t *ParsePath(char *result) {
vfs_t *vfs_result = vfs_now;
if (result[1] == ':') {
if (!(vfs_result = drive2fs(result[0]))) {
printf("Mount Drive is not found!\n");
printf("Parse Error.\n");
return NULL;
}
if (result) {
delete_char(result, 0);
delete_char(result, 0);
}
}
if (result) {
for (int i = 0; i < strlen(result); i++) {
if (result[i] == '\\') {
result[i] = '/';
}
}
}
return vfs_result;
}
static vfs_t *findSeat(vfs_t *vstl) {
for (int i = 0; i < 26; i++) {
if (vstl[i].flag == 0) {
return &vstl[i];
}
}
return NULL;
}
static vfs_t *check_disk_fs(uint8_t disk_number) {
for (int i = 0; i < 26; i++) {
if (vfsstl[i].flag == 1) {
if (vfsstl[i].Check(disk_number)) {
return &vfsstl[i];
}
}
}
return NULL;
}
static void insert_str1(char *str, char *insert_str1, int pos) {
for (int i = 0; i < strlen(insert_str1); i++) {
insert_char(str, pos + i, insert_str1[i]);
}
}
bool vfs_mount_disk(uint8_t disk_number, uint8_t drive) {
printf("Mount DISK ---- %02x\n", disk_number);
for (int i = 0; i < 26; i++) {
if (vfsMount_Stl[i].flag == 1 &&
(vfsMount_Stl[i].drive == drive ||
vfsMount_Stl[i].disk_number == disk_number)) {
return false;
}
}
vfs_t *seat = findSeat(vfsMount_Stl);
if (!seat) {
printf("can not find a seat of vfsMount_Stl(it's full)\n");
return false;
}
vfs_t *fs = check_disk_fs(disk_number);
if (!fs) {
printf("unknow file system.\n");
return false;
}
*seat = *fs;
seat->InitFs(seat, disk_number);
seat->drive = drive;
seat->disk_number = disk_number;
seat->flag = 1;
return true;
}
bool vfs_unmount_disk(uint8_t drive) {
printf("Unmount disk ---- %c\n", drive);
for (int i = 0; i < 26; i++) {
if (vfsMount_Stl[i].drive == drive && vfsMount_Stl[i].flag == 1) {
vfsMount_Stl[i].DeleteFs(&vfsMount_Stl[i]);
vfsMount_Stl[i].flag = 0;
return true;
}
}
printf("Not found the drive.\n");
return false;
}
bool vfs_readfile(char *path, char *buffer) {
char *new_path = kmalloc(strlen(path) + 1);
strcpy(new_path, path);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->ReadFile(vfs, new_path, buffer);
kfree(new_path);
return result;
}
bool vfs_writefile(char *path, char *buffer, int size) {
char *new_path = kmalloc(strlen(path) + 1);
strcpy(new_path, path);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->WriteFile(vfs, new_path, buffer, size);
kfree(new_path);
return result;
}
uint32_t vfs_filesize(char *filename) {
char *new_path = kmalloc(strlen(filename) + 1);
strcpy(new_path, filename);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return -1;
}
int result = vfs->FileSize(vfs, new_path); // 没找到文件统一返回-1
kfree(new_path);
return result;
}
List *vfs_listfile(char *dictpath) { // dictpath == "" 则表示当前路径
if (strcmp(dictpath, "") == 0) {
return vfs_now->ListFile(vfs_now, dictpath);
} else {
char *new_path = kmalloc(strlen(dictpath) + 1);
strcpy(new_path, dictpath);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return NULL;
}
List *result = vfs->ListFile(vfs, new_path);
kfree(new_path);
return result;
}
}
bool vfs_delfile(char *filename) {
char *new_path = kmalloc(strlen(filename) + 1);
strcpy(new_path, filename);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->DelFile(vfs, new_path);
kfree(new_path);
return result;
}
bool vfs_deldir(char *dictname) {
char *new_path = kmalloc(strlen(dictname) + 1);
strcpy(new_path, dictname);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->DelDict(vfs, new_path);
kfree(new_path);
return result;
}
bool vfs_createfile(char *filename) {
char *new_path = kmalloc(strlen(filename) + 1);
strcpy(new_path, filename);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->CreateFile(vfs, new_path);
kfree(new_path);
return result;
}
bool vfs_createdict(char *filename) {
char *new_path = kmalloc(strlen(filename) + 1);
strcpy(new_path, filename);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->CreateDict(vfs, new_path);
kfree(new_path);
return result;
}
bool vfs_renamefile(char *filename, char *filename_of_new) {
char *new_path = kmalloc(strlen(filename) + 1);
strcpy(new_path, filename);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->RenameFile(vfs, new_path, filename_of_new);
kfree(new_path);
return result;
}
bool vfs_attrib(char *filename, ftype type) {
char *new_path = kmalloc(strlen(filename) + 1);
strcpy(new_path, filename);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
int result = vfs->Attrib(vfs, new_path, type);
kfree(new_path);
return result;
}
bool vfs_format(uint8_t disk_number, char *FSName) {
for (int i = 0; i < 255; i++) {
if (strcmp(vfsstl[i].FSName, FSName) == 0 && vfsstl[i].flag == 1) {
return vfsstl[i].Format(disk_number);
}
}
return false;
}
vfs_file *vfs_fileinfo(char *filename) {
char *new_path = kmalloc(strlen(filename) + 1);
strcpy(new_path, filename);
vfs_t *vfs = ParsePath(new_path);
if (vfs == NULL) {
kfree(new_path);
return false;
}
vfs_file *result = vfs->FileInfo(vfs, new_path);
kfree(new_path);
return result;
}
bool vfs_change_disk(uint8_t drive) {
if (vfs_now != NULL) {
while (FindForCount(1, vfs_now->path) != NULL) {
kfree(FindForCount(vfs_now->path->ctl->all, vfs_now->path)->val);
DeleteVal(vfs_now->path->ctl->all, vfs_now->path);
}
kfree(vfs_now->cache);
DeleteList(vfs_now->path);
kfree(vfs_now);
}
vfs_t *f;
if (!(f = drive2fs(drive))) {
return false; // 没有mount
}
vfs_now = kmalloc(sizeof(vfs_t));
memcpy(vfs_now, f, sizeof(vfs_t));
f->CopyCache(vfs_now, f);
vfs_now->path = NewList();
vfs_now->cd(vfs_now, "/");
return true;
}
void init_vfs() {
for (int i = 0; i < 26; i++) {
vfsstl[i].flag = 0;
vfsstl[i].disk_number = 0;
vfsstl[i].drive = 0;
vfsMount_Stl[i].flag = 0;
vfsMount_Stl[i].disk_number = 0;
vfsMount_Stl[i].drive = 0;
// PDEBUG("Set vfsstl[%d] & vfsMount_Stl[%d] OK.", i, i);
}
vfs_now = NULL;
}
bool vfs_register_fs(vfs_t vfs) {
printf("Register file system: %s\n", vfs.FSName);
vfs_t *seat;
seat = findSeat(vfsstl);
if (!seat) {
printf("can not find a seat of vfsstl(it's full)\n");
return false;
}
*seat = vfs;
return true;
}

View File

@ -30,4 +30,13 @@ uint8_t read_cmos(uint8_t p);
char *get_date_time(); char *get_date_time();
void print_cpu_id(); void print_cpu_id();
uint32_t get_hour();
uint32_t get_min();
uint32_t get_sec();
uint32_t get_day_of_month();
uint32_t get_day_of_week();
uint32_t get_mon();
uint32_t get_year();
int is_leap_year(int year);
#endif //CRASHPOWEROS_CMOS_H #endif //CRASHPOWEROS_CMOS_H

View File

@ -7,6 +7,9 @@
#define LONG_MAX 9223372036854775807L #define LONG_MAX 9223372036854775807L
#define LONG_MIN -9223372036854775808L #define LONG_MIN -9223372036854775808L
#define UINT32_MAX 0xffffffff
#define INT32_MAX 0x7fffffff
#define swap32(x) \ #define swap32(x) \
((((x) & 0xff000000) >> 24) | (((x) & 0x00ff0000) >> 8) | \ ((((x) & 0xff000000) >> 24) | (((x) & 0x00ff0000) >> 8) | \
(((x) & 0x0000ff00) << 8) | (((x) & 0x000000ff) << 24)) (((x) & 0x0000ff00) << 8) | (((x) & 0x000000ff) << 24))
@ -17,7 +20,16 @@
#include <stdarg.h> #include <stdarg.h>
typedef int bool; typedef int bool;
#define true 1
#define false 0
#define EOF -1
unsigned int rand(void);
void srand(unsigned long seed);
void insert_char(char* str, int pos, char ch);
void delete_char(char* str, int pos);
void strtoupper(char* str);
int strncmp(const char* s1, const char* s2, size_t n);
void assert(int b,char* message); void assert(int b,char* message);
size_t strlen(const char* str); size_t strlen(const char* str);
int strcmp(const char *s1, const char *s2); int strcmp(const char *s1, const char *s2);

12
include/dma.h Normal file
View File

@ -0,0 +1,12 @@
#ifndef CRASHPOWEROS_DMA_H
#define CRASHPOWEROS_DMA_H
#define LOW_BYTE(x) (x & 0x00FF)
#define HI_BYTE(x) ((x & 0xFF00) >> 8)
void _dma_xfer(unsigned char DMA_channel, unsigned char page,
unsigned int offset, unsigned int length, unsigned char mode);
void dma_xfer(unsigned char channel, unsigned long address, unsigned int length,
unsigned char read);
#endif

View File

@ -1,7 +1,47 @@
#ifndef CRASHPOWEROS_FAT_H #ifndef CRASHPOWEROS_FAT_H
#define CRASHPOWEROS_FAT_H #define CRASHPOWEROS_FAT_H
#define BS_jmpBoot 0
#define BS_OEMName 3
#define BPB_BytsPerSec 11
#define BPB_SecPerClus 13
#define BPB_RsvdSecCnt 14
#define BPB_NumFATs 16
#define BPB_RootEntCnt 17
#define BPB_TotSec16 19
#define BPB_Media 21
#define BPB_FATSz16 22
#define BPB_SecPerTrk 24
#define BPB_NumHeads 26
#define BPB_HiddSec 28
#define BPB_TotSec32 32
#define BPB_FATSz32 36
#define BPB_ExtFlags 40
#define BPB_FSVer 42
#define BPB_RootClus 44
#define BPB_FSInfo 48
#define BPB_BkBootSec 50
#define BPB_Reserved 52
#define BPB_Fat32ExtByts 28
#define BS_DrvNum 36
#define BS_Reserved1 37
#define BS_BootSig 38
#define BS_VolD 39
#define BS_VolLab 43
#define BS_FileSysType 54
#define EOF -1
#define SEEK_SET 0
#define SEEK_CUR 1
#define SEEK_END 2
#define get_dm(vfs) ((fat_cache *)(vfs->cache))->dm
#define get_now_dir(vfs) ((fat_cache *)(vfs->cache))->dir
#define get_clustno(high, low) (high << 16) | (low & 0xffff)
#define clustno_end(type) 0xfffffff & ((((1 << (type - 1)) - 1) << 1) + 1)
#define rmfarptr2ptr(x) ((x).seg * 0x10 + (x).offset)
#include "../include/common.h" #include "../include/common.h"
#include "vfs.h"
struct FAT_CACHE { struct FAT_CACHE {
unsigned int ADR_DISKIMG; unsigned int ADR_DISKIMG;
@ -21,16 +61,12 @@ struct FAT_CACHE {
unsigned char *FatClustnoFlags; unsigned char *FatClustnoFlags;
int type; int type;
}; };
typedef struct { typedef struct {
struct FAT_CACHE dm; struct FAT_CACHE dm;
struct FAT_FILEINFO *dir; struct FAT_FILEINFO *dir;
} fat_cache; } fat_cache;
#define get_dm(vfs) ((fat_cache *)(vfs->cache))->dm
#define get_now_dir(vfs) ((fat_cache *)(vfs->cache))->dir
#define get_clustno(high, low) (high << 16) | (low & 0xffff)
#define clustno_end(type) 0xfffffff & ((((1 << (type - 1)) - 1) << 1) + 1)
struct FAT_FILEINFO { struct FAT_FILEINFO {
unsigned char name[8], ext[3], type; unsigned char name[8], ext[3], type;
char reserve; char reserve;
@ -40,54 +76,40 @@ struct FAT_FILEINFO {
unsigned int size; unsigned int size;
}; };
typedef struct FILE {
unsigned int mode;
unsigned int fileSize;
unsigned char *buffer;
unsigned int bufferSize;
unsigned int p;
char *name;
} FILE;
typedef enum { FLE, DIR, RDO, HID, SYS } ftype;
typedef struct {
char name[255];
ftype type;
unsigned int size;
unsigned short year, month, day;
unsigned short hour, minute;
} vfs_file;
typedef struct vfs_t {
struct List *path;
void *cache;
char FSName[255];
int disk_number;
uint8_t drive; // 大写(必须)
vfs_file *(*FileInfo)(struct vfs_t *vfs, char *filename);
struct List *(*ListFile)(struct vfs_t *vfs, char *dictpath);
bool (*ReadFile)(struct vfs_t *vfs, char *path, char *buffer);
bool (*WriteFile)(struct vfs_t *vfs, char *path, char *buffer, int size);
bool (*DelFile)(struct vfs_t *vfs, char *path);
bool (*DelDict)(struct vfs_t *vfs, char *path);
bool (*CreateFile)(struct vfs_t *vfs, char *filename);
bool (*CreateDict)(struct vfs_t *vfs, char *filename);
bool (*RenameFile)(struct vfs_t *vfs, char *filename, char *filename_of_new);
bool (*Attrib)(struct vfs_t *vfs, char *filename, ftype type);
bool (*Format)(uint8_t disk_number);
void (*InitFs)(struct vfs_t *vfs, uint8_t disk_number);
void (*DeleteFs)(struct vfs_t *vfs);
bool (*Check)(uint8_t disk_number);
bool (*cd)(struct vfs_t *vfs, char *dictName);
int (*FileSize)(struct vfs_t *vfs, char *filename);
void (*CopyCache)(struct vfs_t *dest, struct vfs_t *src);
int flag;
} vfs_t;
/*
void read_fat(unsigned char *img, int *fat, unsigned char *ff, int max,int type); void read_fat(unsigned char *img, int *fat, unsigned char *ff, int max,int type);
int get_directory_max(struct FAT_FILEINFO *directory, vfs_t *vfs); int get_directory_max(struct FAT_FILEINFO *directory, vfs_t *vfs);
void file_loadfile(int clustno, int size, char *buf, int *fat, vfs_t *vfs); void file_loadfile(int clustno, int size, char *buf, int *fat, vfs_t *vfs);
void file_savefile(int clustno, int size, char *buf, int *fat,
unsigned char *ff, vfs_t *vfs);
void file_saveinfo(struct FAT_FILEINFO *directory, vfs_t *vfs);
void file_savefat(int *fat, int clustno, int length, vfs_t *vfs); void file_savefat(int *fat, int clustno, int length, vfs_t *vfs);
*/ int mkfile(char *name, vfs_t *vfs);
int del(char *cmdline, vfs_t *vfs);
int deldir(char *path, vfs_t *vfs);
int format(char drive);
int attrib(char *filename, ftype type, struct vfs_t *vfs);
void Register_fat_fileSys();
struct FAT_FILEINFO *Get_dictaddr(char *path1, vfs_t *vfs);
void Fat_CopyCache(struct vfs_t *dest, struct vfs_t *src);
bool Fat_cd(struct vfs_t *vfs, char *dictName);
bool Fat_ReadFile(struct vfs_t *vfs, char *path, char *buffer);
bool Fat_WriteFile(struct vfs_t *vfs, char *path, char *buffer, int size);
List *Fat_ListFile(struct vfs_t *vfs, char *dictpath);
bool Fat_RenameFile(struct vfs_t *vfs, char *filename, char *filename_of_new);
bool Fat_CreateFile(struct vfs_t *vfs, char *filename);
bool Fat_DelFile(struct vfs_t *vfs, char *path);
bool Fat_DelDict(struct vfs_t *vfs, char *path);
void Fat_DeleteFs(struct vfs_t *vfs);
bool Fat_Check(uint8_t disk_number);
int Fat_FileSize(struct vfs_t *vfs, char *filename);
bool Fat_Format(uint8_t disk_number);
bool Fat_CreateDict(struct vfs_t *vfs, char *filename);
bool Fat_Attrib(struct vfs_t *vfs, char *filename, ftype type);
vfs_file *Fat_FileInfo(struct vfs_t *vfs, char *filename);
void fat_InitFS(struct vfs_t *vfs, uint8_t disk_number);
int get_directory_max(struct FAT_FILEINFO *directory, vfs_t *vfs);
int mkdir(char *dictname, int last_clust, vfs_t *vfs);
int rename(char *src_name, char *dst_name, vfs_t *vfs);
int changedict(char *dictname, vfs_t *vfs);
#endif #endif

33
include/file.h Normal file
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@ -0,0 +1,33 @@
#ifndef CRASHPOWEROS_FILE_H
#define CRASHPOWEROS_FILE_H
#define READ 0x2
#define WRITE 0x4
#define APPEND 0x8
#define BIN 0x0
#define PLUS 0x10
#define CANREAD(flag) ((flag)&READ || (flag)&PLUS)
#define CANWRITE(flag) ((flag)&WRITE || (flag)&PLUS || (flag)&APPEND)
#include "../include/vfs.h"
int fseek(FILE *fp, int offset, int whence);
long ftell(FILE *stream);
FILE *fopen(char *filename, char *mode);
int fgetc(FILE *stream);
int fputc(int ch, FILE *stream);
unsigned int fwrite(const void *ptr, unsigned int size, unsigned int nmemb,
FILE *stream);
unsigned int fread(void *buffer, unsigned int size, unsigned int count,
FILE *stream);
int fclose(FILE *fp);
char *fgets(char *str, int n, FILE *stream);
int fputs(const char *str, FILE *stream);
int fprintf(FILE *stream, const char *format, ...);
int feof(FILE *stream);
int ferror(FILE *stream);
int fsz(char *filename);
void EDIT_FILE(char *name, char *dest, int length, int offset);
int Copy(char *path, char *path1);
#endif

71
include/floppy.h Normal file
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@ -0,0 +1,71 @@
#ifndef CRASHPOWEROS_FLOPPY_H
#define CRASHPOWEROS_FLOPPY_H
#define DG144_HEADS 2 /* 每个磁道中的磁头数 (1.44M) */
#define DG144_TRACKS 80 /* 每个驱动器的磁道数 (1.44M) */
#define DG144_SPT 18 /* 每个磁头中的的扇区数 (1.44M) */
#define DG144_GAP3FMT 0x54 /* GAP3格式化 (1.44M) */
#define DG144_GAP3RW 0x1b /* GAP3读/写) (1.44M) */
#define DG168_HEADS 2 /* 每个磁道中的磁头数 (1.68M) */
#define DG168_TRACKS 80 /* 每个驱动器的磁道数 (1.68M) */
#define DG168_SPT 21 /* 每个磁头中的的扇区数 (1.68M) */
#define DG168_GAP3FMT 0x0c /* GAP3格式化 (1.68M) */
#define DG168_GAP3RW 0x1c /* GAP3读/写) (1.68M) */
/* i/o端口定义 */
#define FDC_DOR (0x3f2) /* 数字输出寄存器 */
#define FDC_MSR (0x3f4) /* 主要状态寄存器(输入) */
#define FDC_DRS (0x3f4) /* DRS寄存器 */
#define FDC_DATA (0x3f5) /* 数据寄存器 */
#define FDC_DIR (0x3f7) /* 数字输入寄存器(输入) */
#define FDC_CCR (0x3f7) /* CCR寄存器 */
/* 软盘命令 */
#define CMD_SPECIFY (0x03) /* 指定驱动器计时 */
#define CMD_WRITE (0xc5) /* 写(写入数据的最小单位是扇区) */
#define CMD_READ (0xe6) /* 读(读取扇区的最小单位是扇区) */
#define CMD_RECAL (0x07) /* 重新校准软盘 */
#define CMD_SENSEI (0x08) /* 中断状态 */
#define CMD_FORMAT (0x4d) /* 格式化磁道 */
#define CMD_SEEK (0x0f) /* 寻找磁道 */
#define CMD_VERSION (0x10) /* 获取软盘驱动器的版本 */
#define SECTORS_ONCE 4
#include "isr.h"
typedef struct DrvGeom {
unsigned char heads;
unsigned char tracks;
unsigned char spt; /* 每轨扇区数 */
} DrvGeom;
int getbyte();
void sendbyte(int byte);
void motoron(void);
void motoroff(void);
void recalibrate(void);
void init_floppy();
void hts2block(int track, int head, int sector, int* block);
void block2hts(int block, int* track, int* head, int* sector);
int seek(int track);
void wait_floppy_interrupt();
void reset(void);
int fdc_rw(int block,
unsigned char* blockbuff,
int read,
unsigned long nosectors);
void flint(registers_t *reg);
int write_floppy_for_ths(int track,
int head,
int sec,
unsigned char* blockbuff,
unsigned long nosec);
int fdc_rw_ths(int track,
int head,
int sector,
unsigned char* blockbuff,
int read,
unsigned long nosectors);
#endif

View File

@ -20,5 +20,10 @@ typedef struct List List;
struct List* FindForCount(size_t count, struct List* Obj); struct List* FindForCount(size_t count, struct List* Obj);
int GetLastCount(struct List* Obj); int GetLastCount(struct List* Obj);
void DeleteList(struct List* Obj);
struct List* NewList();
void Change(size_t count, struct List* Obj, uintptr_t val);
void DeleteVal(size_t count, struct List* Obj);
void AddVal(uintptr_t val, struct List* Obj);
#endif #endif

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@ -85,4 +85,6 @@ void init_page();
void memclean(char *s, int len); void memclean(char *s, int len);
void *realloc(void *ptr, uint32_t size);
#endif //CRASHPOWEROS_MEMORY_H #endif //CRASHPOWEROS_MEMORY_H

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@ -1,10 +1,34 @@
#ifndef CRASHPOWEROS_TIMER_H #ifndef CRASHPOWEROS_TIMER_H
#define CRASHPOWEROS_TIMER_H #define CRASHPOWEROS_TIMER_H
#define MAX_TIMER 500
#define TIMER_FLAGS_ALLOC 1 /* 已配置状态 */
#define TIMER_FLAGS_USING 2 /* 定时器运行中 */
#include <stdint.h> #include <stdint.h>
#include "task.h"
struct TIMER {
struct TIMER *next;
unsigned int timeout, flags;
struct FIFO8 *fifo;
unsigned char data;
struct task_struct *waiter;
};
struct TIMERCTL {
unsigned int count, next;
struct TIMER *t0;
struct TIMER timers0[MAX_TIMER];
};
void init_timer(uint32_t timer); void init_timer(uint32_t timer);
void timer_free(struct TIMER *timer);
void timer_init(struct TIMER *timer, struct FIFO8 *fifo, unsigned char data);
void timer_settime(struct TIMER *timer, unsigned int timeout);
void clock_sleep(uint32_t timer); void clock_sleep(uint32_t timer);
struct TIMER *timer_alloc(void);
unsigned int time(void);
void init_pit(void);
#endif //CRASHPOWEROS_TIMER_H #endif //CRASHPOWEROS_TIMER_H

71
include/vfs.h Normal file
View File

@ -0,0 +1,71 @@
#ifndef CRASHPOWEROS_VFS_H
#define CRASHPOWEROS_VFS_H
#define toupper(c) ((c) >= 'a' && (c) <= 'z' ? c - 32 : c)
#include "common.h"
#include "list.h"
typedef struct FILE {
unsigned int mode;
unsigned int fileSize;
unsigned char *buffer;
unsigned int bufferSize;
unsigned int p;
char *name;
} FILE;
typedef enum { FLE, DIR, RDO, HID, SYS } ftype;
typedef struct {
char name[255];
ftype type;
unsigned int size;
unsigned short year, month, day;
unsigned short hour, minute;
} vfs_file;
typedef struct vfs_t {
struct List *path;
void *cache;
char FSName[255];
int disk_number;
uint8_t drive; // 大写(必须)
vfs_file *(*FileInfo)(struct vfs_t *vfs, char *filename);
struct List *(*ListFile)(struct vfs_t *vfs, char *dictpath);
bool (*ReadFile)(struct vfs_t *vfs, char *path, char *buffer);
bool (*WriteFile)(struct vfs_t *vfs, char *path, char *buffer, int size);
bool (*DelFile)(struct vfs_t *vfs, char *path);
bool (*DelDict)(struct vfs_t *vfs, char *path);
bool (*CreateFile)(struct vfs_t *vfs, char *filename);
bool (*CreateDict)(struct vfs_t *vfs, char *filename);
bool (*RenameFile)(struct vfs_t *vfs, char *filename, char *filename_of_new);
bool (*Attrib)(struct vfs_t *vfs, char *filename, ftype type);
bool (*Format)(uint8_t disk_number);
void (*InitFs)(struct vfs_t *vfs, uint8_t disk_number);
void (*DeleteFs)(struct vfs_t *vfs);
bool (*Check)(uint8_t disk_number);
bool (*cd)(struct vfs_t *vfs, char *dictName);
int (*FileSize)(struct vfs_t *vfs, char *filename);
void (*CopyCache)(struct vfs_t *dest, struct vfs_t *src);
int flag;
} vfs_t;
bool vfs_mount_disk(uint8_t disk_number, uint8_t drive);
bool vfs_unmount_disk(uint8_t drive);
bool vfs_readfile(char *path, char *buffer);
bool vfs_writefile(char *path, char *buffer, int size);
uint32_t vfs_filesize(char *filename);
List *vfs_listfile(char *dictpath);
bool vfs_delfile(char *filename);
bool vfs_deldir(char *dictname);
bool vfs_createfile(char *filename);
bool vfs_createdict(char *filename);
bool vfs_renamefile(char *filename, char *filename_of_new);
bool vfs_attrib(char *filename, ftype type);
bool vfs_format(uint8_t disk_number, char *FSName);
vfs_file *vfs_fileinfo(char *filename);
bool vfs_change_disk(uint8_t drive);
bool vfs_register_fs(vfs_t vfs);
void init_vfs();
#endif

View File

@ -1,380 +0,0 @@
/*
* PlantsOS fat FileSystem
* Copyright by min0911
*/
#include "../include/vdisk.h"
#include "../include/fat.h"
#include "../include/memory.h"
#include "../include/list.h"
#include "../include/common.h"
/*
static inline int get_fat_date(unsigned short year, unsigned short month,
unsigned short day) {
year -= 1980;
unsigned short date = 0;
date |= (year & 0x7f) << 9;
date |= (month & 0x0f) << 5;
date |= (day & 0x1f);
return date;
}
static inline int get_fat_time(unsigned short hour, unsigned short minute) {
unsigned short time = 0;
time |= (hour & 0x1f) << 11;
time |= (minute & 0x3f) << 5;
return time;
}
void read_fat(unsigned char *img, int *fat, unsigned char *ff, int max,
int type) {
if (type == 12) {
for (int i = 0, j = 0; i < max; i += 2) {
fat[i + 0] = (img[j + 0] | img[j + 1] << 8) & 0xfff;
fat[i + 1] = (img[j + 1] >> 4 | img[j + 2] << 4) & 0xfff;
j += 3;
}
// 保留簇
ff[0] = 1;
ff[1] = 1;
for (int i = 1; i < max; i++) {
if (fat[i] > 0 && fat[i] < 0xff0) {
ff[fat[i]] = 1;
} else if (fat[i] >= 0xff0 && fat[i] <= 0xfff) {
ff[i + 1] = 1;
}
}
} else if (type == 16) {
unsigned short *p = (unsigned short *)img;
for (int i = 0; i != max; i++) {
fat[i] = p[i];
}
ff[0] = 1;
ff[1] = 1;
for (int i = 1; i < max; i++) {
if (fat[i] > 0 && fat[i] < 0xfff0) {
ff[fat[i]] = 1;
} else if (fat[i] >= 0xfff0 && fat[i] <= 0xffff) {
ff[i + 1] = 1;
}
}
} else if (type == 32) {
unsigned int *p = (unsigned int *)img;
for (int i = 0; i != max; i++) {
fat[i] = p[i];
}
ff[0] = 1;
ff[1] = 1;
for (int i = 1; i < max; i++) {
if (fat[i] > 0 && fat[i] < 0xffffff0) {
ff[fat[i]] = 1;
} else if (fat[i] >= 0xffffff0 && fat[i] <= 0xfffffff) {
ff[i + 1] = 1;
}
}
}
return;
}
int get_directory_max(struct FAT_FILEINFO *directory, vfs_t *vfs) {
if (directory == get_dm(vfs).root_directory) {
return get_dm(vfs).RootMaxFiles;
}
for (int i = 1; FindForCount(i, get_dm(vfs).directory_list) != NULL; i++) {
struct List *l = FindForCount(i, get_dm(vfs).directory_list);
if ((struct FAT_FILEINFO *)l->val == directory) {
return (int)FindForCount(i, get_dm(vfs).directory_max_list)->val;
}
}
}
void file_loadfile(int clustno, int size, char *buf, int *fat, vfs_t *vfs) {
if (!size) {
return;
}
void *img = kmalloc(((size - 1) / get_dm(vfs).ClustnoBytes + 1) *
get_dm(vfs).ClustnoBytes);
for (int i = 0; i != (size - 1) / get_dm(vfs).ClustnoBytes + 1; i++) {
uint32_t sec = (get_dm(vfs).FileDataAddress +
(clustno - 2) * get_dm(vfs).ClustnoBytes) /
get_dm(vfs).SectorBytes;
Disk_Read(sec, get_dm(vfs).ClustnoBytes / get_dm(vfs).SectorBytes,
img + i * get_dm(vfs).ClustnoBytes, vfs->disk_number);
clustno = fat[clustno];
}
memcpy((void *)buf, img, size);
kfree(img, ((size - 1) / get_dm(vfs).SectorBytes + 1) *
get_dm(vfs).SectorBytes);
return;
}
void file_savefile(int clustno, int size, char *buf, int *fat,
unsigned char *ff, vfs_t *vfs) {
uint32_t clustall = 0;
int tmp = clustno;
int end = clustno_end(get_dm(vfs).type);
while (fat[clustno] != end) { // 计算文件占多少Fat项 Fat项 = 大小 / 簇大小 + 1
clustno = fat[clustno];
clustall++;
}
int old_clustno = clustno;
clustno = tmp;
int alloc_size;
if (size >
(clustall + 1) *
get_dm(vfs).ClustnoBytes) { // 新大小 > (旧大小 / 簇大小 + 1) * 簇大小
// 请求内存大小 = (新大小 / 簇大小 + 1) * 簇大小
alloc_size =
((size - 1) / get_dm(vfs).ClustnoBytes + 1) * get_dm(vfs).ClustnoBytes;
// 分配Fat这里需要在写盘前分配
for (int size1 = size; size1 > ((clustall + 1) * get_dm(vfs).ClustnoBytes);
size1 -= get_dm(vfs).ClustnoBytes) {
for (int i = 0; i != get_dm(vfs).FatMaxTerms; i++) {
if (!ff[i]) {
fat[old_clustno] = i;
old_clustno = i;
ff[i] = true;
break;
}
}
}
fat[old_clustno] = end; // 结尾Fat
ff[old_clustno] = true;
} else if (size <=
(clustall + 1) *
get_dm(vfs).ClustnoBytes) { // 新大小 <= (旧大小 / 簇大小
// + 1) * 簇大小
// 请求内存大小 = (旧大小 / 簇大小 + 1) * 簇大小
alloc_size = (clustall + 1) * get_dm(vfs).ClustnoBytes;
// 这里不分配Fat的原因是要清空更改后多余的数据
}
void *img = kmalloc(alloc_size);
clean((char *)img, alloc_size);
memcpy(img, buf, size); // 把要写入的数据复制到新请求的内存地址
for (int i = 0; i != (alloc_size / get_dm(vfs).ClustnoBytes); i++) {
uint32_t sec = (get_dm(vfs).FileDataAddress +
(clustno - 2) * get_dm(vfs).ClustnoBytes) /
get_dm(vfs).SectorBytes;
Disk_Write(sec, get_dm(vfs).ClustnoBytes / get_dm(vfs).SectorBytes,
img + i * get_dm(vfs).ClustnoBytes, vfs->disk_number);
clustno = fat[clustno];
}
kfree(img, alloc_size);
if (size <
clustall *
get_dm(vfs).ClustnoBytes) { // 新大小 < (旧大小 / 簇大小) * 簇大小
// 分配Fat中间情况没必要分配
int i = old_clustno;
for (int size1 = clustall * get_dm(vfs).ClustnoBytes; size1 > size;
size1 -= get_dm(vfs).ClustnoBytes) {
fat[i] = 0;
ff[i] = 0;
for (int j = 0; j != get_dm(vfs).FatMaxTerms; j++) {
if (fat[j] == i) {
i = j;
}
}
}
old_clustno = i;
fat[old_clustno] = end;
ff[old_clustno] = 1;
}
file_savefat(fat, 0, get_dm(vfs).FatMaxTerms, vfs);
}
void file_savefat(int *fat, int clustno, int length, vfs_t *vfs) {
unsigned char *img = get_dm(vfs).ADR_DISKIMG + get_dm(vfs).Fat1Address;
int size, sec;
if (get_dm(vfs).type == 12) {
for (int i = 0; i <= length; i++) {
if ((clustno + i) % 2 == 0) {
img[(clustno + i) * 3 / 2 + 0] = fat[clustno + i] & 0xff;
img[(clustno + i) * 3 / 2 + 1] =
(fat[clustno + i] >> 8 | (img[(clustno + i) * 3 / 2 + 1] & 0xf0)) &
0xff;
} else if ((clustno + i) % 2 != 0) {
img[(clustno + i - 1) * 3 / 2 + 1] =
((img[(clustno + i - 1) * 3 / 2 + 1] & 0x0f) | fat[clustno + i]
<< 4) &
0xff;
img[(clustno + i - 1) * 3 / 2 + 2] = (fat[clustno + i] >> 4) & 0xff;
}
}
size = length * 3 / 2 - 1;
sec = clustno * 3 / 2;
} else if (get_dm(vfs).type == 16) {
for (int i = 0; i <= length; i++) {
img[(clustno + i) * 2 + 0] = fat[clustno + i] & 0xff;
img[(clustno + i) * 2 + 1] = (fat[clustno + i] >> 8) & 0xff;
}
size = length * 2 - 1;
sec = clustno * 2;
} else if (get_dm(vfs).type == 32) {
for (int i = 0; i <= length; i++) {
img[(clustno + i) * 4 + 0] = fat[clustno + i] & 0xff;
img[(clustno + i) * 4 + 1] = (fat[clustno + i] >> 8) & 0xff;
img[(clustno + i) * 4 + 2] = (fat[clustno + i] >> 16) & 0xff;
img[(clustno + i) * 4 + 3] = fat[clustno + i] >> 24;
}
size = length * 4 - 1;
sec = clustno * 4;
}
Disk_Write((get_dm(vfs).Fat1Address + sec) / get_dm(vfs).SectorBytes,
size / get_dm(vfs).SectorBytes + 1,
get_dm(vfs).ADR_DISKIMG + get_dm(vfs).Fat1Address,
vfs->disk_number);
Disk_Write((get_dm(vfs).Fat2Address + sec) / get_dm(vfs).SectorBytes,
size / get_dm(vfs).SectorBytes + 1,
get_dm(vfs).ADR_DISKIMG + get_dm(vfs).Fat2Address,
vfs->disk_number);
}
struct FAT_FILEINFO *file_search(char *name, struct FAT_FILEINFO *finfo,
int max) {
int i, j;
char s[12];
for (j = 0; j < 11; j++) {
s[j] = ' ';
}
j = 0;
for (i = 0; name[i] != 0; i++) {
if (j >= 11) {
return 0; //没有找到
}
if (name[i] == '.' && j <= 8) {
j = 8;
} else {
s[j] = name[i];
if ('a' <= s[j] && s[j] <= 'z') {
//将小写字母转换为大写字母
s[j] -= 0x20;
}
j++;
}
}
for (i = 0; i < max;) {
if (finfo[i].name[0] == 0x00) {
break;
}
if ((finfo[i].type & 0x18) == 0) {
for (j = 0; j < 11; j++) {
if (finfo[i].name[j] != s[j]) {
goto next;
}
}
return finfo + i; //找到文件
}
next:
i++;
}
return 0; //没有找到
}
struct FAT_FILEINFO *dict_search(char *name, struct FAT_FILEINFO *finfo,
int max) {
int i, j;
char s[12];
for (j = 0; j < 11; j++) {
s[j] = ' ';
}
j = 0;
for (i = 0; name[i] != 0; i++) {
if (j >= 11) {
return 0; //没有找到
} else {
s[j] = name[i];
if ('a' <= s[j] && s[j] <= 'z') {
//将小写字母转换为大写字母
s[j] -= 0x20;
}
j++;
}
}
for (i = 0; i < max;) {
if (finfo[i].name[0] == 0x00) {
break;
}
if (finfo[i].type == 0x10) {
for (j = 0; j < 11; j++) {
if (finfo[i].name[j] != s[j]) {
goto next;
}
}
return finfo + i; // 找到文件
}
next:
i++;
}
return 0; //没有找到
}
struct FAT_FILEINFO *Get_File_Address(char *path1, vfs_t *vfs) {
// TODO: Modifly it
struct FAT_FILEINFO *bmpDict = get_now_dir(vfs);
int drive_number = vfs->disk_number;
char *path = (char *)page_malloc(strlen(path1) + 1);
char *bmp = path;
strcpy(path, path1);
strtoupper(path);
if (strncmp("/", path, 1) == 0) {
path += 1;
bmpDict = get_dm(vfs).root_directory;
}
if (path[0] == '\\' || path[0] == '/') {
//跳过反斜杠和正斜杠
for (int i = 0; i < strlen(path); i++) {
if (path[i] != '\\' && path[i] != '/') {
path += i;
break;
}
}
}
char *temp_name = (char *)kmalloc(128);
struct FAT_FILEINFO *finfo = get_dm(vfs).root_directory;
int i = 0;
while (1) {
int j;
for (j = 0; i < strlen(path); i++, j++) {
if (path[i] == '\\' || path[i] == '/') {
temp_name[j] = '\0';
i++;
break;
}
temp_name[j] = path[i];
}
finfo = dict_search(temp_name, bmpDict, get_directory_max(bmpDict, vfs));
if (finfo == 0) {
if (path[i] != '\0') {
kfree((void *)temp_name, 128);
kfree((void *)bmp, strlen(path1) + 1);
return 0;
}
finfo = file_search(temp_name, bmpDict, get_directory_max(bmpDict, vfs));
if (finfo == 0) {
kfree((void *)temp_name, 128);
kfree((void *)bmp, strlen(path1) + 1);
return 0;
} else {
goto END;
}
} else {
if (get_clustno(finfo->clustno_high, finfo->clustno_low) != 0) {
for (int count = 1;
FindForCount(count, get_dm(vfs).directory_clustno_list) != NULL;
count++) {
struct List *list =
FindForCount(count, get_dm(vfs).directory_clustno_list);
if (get_clustno(finfo->clustno_high, finfo->clustno_low) ==
list->val) {
list = FindForCount(count, get_dm(vfs).directory_list);
bmpDict = (struct FAT_FILEINFO *)list->val;
break;
}
}
} else {
bmpDict = get_dm(vfs).root_directory;
}
clean(temp_name, 128);
}
}
END:
kfree((void *)temp_name, 128);
kfree((void *)bmp, strlen(path1) + 1);
return finfo;
}
*/

View File

@ -15,6 +15,8 @@
#include "../include/vdisk.h" #include "../include/vdisk.h"
#include "../include/pci.h" #include "../include/pci.h"
#include "../include/pcnet.h" #include "../include/pcnet.h"
#include "../include/fat.h"
#include "../include/floppy.h"
extern uint32_t end; extern uint32_t end;
extern int status; extern int status;
@ -64,22 +66,26 @@ void kernel_main(multiboot_t *multiboot) {
init_keyboard(); init_keyboard();
printf("[\035kernel\036]: Keyboard driver load success!\n"); printf("[\035kernel\036]: Keyboard driver load success!\n");
multiboot_all = multiboot; multiboot_all = multiboot;
io_sti();
init_pit();
init_vdisk(); init_vdisk();
init_pci(); init_pci();
init_vfs();
//init_floppy();
Register_fat_fileSys();
syscall_install(); syscall_install();
if(pcnet_find_card()){ if(pcnet_find_card()){
init_pcnet_card(); //init_pcnet_card();
} else printf("[\035kernel\036]: \033Cannot found pcnet.\036\n"); } else printf("[\035kernel\036]: \033Cannot found pcnet.\036\n");
print_cpu_id(); print_cpu_id();
io_sti();
printf("Memory: %dMB.",(multiboot->mem_upper + multiboot->mem_lower)/1024/1024); printf("Memory: %dMB.",(multiboot->mem_upper + multiboot->mem_lower)/1024/1024);
clock_sleep(25); clock_sleep(25);
//kernel_thread(setup_shell, NULL, "CPOS-Shell"); kernel_thread(setup_shell, NULL, "CPOS-Shell");
launch_date(); launch_date();
for (;;) { for (;;) {

View File

@ -50,3 +50,13 @@ void *memmove(void *dest, const void *src, size_t num) {
} }
return ret; return ret;
} }
void *realloc(void *ptr, uint32_t size) {
void *new = kmalloc(size);
if (ptr) {
memcpy(new, ptr, *(int *)((int)ptr - 4));
kfree(ptr);
}
return new;
}

View File

@ -1,11 +1,19 @@
#include "../include/timer.h" #include "../include/timer.h"
#include "../include/io.h" #include "../include/io.h"
#include "../include/graphics.h" #include "../include/graphics.h"
#include "../include/isr.h" #include "../include/cmos.h"
#include "../include/task.h"
uint32_t tick = 0; uint32_t tick = 0;
extern struct task_struct *current; extern struct task_struct *current;
struct TIMERCTL timerctl;
unsigned int time(void) {
unsigned int t;
t = get_year() * get_mon() * get_day_of_month() * get_hour() * get_min() * get_sec() + timerctl.count + timerctl.next;
t |= (int)timerctl.t0;
t |= get_day_of_week();
return t;
}
static void timer_handle(registers_t *regs) { static void timer_handle(registers_t *regs) {
io_cli(); io_cli();
@ -22,7 +30,29 @@ void clock_sleep(uint32_t timer){
} }
} }
void init_pit(void) {
io_out8(0x43, 0x34);
io_out8(0x40, 0x9c);
io_out8(0x40, 0x2e);
int i;
struct TIMER *t;
timerctl.count = 0;
for (i = 0; i < MAX_TIMER; i++) {
timerctl.timers0[i].flags = 0; /* 没有使用 */
}
t = timer_alloc(); /* 取得一个 */
t->timeout = 0xffffffff;
t->flags = TIMER_FLAGS_USING;
t->next = 0; /* 末尾 */
timerctl.t0 = t; /* 因为现在只有哨兵,所以他就在最前面*/
timerctl.next =
0xffffffff; /* 因为只有哨兵,所以下一个超时时刻就是哨兵的时刻 */
return;
}
void init_timer(uint32_t timer) { void init_timer(uint32_t timer) {
printf("REG TIMER INT: %d, function address: %08x.\n",IRQ0, &timer_handle);
register_interrupt_handler(IRQ0, &timer_handle); register_interrupt_handler(IRQ0, &timer_handle);
uint32_t divisor = 1193180 / timer; uint32_t divisor = 1193180 / timer;
@ -34,3 +64,55 @@ void init_timer(uint32_t timer) {
outb(0x40, l); outb(0x40, l);
outb(0x40, h); outb(0x40, h);
} }
struct TIMER *timer_alloc(void) {
int i;
for (i = 0; i < MAX_TIMER; i++) {
if (timerctl.timers0[i].flags == 0) {
timerctl.timers0[i].flags = TIMER_FLAGS_ALLOC;
timerctl.timers0[i].waiter = NULL;
return &timerctl.timers0[i];
}
}
return 0; /* 没找到 */
}
void timer_free(struct TIMER *timer) {
timer->flags = 0; /* 未使用 */
timer->waiter = NULL;
return;
}
void timer_init(struct TIMER *timer, struct FIFO8 *fifo, unsigned char data) {
timer->fifo = fifo;
timer->data = data;
return;
}
void timer_settime(struct TIMER *timer, unsigned int timeout) {
int e;
struct TIMER *t, *s;
timer->timeout = timeout + timerctl.count;
timer->flags = TIMER_FLAGS_USING;
e = io_load_eflags();
t = timerctl.t0;
if (timer->timeout <= t->timeout) {
/* 插入最前面的情况 */
timerctl.t0 = timer;
timer->next = t; /* 下面是设定t */
timerctl.next = timer->timeout;
io_store_eflags(e);
return;
}
for (;;) {
s = t;
t = t->next;
if (timer->timeout <= t->timeout) {
/* 插入s和t之间的情况 */
s->next = timer; /* s下一个是timer */
timer->next = t; /* timer的下一个是t */
io_store_eflags(e);
return;
}
}
}

View File

@ -5,6 +5,7 @@
#include "../include/timer.h" #include "../include/timer.h"
#include "../include/memory.h" #include "../include/memory.h"
#include "../include/printf.h" #include "../include/printf.h"
#include "../include/dhcp.h"
uint8_t bus = 255, dev = 255, func = 255; uint8_t bus = 255, dev = 255, func = 255;
@ -56,7 +57,10 @@ void reset_card() {
void Activate() { void Activate() {
// 激活PCNET IRQ中断 // 激活PCNET IRQ中断
io_out16(io_base + RAP16, CSR0); io_out16(io_base + RAP16, CSR0);
printf("[pcnet]: io\n");
io_out16(io_base + RDP16, 0x41); io_out16(io_base + RDP16, 0x41);
printf("[pcnet]: success.\n");
io_out16(io_base + RAP16, CSR4); io_out16(io_base + RAP16, CSR4);
uint32_t temp = io_in16(io_base + RDP16); uint32_t temp = io_in16(io_base + RDP16);
@ -65,6 +69,7 @@ void Activate() {
io_out16(io_base + RAP16, CSR0); io_out16(io_base + RAP16, CSR0);
io_out16(io_base + RDP16, 0x42); io_out16(io_base + RDP16, 0x42);
} }
int pcnet_find_card() { int pcnet_find_card() {
@ -88,6 +93,8 @@ static void init_Card_all() {
reset_card(); reset_card();
clock_sleep(1); clock_sleep(1);
io_out16(io_base + RAP16, BCR20); io_out16(io_base + RAP16, BCR20);
io_out16(io_base + BDP16, 0x102); io_out16(io_base + BDP16, 0x102);
io_out16(io_base + RAP16, CSR0); io_out16(io_base + RAP16, CSR0);
@ -146,28 +153,19 @@ static void init_Card_all() {
ip == 0xFFFFFFFF) { ip == 0xFFFFFFFF) {
initBlock.logicalAddress = ip; initBlock.logicalAddress = ip;
} }
// 初始化ARP表
// DNSParseIP("baidu.com");
// UDPProviderSend(0x761ff8d7, initBlock.logicalAddress, 52949, 38,
// "来自Powerint DOS 386的消息我是周志昊", strlen("来自Powerint DOS
// 386的消息我是周志昊"));
} }
void init_pcnet_card() { void init_pcnet_card() {
printf("[\035kernel\036]: Loading pcnet driver.\n"); printf("[\035kernel\036]: Loading pcnet driver.\n");
// 允许PCNET网卡产生中断
// 1.注册中断
register_interrupt_handler(pci_get_drive_irq(bus, dev, func),PCNET_IRQ); register_interrupt_handler(pci_get_drive_irq(bus, dev, func),PCNET_IRQ);
// 2,写COMMAND和STATUS寄存器 // 2,写COMMAND和STATUS寄存器
uint32_t conf = pci_read_command_status(bus, dev, func); uint32_t conf = pci_read_command_status(bus, dev, func);
conf &= 0xffff0000; // 保留STATUS寄存器清除COMMAND寄存器 conf &= 0xffff0000; // 保留STATUS寄存器清除COMMAND寄存器
conf |= 0x7; // 设置第0~2位允许PCNET网卡产生中断 conf |= 0x7; // 设置第0~2位允许PCNET网卡产生中断
pci_write_command_status(bus, dev, func, conf); pci_write_command_status(bus, dev, func, conf);
io_base = pci_get_port_base(bus, dev, func); io_base = pci_get_port_base(bus, dev, func);
init_Card_all(); init_Card_all();
} }

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@ -5,6 +5,42 @@
static char num_str_buf[BUF_SIZE]; static char num_str_buf[BUF_SIZE];
void insert_char(char* str, int pos, char ch) {
int i;
for (i = strlen(str); i >= pos; i--) {
str[i + 1] = str[i];
}
str[pos] = ch;
}
void delete_char(char* str, int pos) {
int i;
for (i = pos; i < strlen(str); i++) {
str[i] = str[i + 1];
}
}
void strtoupper(char* str) {
while (*str != '\0') {
if (*str >= 'a' && *str <= 'z') {
*str -= 32;
}
str++;
}
}
int strncmp(const char* s1, const char* s2, size_t n) {
const unsigned char *p1 = (const unsigned char*)s1,
*p2 = (const unsigned char*)s2;
while (n-- > 0) {
if (*p1 != *p2)
return *p1 - *p2;
if (*p1 == '\0')
return 0;
p1++, p2++;
}
return 0;
}
long int strtol(const char *str,char **endptr,int base){ long int strtol(const char *str,char **endptr,int base){
const char *s; const char *s;
unsigned long acc; unsigned long acc;

View File

@ -1,4 +1,5 @@
#include "../include/list.h" #include "../include/list.h"
#include "../include/memory.h"
int GetLastCount(struct List* Obj) { int GetLastCount(struct List* Obj) {
return Obj->ctl->all; return Obj->ctl->all;
@ -19,3 +20,75 @@ struct List* FindForCount(size_t count, struct List* Obj) {
q = q->prev; q = q->prev;
} }
} }
void Change(size_t count, struct List* Obj, uintptr_t val) {
struct List* Will_Change = FindForCount(count + 1, Obj);
if (Will_Change != NULL) {
Will_Change->val = val;
} else {
AddVal(val, Obj);
}
}
void DeleteList(struct List* Obj) {
Obj = Obj->ctl->start;
kfree((void *)Obj->ctl);
for (; Obj != (struct List*)NULL;) {
//printf("Will free: %llx\n", Obj);
struct List* tmp = Obj;
Obj = Obj->next;
kfree((void *)tmp);
}
return;
}
struct List* NewList() {
struct List* Obj = (struct List*)kmalloc(sizeof(struct List));
struct ListCtl* ctl = (struct ListCtl*)kmalloc(sizeof(struct ListCtl));
Obj->ctl = ctl;
Obj->ctl->start = Obj;
Obj->ctl->end = Obj;
Obj->val = 0x123456; // 头结点数据不可用
Obj->prev = (List*)NULL;
Obj->next = (List*)NULL;
Obj->ctl->all = 0;
return Obj;
}
void DeleteVal(size_t count, struct List* Obj) {
struct List* Will_Free = FindForCount(count, Obj);
if (Will_Free == NULL) {
// Not found!
return;
}
if (count == 0) {
return;
}
if (Will_Free->next == (List*)NULL) {
// 是尾节点
struct List* prev = FindForCount(count - 1, Obj);
prev->next = (List*)NULL;
prev->ctl->end = prev;
} else {
struct List* prev = FindForCount(count - 1, Obj);
struct List* next = FindForCount(count + 1, Obj);
prev->next = next;
next->prev = prev;
}
kfree((void *)Will_Free);
Obj->ctl->all--;
}
void AddVal(uintptr_t val, struct List* Obj) {
while (Obj->next != NULL)
Obj = Obj->next;
Obj = Obj->ctl->end;
struct List* new = (struct List*)kmalloc(sizeof(struct List));
Obj->next = new;
Obj->ctl->end = new;
new->prev = Obj;
new->ctl = Obj->ctl;
new->next = (List*)NULL;
new->val = val;
new->ctl->all++;
}

12
util/rand.c Normal file
View File

@ -0,0 +1,12 @@
#include "../include/common.h"
static unsigned long next1 = 1;
unsigned int rand(void) {
next1 = next1 * 1103515245 + 12345;
return ((unsigned int)(next1));
}
void srand(unsigned long seed) {
next1 = seed;
}