Bochs/bochs/iodev/pci_ide.cc

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/////////////////////////////////////////////////////////////////////////
// $Id$
/////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2004-2018 The Bochs Project
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
// PCI IDE controller
// i430FX - PIIX
// i440FX - PIIX3
// i440BX - PIIX4
// Define BX_PLUGGABLE in files that can be compiled into plugins. For
// platforms that require a special tag on exported symbols, BX_PLUGGABLE
// is used to know when we are exporting symbols and when we are importing.
#define BX_PLUGGABLE
#include "iodev.h"
#if BX_SUPPORT_PCI
#include "pci.h"
#include "pci_ide.h"
#define LOG_THIS thePciIdeController->
bx_pci_ide_c *thePciIdeController = NULL;
const Bit8u bmdma_iomask[16] = {1, 0, 1, 0, 4, 0, 0, 0, 1, 0, 1, 0, 4, 0, 0, 0};
int CDECL libpci_ide_LTX_plugin_init(plugin_t *plugin, plugintype_t type)
{
thePciIdeController = new bx_pci_ide_c();
bx_devices.pluginPciIdeController = thePciIdeController;
BX_REGISTER_DEVICE_DEVMODEL(plugin, type, thePciIdeController, BX_PLUGIN_PCI_IDE);
return(0); // Success
}
void CDECL libpci_ide_LTX_plugin_fini(void)
{
delete thePciIdeController;
}
bx_pci_ide_c::bx_pci_ide_c()
{
put("pci_ide", "PIDE");
s.bmdma[0].timer_index = BX_NULL_TIMER_HANDLE;
s.bmdma[1].timer_index = BX_NULL_TIMER_HANDLE;
s.bmdma[0].buffer = NULL;
s.bmdma[1].buffer = NULL;
}
bx_pci_ide_c::~bx_pci_ide_c()
{
if (s.bmdma[0].buffer != NULL) {
delete [] s.bmdma[0].buffer;
}
if (s.bmdma[1].buffer != NULL) {
delete [] s.bmdma[1].buffer;
}
SIM->get_bochs_root()->remove("pci_ide");
BX_DEBUG(("Exit"));
}
void bx_pci_ide_c::init(void)
{
unsigned i;
Bit8u devfunc;
BX_PIDE_THIS s.chipset = SIM->get_param_enum(BXPN_PCI_CHIPSET)->get();
if (BX_PIDE_THIS s.chipset == BX_PCI_CHIPSET_I440BX) {
devfunc = BX_PCI_DEVICE(7, 1);
} else {
devfunc = BX_PCI_DEVICE(1, 1);
}
DEV_register_pci_handlers(this, &devfunc,
BX_PLUGIN_PCI_IDE, "PIIX3 PCI IDE controller");
// register BM-DMA timer
for (i=0; i<2; i++) {
if (BX_PIDE_THIS s.bmdma[i].timer_index == BX_NULL_TIMER_HANDLE) {
BX_PIDE_THIS s.bmdma[i].timer_index =
DEV_register_timer(this, timer_handler, 1000, 0,0, "PIIX3 BM-DMA timer");
bx_pc_system.setTimerParam(BX_PIDE_THIS s.bmdma[i].timer_index, i);
}
}
BX_PIDE_THIS s.bmdma[0].buffer = new Bit8u[0x20000];
BX_PIDE_THIS s.bmdma[1].buffer = new Bit8u[0x20000];
// initialize readonly registers
if (BX_PIDE_THIS s.chipset == BX_PCI_CHIPSET_I430FX) {
init_pci_conf(0x8086, 0x1230, 0x00, 0x010180, 0x00, 0);
} else if (BX_PIDE_THIS s.chipset == BX_PCI_CHIPSET_I440BX) {
init_pci_conf(0x8086, 0x7111, 0x00, 0x010180, 0x00, 0);
} else {
init_pci_conf(0x8086, 0x7010, 0x00, 0x010180, 0x00, 0);
}
BX_PIDE_THIS init_bar_io(4, 16, read_handler, write_handler, &bmdma_iomask[0]);
}
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void bx_pci_ide_c::reset(unsigned type)
{
BX_PIDE_THIS pci_conf[0x04] = 0x01;
BX_PIDE_THIS pci_conf[0x06] = 0x80;
BX_PIDE_THIS pci_conf[0x07] = 0x02;
if (SIM->get_param_bool(BXPN_ATA0_ENABLED)->get()) {
BX_PIDE_THIS pci_conf[0x40] = 0x00;
BX_PIDE_THIS pci_conf[0x41] = 0x80;
}
if (SIM->get_param_bool(BXPN_ATA1_ENABLED)->get()) {
BX_PIDE_THIS pci_conf[0x42] = 0x00;
BX_PIDE_THIS pci_conf[0x43] = 0x80;
}
BX_PIDE_THIS pci_conf[0x44] = 0x00;
for (unsigned i=0; i<2; i++) {
BX_PIDE_THIS s.bmdma[i].cmd_ssbm = 0;
BX_PIDE_THIS s.bmdma[i].cmd_rwcon = 0;
BX_PIDE_THIS s.bmdma[i].status = 0;
BX_PIDE_THIS s.bmdma[i].dtpr = 0;
BX_PIDE_THIS s.bmdma[i].prd_current = 0;
BX_PIDE_THIS s.bmdma[i].buffer_top = BX_PIDE_THIS s.bmdma[i].buffer;
BX_PIDE_THIS s.bmdma[i].buffer_idx = BX_PIDE_THIS s.bmdma[i].buffer;
BX_PIDE_THIS s.bmdma[i].data_ready = 0;
}
}
// save/restore code begin
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void bx_pci_ide_c::register_state(void)
{
char name[6];
bx_list_c *list = new bx_list_c(SIM->get_bochs_root(), "pci_ide", "PCI IDE Controller State");
register_pci_state(list);
new bx_shadow_data_c(list, "buffer0", BX_PIDE_THIS s.bmdma[0].buffer, 0x20000);
new bx_shadow_data_c(list, "buffer1", BX_PIDE_THIS s.bmdma[1].buffer, 0x20000);
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for (unsigned i=0; i<2; i++) {
sprintf(name, "%u", i);
bx_list_c *ctrl = new bx_list_c(list, name);
BXRS_PARAM_BOOL(ctrl, cmd_ssbm, BX_PIDE_THIS s.bmdma[i].cmd_ssbm);
BXRS_PARAM_BOOL(ctrl, cmd_rwcon, BX_PIDE_THIS s.bmdma[i].cmd_rwcon);
BXRS_HEX_PARAM_FIELD(ctrl, status, BX_PIDE_THIS s.bmdma[i].status);
BXRS_HEX_PARAM_FIELD(ctrl, dtpr, BX_PIDE_THIS s.bmdma[i].dtpr);
BXRS_HEX_PARAM_FIELD(ctrl, prd_current, BX_PIDE_THIS s.bmdma[i].prd_current);
BXRS_PARAM_SPECIAL32(ctrl, buffer_top,
BX_PIDE_THIS param_save_handler, BX_PIDE_THIS param_restore_handler);
BXRS_PARAM_SPECIAL32(ctrl, buffer_idx,
BX_PIDE_THIS param_save_handler, BX_PIDE_THIS param_restore_handler);
BXRS_PARAM_BOOL(ctrl, data_ready, BX_PIDE_THIS s.bmdma[i].data_ready);
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}
}
void bx_pci_ide_c::after_restore_state(void)
{
bx_pci_device_c::after_restore_pci_state(NULL);
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}
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Bit64s bx_pci_ide_c::param_save_handler(void *devptr, bx_param_c *param)
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{
#if !BX_USE_PIDE_SMF
bx_pci_ide_c *class_ptr = (bx_pci_ide_c *) devptr;
return class_ptr->param_save(param, val);
}
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Bit64s bx_pci_ide_c::param_save(bx_param_c *param)
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{
#else
UNUSED(devptr);
#endif // !BX_USE_PIDE_SMF
int chan = atoi(param->get_parent()->get_name());
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Bit64s val = 0;
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if (!strcmp(param->get_name(), "buffer_top")) {
val = (Bit32u)(BX_PIDE_THIS s.bmdma[chan].buffer_top - BX_PIDE_THIS s.bmdma[chan].buffer);
} else if (!strcmp(param->get_name(), "buffer_idx")) {
val = (Bit32u)(BX_PIDE_THIS s.bmdma[chan].buffer_idx - BX_PIDE_THIS s.bmdma[chan].buffer);
}
return val;
}
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void bx_pci_ide_c::param_restore_handler(void *devptr, bx_param_c *param, Bit64s val)
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{
#if !BX_USE_PIDE_SMF
bx_pci_ide_c *class_ptr = (bx_pci_ide_c *) devptr;
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class_ptr->param_restore(param, val);
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}
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void bx_pci_ide_c::param_restore(bx_param_c *param, Bit64s val)
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{
#else
UNUSED(devptr);
#endif // !BX_USE_PIDE_SMF
int chan = atoi(param->get_parent()->get_name());
if (!strcmp(param->get_name(), "buffer_top")) {
BX_PIDE_THIS s.bmdma[chan].buffer_top = BX_PIDE_THIS s.bmdma[chan].buffer + val;
} else if (!strcmp(param->get_name(), "buffer_idx")) {
BX_PIDE_THIS s.bmdma[chan].buffer_idx = BX_PIDE_THIS s.bmdma[chan].buffer + val;
}
}
// save/restore code end
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bx_bool bx_pci_ide_c::bmdma_present(void)
{
return (BX_PIDE_THIS pci_bar[4].addr > 0);
}
void bx_pci_ide_c::bmdma_start_transfer(Bit8u channel)
{
if (channel < 2) {
BX_PIDE_THIS s.bmdma[channel].data_ready = 1;
}
}
void bx_pci_ide_c::bmdma_set_irq(Bit8u channel)
{
if (channel < 2) {
BX_PIDE_THIS s.bmdma[channel].status |= 0x04;
}
}
void bx_pci_ide_c::timer_handler(void *this_ptr)
{
bx_pci_ide_c *class_ptr = (bx_pci_ide_c *) this_ptr;
class_ptr->timer();
}
void bx_pci_ide_c::timer()
{
int count;
Bit32u size, sector_size;
struct {
Bit32u addr;
Bit32u size;
} prd;
Bit8u channel = bx_pc_system.triggeredTimerParam();
if (((BX_PIDE_THIS s.bmdma[channel].status & 0x01) == 0) ||
(BX_PIDE_THIS s.bmdma[channel].prd_current == 0)) {
return;
}
if (BX_PIDE_THIS s.bmdma[channel].cmd_rwcon &&
!BX_PIDE_THIS s.bmdma[channel].data_ready) {
bx_pc_system.activate_timer(BX_PIDE_THIS s.bmdma[channel].timer_index, 1000, 0);
return;
}
DEV_MEM_READ_PHYSICAL(BX_PIDE_THIS s.bmdma[channel].prd_current, 4, (Bit8u *)&prd.addr);
DEV_MEM_READ_PHYSICAL(BX_PIDE_THIS s.bmdma[channel].prd_current+4, 4, (Bit8u *)&prd.size);
size = prd.size & 0xfffe;
if (size == 0) {
size = 0x10000;
}
if (BX_PIDE_THIS s.bmdma[channel].cmd_rwcon) {
BX_DEBUG(("READ DMA to addr=0x%08x, size=0x%08x", prd.addr, size));
count = size - (BX_PIDE_THIS s.bmdma[channel].buffer_top - BX_PIDE_THIS s.bmdma[channel].buffer_idx);
while (count > 0) {
sector_size = count;
if (DEV_hd_bmdma_read_sector(channel, BX_PIDE_THIS s.bmdma[channel].buffer_top, &sector_size)) {
BX_PIDE_THIS s.bmdma[channel].buffer_top += sector_size;
count -= sector_size;
} else {
break;
}
};
if (count > 0) {
DEV_hd_bmdma_complete(channel);
return;
} else {
DEV_MEM_WRITE_PHYSICAL_DMA(prd.addr, size, BX_PIDE_THIS s.bmdma[channel].buffer_idx);
BX_PIDE_THIS s.bmdma[channel].buffer_idx += size;
}
} else {
BX_DEBUG(("WRITE DMA from addr=0x%08x, size=0x%08x", prd.addr, size));
DEV_MEM_READ_PHYSICAL_DMA(prd.addr, size, BX_PIDE_THIS s.bmdma[channel].buffer_top);
BX_PIDE_THIS s.bmdma[channel].buffer_top += size;
count = BX_PIDE_THIS s.bmdma[channel].buffer_top - BX_PIDE_THIS s.bmdma[channel].buffer_idx;
while (count > 511) {
if (DEV_hd_bmdma_write_sector(channel, BX_PIDE_THIS s.bmdma[channel].buffer_idx)) {
BX_PIDE_THIS s.bmdma[channel].buffer_idx += 512;
count -= 512;
} else {
break;
}
};
if (count >= 512) {
DEV_hd_bmdma_complete(channel);
return;
}
}
if (prd.size & 0x80000000) {
BX_PIDE_THIS s.bmdma[channel].status &= ~0x01;
BX_PIDE_THIS s.bmdma[channel].status |= 0x04;
BX_PIDE_THIS s.bmdma[channel].prd_current = 0;
DEV_hd_bmdma_complete(channel);
} else {
// To avoid buffer overflow reset buffer pointers and copy data if necessary
count = BX_PIDE_THIS s.bmdma[channel].buffer_top - BX_PIDE_THIS s.bmdma[channel].buffer_idx;
if (count > 0) {
memmove(BX_PIDE_THIS s.bmdma[channel].buffer, BX_PIDE_THIS s.bmdma[channel].buffer_idx, count);
}
BX_PIDE_THIS s.bmdma[channel].buffer_top = BX_PIDE_THIS s.bmdma[channel].buffer + count;
BX_PIDE_THIS s.bmdma[channel].buffer_idx = BX_PIDE_THIS s.bmdma[channel].buffer;
// Prepare for next PRD
BX_PIDE_THIS s.bmdma[channel].prd_current += 8;
DEV_MEM_READ_PHYSICAL(BX_PIDE_THIS s.bmdma[channel].prd_current, 4, (Bit8u *)&prd.addr);
DEV_MEM_READ_PHYSICAL(BX_PIDE_THIS s.bmdma[channel].prd_current+4, 4, (Bit8u *)&prd.size);
size = prd.size & 0xfffe;
if (size == 0) {
size = 0x10000;
}
bx_pc_system.activate_timer(BX_PIDE_THIS s.bmdma[channel].timer_index, (size >> 4) | 0x10, 0);
}
}
// static IO port read callback handler
// redirects to non-static class handler to avoid virtual functions
Bit32u bx_pci_ide_c::read_handler(void *this_ptr, Bit32u address, unsigned io_len)
{
#if !BX_USE_PIDE_SMF
bx_pci_ide_c *class_ptr = (bx_pci_ide_c *) this_ptr;
return class_ptr->read(address, io_len);
}
Bit32u bx_pci_ide_c::read(Bit32u address, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_PIDE_SMF
Bit8u offset, channel;
Bit32u value = 0xffffffff;
offset = address - BX_PIDE_THIS pci_bar[4].addr;
channel = (offset >> 3);
offset &= 0x07;
switch (offset) {
case 0x00:
value = BX_PIDE_THIS s.bmdma[channel].cmd_ssbm |
(BX_PIDE_THIS s.bmdma[channel].cmd_rwcon << 3);
BX_DEBUG(("BM-DMA read command register, channel %d, value = 0x%02x", channel, value));
break;
case 0x02:
value = BX_PIDE_THIS s.bmdma[channel].status;
BX_DEBUG(("BM-DMA read status register, channel %d, value = 0x%02x", channel, value));
break;
case 0x04:
value = BX_PIDE_THIS s.bmdma[channel].dtpr;
BX_DEBUG(("BM-DMA read DTP register, channel %d, value = 0x%08x", channel, value));
break;
}
return value;
}
// static IO port write callback handler
// redirects to non-static class handler to avoid virtual functions
void bx_pci_ide_c::write_handler(void *this_ptr, Bit32u address, Bit32u value, unsigned io_len)
{
#if !BX_USE_PIDE_SMF
bx_pci_ide_c *class_ptr = (bx_pci_ide_c *) this_ptr;
class_ptr->write(address, value, io_len);
}
void bx_pci_ide_c::write(Bit32u address, Bit32u value, unsigned io_len)
{
#else
UNUSED(this_ptr);
#endif // !BX_USE_PIDE_SMF
Bit8u offset, channel;
offset = address - BX_PIDE_THIS pci_bar[4].addr;
channel = (offset >> 3);
offset &= 0x07;
switch (offset) {
case 0x00:
BX_DEBUG(("BM-DMA write command register, channel %d, value = 0x%02x", channel, value));
BX_PIDE_THIS s.bmdma[channel].cmd_rwcon = (value >> 3) & 1;
if ((value & 0x01) && !BX_PIDE_THIS s.bmdma[channel].cmd_ssbm) {
BX_PIDE_THIS s.bmdma[channel].cmd_ssbm = 1;
BX_PIDE_THIS s.bmdma[channel].status |= 0x01;
BX_PIDE_THIS s.bmdma[channel].prd_current = BX_PIDE_THIS s.bmdma[channel].dtpr;
BX_PIDE_THIS s.bmdma[channel].buffer_top = BX_PIDE_THIS s.bmdma[channel].buffer;
BX_PIDE_THIS s.bmdma[channel].buffer_idx = BX_PIDE_THIS s.bmdma[channel].buffer;
bx_pc_system.activate_timer(BX_PIDE_THIS s.bmdma[channel].timer_index, 1000, 0);
} else if (!(value & 0x01) && BX_PIDE_THIS s.bmdma[channel].cmd_ssbm) {
BX_PIDE_THIS s.bmdma[channel].cmd_ssbm = 0;
BX_PIDE_THIS s.bmdma[channel].status &= ~0x01;
BX_PIDE_THIS s.bmdma[channel].data_ready = 0;
}
break;
case 0x02:
BX_PIDE_THIS s.bmdma[channel].status = (value & 0x60)
| (BX_PIDE_THIS s.bmdma[channel].status & 0x01)
| (BX_PIDE_THIS s.bmdma[channel].status & (~value & 0x06));
BX_DEBUG(("BM-DMA write status register, channel %d, value = 0x%02x", channel, value));
break;
case 0x04:
BX_PIDE_THIS s.bmdma[channel].dtpr = value & 0xfffffffc;
BX_DEBUG(("BM-DMA write DTP register, channel %d, value = 0x%08x", channel, value));
break;
}
}
// pci configuration space write callback handler
void bx_pci_ide_c::pci_write_handler(Bit8u address, Bit32u value, unsigned io_len)
{
if (((address >= 0x10) && (address < 0x20)) ||
((address > 0x23) && (address < 0x40)))
return;
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for (unsigned i=0; i<io_len; i++) {
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// Bit8u oldval = BX_PIDE_THIS pci_conf[address+i];
Bit8u value8 = (value >> (i*8)) & 0xFF;
switch (address+i) {
case 0x05:
case 0x06:
break;
case 0x04:
BX_PIDE_THIS pci_conf[address+i] = value8 & 0x05;
break;
default:
BX_PIDE_THIS pci_conf[address+i] = value8;
BX_DEBUG(("PIIX3 PCI IDE write register 0x%02x value 0x%02x", address+i,
value8));
}
}
}
#endif /* BX_SUPPORT_PCI */