// Simple PIO-based (non-DMA) IDE driver code. #include "types.h" #include "param.h" #include "mmu.h" #include "proc.h" #include "defs.h" #include "x86.h" #include "traps.h" #include "spinlock.h" #define IDE_BSY 0x80 #define IDE_DRDY 0x40 #define IDE_DF 0x20 #define IDE_ERR 0x01 #define IDE_CMD_READ 0x20 #define IDE_CMD_WRITE 0x30 // IDE request queue. // The next request will be stored in request[head], // and the request currently being served by the disk // is request[tail]. // Must hold ide_lock while manipulating queue. struct ide_request { int diskno; uint secno; void *addr; uint nsecs; uint read; }; struct ide_request request[NREQUEST]; int head, tail; struct spinlock ide_lock; int disk_1_present; int disk_channel; int ide_probe_disk1(void); static int ide_wait_ready(int check_error) { int r; while(((r = inb(0x1F7)) & (IDE_BSY|IDE_DRDY)) != IDE_DRDY) ; if(check_error && (r & (IDE_DF|IDE_ERR)) != 0) return -1; return 0; } void ide_init(void) { initlock(&ide_lock, "ide"); irq_setmask_8259A(irq_mask_8259A & ~(1 << IRQ_IDE)); ioapic_enable (IRQ_IDE, ncpu - 1); ide_wait_ready(0); disk_1_present = ide_probe_disk1(); } void ide_intr(void) { acquire(&ide_lock); wakeup(&request[tail]); release(&ide_lock); } int ide_probe_disk1(void) { int r, x; // wait for Device 0 to be ready ide_wait_ready(0); // switch to Device 1 outb(0x1F6, 0xE0 | (1<<4)); // check for Device 1 to be ready for a while for(x = 0; x < 1000 && (r = inb(0x1F7)) == 0; x++) ; // switch back to Device 0 outb(0x1F6, 0xE0 | (0<<4)); return x < 1000; } void ide_start_request (void) { struct ide_request *r; if(head != tail) { r = &request[tail]; ide_wait_ready(0); outb(0x3f6, 0); // generate interrupt outb(0x1F2, r->nsecs); outb(0x1F3, r->secno & 0xFF); outb(0x1F4, (r->secno >> 8) & 0xFF); outb(0x1F5, (r->secno >> 16) & 0xFF); outb(0x1F6, 0xE0 | ((r->diskno&1)<<4) | ((r->secno>>24)&0x0F)); if(r->read) outb(0x1F7, IDE_CMD_READ); else { outb(0x1F7, IDE_CMD_WRITE); outsl(0x1F0, r->addr, 512/4); } } } void* ide_start_rw(int diskno, uint secno, void *addr, uint nsecs, int read) { struct ide_request *r; if(diskno && !disk_1_present) panic("ide disk 1 not present"); while((head + 1) % NREQUEST == tail) sleep(&disk_channel, &ide_lock); r = &request[head]; r->secno = secno; r->addr = addr; r->nsecs = nsecs; r->diskno = diskno; r->read = read; head = (head + 1) % NREQUEST; ide_start_request(); return r; } int ide_finish(void *c) { int r; struct ide_request *req = (struct ide_request*) c; if(req->read) { if((r = ide_wait_ready(1)) >= 0) insl(0x1F0, req->addr, 512/4); } if((head + 1) % NREQUEST == tail) { wakeup(&disk_channel); } tail = (tail + 1) % NREQUEST; ide_start_request(); return 0; } int ide_write(int diskno, uint secno, const void *src, uint nsecs) { int r; if(nsecs > 256) panic("ide_write"); ide_wait_ready(0); outb(0x1F2, nsecs); outb(0x1F3, secno & 0xFF); outb(0x1F4, (secno >> 8) & 0xFF); outb(0x1F5, (secno >> 16) & 0xFF); outb(0x1F6, 0xE0 | ((diskno&1)<<4) | ((secno>>24)&0x0F)); outb(0x1F7, 0x30); // CMD 0x30 means write sector for(; nsecs > 0; nsecs--, src += 512) { if((r = ide_wait_ready(1)) < 0) return r; outsl(0x1F0, src, 512/4); } return 0; }