static void read_sector_done(int which)
{
struct ide_state *ide = &idestate[which];
int lba = lba_address(ide), count = 0;
/* now do the read */
if (ide->disk)
count = hard_disk_read(ide->disk, lba, 1, ide->buffer);
/* by default, mark the buffer ready and the seek complete */
if (!ide->verify_only)
ide->status |= IDE_STATUS_BUFFER_READY;
ide->status |= IDE_STATUS_SEEK_COMPLETE;
/* and clear the busy and error flags */
ide->status &= ~IDE_STATUS_ERROR;
ide->status &= ~IDE_STATUS_BUSY;
/* if we succeeded, advance to the next sector and set the nice bits */
if (count == 1)
{
/* advance the pointers, unless this is the last sector */
/* Gauntlet: Dark Legacy checks to make sure we stop on the last sector */
if (ide->sector_count != 1)
next_sector(ide);
/* clear the error value */
ide->error = IDE_ERROR_NONE;
/* signal an interrupt */
if (!ide->verify_only)
ide->sectors_until_int--;
if (ide->sectors_until_int == 0 || ide->sector_count == 1)
{
ide->sectors_until_int = ((ide->command == IDE_COMMAND_READ_MULTIPLE_BLOCK) ? ide->block_count : 1);
signal_interrupt(ide);
}
/* handle DMA */
if (ide->dma_active)
write_buffer_to_dma(ide);
/* if we're just verifying or if we DMA'ed the data, we can read the next sector */
if (ide->verify_only || ide->dma_active)
continue_read(ide);
}
/* if we got an error, we need to report it */
else
{
/* set the error flag and the error */
ide->status |= IDE_STATUS_ERROR;
ide->error = IDE_ERROR_BAD_SECTOR;
ide->bus_master_status |= IDE_BUSMASTER_STATUS_ERROR;
ide->bus_master_status &= ~IDE_BUSMASTER_STATUS_ACTIVE;
/* signal an interrupt */
signal_interrupt(ide);
}
}
static void delayed_interrupt_buffer_ready(int which)
{
struct ide_state *ide = &idestate[which];
ide->status &= ~IDE_STATUS_BUSY;
ide->status |= IDE_STATUS_BUFFER_READY;
signal_interrupt(ide);
}
void test3()
{
char buf[BUFSIZE];
ssize_t n;
if( signal_interrupt( SIGINT, sig_handler ) == SIG_ERR ) {
printf("failed to install signal handler!\n");
exit(-1);
} // if
/* sleep(10); // interrupt */
n = read(STDIN_FILENO, buf, BUFSIZE); // interrupt //!! different from normal behavior
printf( "%zd\n", n );
/* pause(); // interrupt */
printf("errno = %s\n", strerror(errno));
}
static void delayed_interrupt(int which)
{
struct ide_state *ide = &idestate[which];
ide->status &= ~IDE_STATUS_BUSY;
signal_interrupt(ide);
}
void handle_command(struct ide_state *ide, UINT8 command)
{
/* implicitly clear interrupts here */
clear_interrupt(ide);
ide->command = command;
switch (command)
{
case IDE_COMMAND_READ_MULTIPLE:
case IDE_COMMAND_READ_MULTIPLE_ONCE:
LOGPRINT(("IDE Read multiple: C=%d H=%d S=%d LBA=%d count=%d\n",
ide->cur_cylinder, ide->cur_head, ide->cur_sector, lba_address(ide), ide->sector_count));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sectors_until_int = 1;
ide->dma_active = 0;
/* start the read going */
read_first_sector(ide);
break;
case IDE_COMMAND_READ_MULTIPLE_BLOCK:
LOGPRINT(("IDE Read multiple block: C=%d H=%d S=%d LBA=%d count=%d\n",
ide->cur_cylinder, ide->cur_head, ide->cur_sector, lba_address(ide), ide->sector_count));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sectors_until_int = 1;
ide->dma_active = 0;
/* start the read going */
read_first_sector(ide);
break;
case IDE_COMMAND_READ_DMA:
LOGPRINT(("IDE Read multiple DMA: C=%d H=%d S=%d LBA=%d count=%d\n",
ide->cur_cylinder, ide->cur_head, ide->cur_sector, lba_address(ide), ide->sector_count));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sectors_until_int = ide->sector_count;
ide->dma_active = 1;
/* start the read going */
if (ide->bus_master_command & 1)
read_first_sector(ide);
break;
case IDE_COMMAND_WRITE_MULTIPLE:
LOGPRINT(("IDE Write multiple: C=%d H=%d S=%d LBA=%d count=%d\n",
ide->cur_cylinder, ide->cur_head, ide->cur_sector, lba_address(ide), ide->sector_count));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sectors_until_int = 1;
ide->dma_active = 0;
/* mark the buffer ready */
ide->status |= IDE_STATUS_BUFFER_READY;
break;
case IDE_COMMAND_WRITE_MULTIPLE_BLOCK:
LOGPRINT(("IDE Write multiple block: C=%d H=%d S=%d LBA=%d count=%d\n",
ide->cur_cylinder, ide->cur_head, ide->cur_sector, lba_address(ide), ide->sector_count));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sectors_until_int = 1;
ide->dma_active = 0;
/* mark the buffer ready */
ide->status |= IDE_STATUS_BUFFER_READY;
break;
case IDE_COMMAND_WRITE_DMA:
LOGPRINT(("IDE Write multiple DMA: C=%d H=%d S=%d LBA=%d count=%d\n",
ide->cur_cylinder, ide->cur_head, ide->cur_sector, lba_address(ide), ide->sector_count));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sectors_until_int = ide->sector_count;
ide->dma_active = 1;
/* start the read going */
if (ide->bus_master_command & 1)
{
read_buffer_from_dma(ide);
continue_write(ide);
}
break;
case IDE_COMMAND_SECURITY_UNLOCK:
LOGPRINT(("IDE Security Unlock\n"));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sectors_until_int = 0;
ide->dma_active = 0;
/* mark the buffer ready */
ide->status |= IDE_STATUS_BUFFER_READY;
signal_interrupt(ide);
break;
case IDE_COMMAND_GET_INFO:
LOGPRINT(("IDE Read features\n"));
/* reset the buffer */
ide->buffer_offset = 0;
ide->sector_count = 1;
/* build the features page */
memcpy(ide->buffer, ide->features, sizeof(ide->buffer));
/* indicate everything is ready */
ide->status |= IDE_STATUS_BUFFER_READY;
ide->status |= IDE_STATUS_SEEK_COMPLETE;
/* and clear the busy adn error flags */
ide->status &= ~IDE_STATUS_ERROR;
ide->status &= ~IDE_STATUS_BUSY;
/* clear the error too */
ide->error = IDE_ERROR_NONE;
/* signal an interrupt */
signal_delayed_interrupt(ide, MINIMUM_COMMAND_TIME, 1);
break;
case IDE_COMMAND_SET_CONFIG:
LOGPRINT(("IDE Set configuration (%d heads, %d sectors)\n", ide->cur_head + 1, ide->sector_count));
ide->num_sectors = ide->sector_count;
ide->num_heads = ide->cur_head + 1;
/* signal an interrupt */
signal_interrupt(ide);
break;
case IDE_COMMAND_UNKNOWN_F9:
/* only used by Killer Instinct AFAICT */
LOGPRINT(("IDE unknown command (F9)\n"));
/* signal an interrupt */
signal_interrupt(ide);
break;
case IDE_COMMAND_SET_FEATURES:
LOGPRINT(("IDE Set features (%02X %02X %02X %02X %02X)\n", ide->precomp_offset, ide->sector_count & 0xff, ide->cur_sector, ide->cur_cylinder & 0xff, ide->cur_cylinder >> 8));
/* signal an interrupt */
signal_delayed_interrupt(ide, MINIMUM_COMMAND_TIME, 0);
break;
case IDE_COMMAND_SET_BLOCK_COUNT:
LOGPRINT(("IDE Set block count (%02X)\n", ide->sector_count));
ide->block_count = ide->sector_count;
// judge dredd wants 'drive ready' on this command
ide->status |= IDE_STATUS_DRIVE_READY;
/* signal an interrupt */
signal_interrupt(ide);
break;
default:
LOGPRINT(("IDE unknown command (%02X)\n", command));
#ifdef MAME_DEBUG
{
extern int debug_key_pressed;
debug_key_pressed = 1;
}
#endif
break;
}
}
