ladybird/Kernel/IDEDiskDevice.cpp
Andreas Kling 2cfcbdc735 AK: Add Retained<T>, like RetainPtr, but never null.
Also use some Clang attribute wizardry to get a warning for use-after-move.
2019-02-25 12:43:52 +01:00

274 lines
6.6 KiB
C++

#include "IDEDiskDevice.h"
#include "types.h"
#include "Process.h"
#include "StdLib.h"
#include "IO.h"
#include "Scheduler.h"
#include "PIC.h"
#include <AK/Lock.h>
//#define DISK_DEBUG
#define IRQ_FIXED_DISK 14
#define IDE0_DATA 0x1F0
#define IDE0_STATUS 0x1F7
#define IDE0_COMMAND 0x1F7
enum IDECommand : byte {
IDENTIFY_DRIVE = 0xEC,
READ_SECTORS = 0x21,
WRITE_SECTORS = 0x30,
};
enum IDEStatus : byte {
BUSY = (1 << 7),
DRDY = (1 << 6),
DF = (1 << 5),
SRV = (1 << 4),
DRQ = (1 << 3),
CORR = (1 << 2),
IDX = (1 << 1),
ERR = (1 << 0),
};
Retained<IDEDiskDevice> IDEDiskDevice::create()
{
return adopt(*new IDEDiskDevice);
}
IDEDiskDevice::IDEDiskDevice()
: IRQHandler(IRQ_FIXED_DISK)
, m_lock("IDEDiskDevice")
{
initialize();
}
IDEDiskDevice::~IDEDiskDevice()
{
}
const char* IDEDiskDevice::class_name() const
{
return "IDEDiskDevice";
}
unsigned IDEDiskDevice::block_size() const
{
return 512;
}
bool IDEDiskDevice::read_block(unsigned index, byte* out) const
{
return const_cast<IDEDiskDevice&>(*this).read_sectors(index, 1, out);
}
bool IDEDiskDevice::write_block(unsigned index, const byte* data)
{
return write_sectors(index, 1, data);
}
static void print_ide_status(byte status)
{
kprintf("DRQ=%u BUSY=%u DRDY=%u SRV=%u DF=%u CORR=%u IDX=%u ERR=%u\n",
(status & DRQ) != 0,
(status & BUSY) != 0,
(status & DRDY) != 0,
(status & SRV) != 0,
(status & DF) != 0,
(status & CORR) != 0,
(status & IDX) != 0,
(status & ERR) != 0);
}
bool IDEDiskDevice::wait_for_irq()
{
#ifdef DISK_DEBUG
kprintf("disk: waiting for interrupt...\n");
#endif
// FIXME: Add timeout.
while (!m_interrupted) {
// FIXME: Put this process into a Blocked state instead, it's stupid to wake up just to check a flag.
Scheduler::yield();
}
#ifdef DISK_DEBUG
kprintf("disk: got interrupt!\n");
#endif
memory_barrier();
return true;
}
void IDEDiskDevice::handle_irq()
{
byte status = IO::in8(0x1f7);
if (status & ERR) {
print_ide_status(status);
m_device_error = IO::in8(0x1f1);
kprintf("IDEDiskDevice: Error %b!\n", m_device_error);
} else {
m_device_error = 0;
}
#ifdef DISK_DEBUG
kprintf("disk:interrupt: DRQ=%u BUSY=%u DRDY=%u\n", (status & DRQ) != 0, (status & BUSY) != 0, (status & DRDY) != 0);
#endif
m_interrupted = true;
}
void IDEDiskDevice::initialize()
{
#ifdef DISK_DEBUG
byte status = IO::in8(IDE0_STATUS);
kprintf("initial status: ");
print_ide_status(status);
#endif
m_interrupted = false;
while (IO::in8(IDE0_STATUS) & BUSY);
enable_irq();
IO::out8(0x1F6, 0xA0); // 0xB0 for 2nd device
IO::out8(0x3F6, 0xA0); // 0xB0 for 2nd device
IO::out8(IDE0_COMMAND, IDENTIFY_DRIVE);
enable_irq();
wait_for_irq();
ByteBuffer wbuf = ByteBuffer::create_uninitialized(512);
ByteBuffer bbuf = ByteBuffer::create_uninitialized(512);
byte* b = bbuf.pointer();
word* w = (word*)wbuf.pointer();
const word* wbufbase = (word*)wbuf.pointer();
for (dword i = 0; i < 256; ++i) {
word data = IO::in16(IDE0_DATA);
*(w++) = data;
*(b++) = MSB(data);
*(b++) = LSB(data);
}
// "Unpad" the device name string.
for (dword i = 93; i > 54 && bbuf[i] == ' '; --i)
bbuf[i] = 0;
m_cylinders = wbufbase[1];
m_heads = wbufbase[3];
m_sectors_per_track = wbufbase[6];
kprintf(
"IDEDiskDevice: Master=\"%s\", C/H/Spt=%u/%u/%u\n",
bbuf.pointer() + 54,
m_cylinders,
m_heads,
m_sectors_per_track
);
}
IDEDiskDevice::CHS IDEDiskDevice::lba_to_chs(dword lba) const
{
CHS chs;
chs.cylinder = lba / (m_sectors_per_track * m_heads);
chs.head = (lba / m_sectors_per_track) % m_heads;
chs.sector = (lba % m_sectors_per_track) + 1;
return chs;
}
bool IDEDiskDevice::read_sectors(dword start_sector, word count, byte* outbuf)
{
LOCKER(m_lock);
#ifdef DISK_DEBUG
kprintf("%s: Disk::read_sectors request (%u sector(s) @ %u)\n",
current->name().characters(),
count,
start_sector);
#endif
disable_irq();
auto chs = lba_to_chs(start_sector);
while (IO::in8(IDE0_STATUS) & BUSY);
#ifdef DISK_DEBUG
kprintf("IDEDiskDevice: Reading %u sector(s) @ LBA %u (%u/%u/%u)\n", count, start_sector, chs.cylinder, chs.head, chs.sector);
#endif
IO::out8(0x1F2, count == 256 ? 0 : LSB(count));
IO::out8(0x1F3, chs.sector);
IO::out8(0x1F4, LSB(chs.cylinder));
IO::out8(0x1F5, MSB(chs.cylinder));
IO::out8(0x1F6, 0xA0 | chs.head); /* 0xB0 for 2nd device */
IO::out8(0x3F6, 0x08);
while (!(IO::in8(IDE0_STATUS) & DRDY));
IO::out8(IDE0_COMMAND, READ_SECTORS);
m_interrupted = false;
enable_irq();
wait_for_irq();
if (m_device_error)
return false;
byte status = IO::in8(0x1f7);
if (status & DRQ) {
#ifdef DISK_DEBUG
kprintf("Retrieving %u bytes (status=%b), outbuf=%p...\n", count * 512, status, outbuf);
#endif
for (dword i = 0; i < (count * 512); i += 2) {
word w = IO::in16(IDE0_DATA);
outbuf[i] = LSB(w);
outbuf[i+1] = MSB(w);
}
}
return true;
}
bool IDEDiskDevice::write_sectors(dword start_sector, word count, const byte* data)
{
LOCKER(m_lock);
#ifdef DISK_DEBUG
dbgprintf("%s(%u): IDEDiskDevice::write_sectors request (%u sector(s) @ %u)\n",
current->name().characters(),
current->pid(),
count,
start_sector);
#endif
disable_irq();
auto chs = lba_to_chs(start_sector);
while (IO::in8(IDE0_STATUS) & BUSY);
//dbgprintf("IDEDiskDevice: Writing %u sector(s) @ LBA %u (%u/%u/%u)\n", count, start_sector, chs.cylinder, chs.head, chs.sector);
IO::out8(0x1F2, count == 256 ? 0 : LSB(count));
IO::out8(0x1F3, chs.sector);
IO::out8(0x1F4, LSB(chs.cylinder));
IO::out8(0x1F5, MSB(chs.cylinder));
IO::out8(0x1F6, 0xA0 | chs.head); /* 0xB0 for 2nd device */
IO::out8(0x3F6, 0x08);
IO::out8(IDE0_COMMAND, WRITE_SECTORS);
while (!(IO::in8(IDE0_STATUS) & DRQ));
byte status = IO::in8(0x1f7);
if (status & DRQ) {
//dbgprintf("Sending %u bytes (status=%b), data=%p...\n", count * 512, status, data);
auto* data_as_words = (const word*)data;
for (dword i = 0; i < (count * 512) / 2; ++i) {
IO::out16(IDE0_DATA, data_as_words[i]);
}
}
m_interrupted = false;
enable_irq();
wait_for_irq();
return !m_device_error;
}