dingusppc/devices/common/ata/atapicdrom.cpp

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/*
DingusPPC - The Experimental PowerPC Macintosh emulator
Copyright (C) 2018-23 divingkatae and maximum
(theweirdo) spatium
(Contact divingkatae#1017 or powermax#2286 on Discord for more info)
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 3 of the License, or
(at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
/** @file ATAPI CDROM implementation. */
#include <devices/common/ata/atadefs.h>
#include <devices/common/ata/atapicdrom.h>
#include <devices/common/ata/idechannel.h>
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#include <devices/common/scsi/scsi.h> // ATAPI CDROM reuses SCSI commands (sic!)
#include <devices/deviceregistry.h>
#include <machines/machinebase.h>
#include <machines/machineproperties.h>
#include <memaccess.h>
#include <string>
using namespace ata_interface;
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AtapiCdrom::AtapiCdrom(std::string name) : CdromDrive(), AtapiBaseDevice(name) {
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this->set_error_callback(
[this](uint8_t sense_key, uint8_t asc) {
this->status_error(sense_key, asc);
}
);
}
int AtapiCdrom::device_postinit() {
std::string cdr_config = GET_STR_PROP("cdr_config");
if (cdr_config.empty()) {
LOG_F(ERROR, "%s: cdr_config property is empty", this->name.c_str());
return -1;
}
std::string bus_id;
uint32_t dev_num;
parse_device_path(cdr_config, bus_id, dev_num);
auto bus_obj = dynamic_cast<IdeChannel*>(gMachineObj->get_comp_by_name(bus_id));
bus_obj->register_device(dev_num, this);
std::string cdr_image_path = GET_STR_PROP("cdr_img");
if (!cdr_image_path.empty()) {
this->insert_image(cdr_image_path);
}
return 0;
}
void AtapiCdrom::perform_packet_command() {
uint32_t lba, xfer_len;
this->r_status |= BSY;
this->sector_areas = 0;
if (this->doing_sector_areas) {
this->doing_sector_areas = false;
LOG_F(WARNING, "%s: doing_sector_areas reset", this->name.c_str());
}
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switch (this->cmd_pkt[0]) {
case ScsiCommand::TEST_UNIT_READY:
if (this->medium_present())
this->status_good();
else
this->status_error(ScsiSense::NOT_READY, ScsiError::MEDIUM_NOT_PRESENT);
this->present_status();
break;
case ScsiCommand::REQ_SENSE:
xfer_len = this->request_sense(this->data_buf, this->sense_key, this->asc, this->ascq);
if (!xfer_len) {
this->present_status();
} else {
this->xfer_cnt = std::min((uint32_t)this->r_byte_count, xfer_len);
this->data_ptr = (uint16_t*)this->data_buf;
this->status_good();
this->data_out_phase();
}
break;
case ScsiCommand::INQUIRY:
this->xfer_cnt = this->inquiry(this->cmd_pkt, this->data_buf);
this->r_byte_count = this->xfer_cnt;
this->data_ptr = (uint16_t*)this->data_buf;
this->status_good();
this->data_out_phase();
break;
case ScsiCommand::START_STOP_UNIT:
if ((this->cmd_pkt[4] & 3) == 2) {
LOG_F(WARNING, "CD-ROM eject requested");
}
this->status_good();
this->present_status();
break;
case ScsiCommand::PREVENT_ALLOW_MEDIUM_REMOVAL:
LOG_F(INFO, "%s: medium removal %s", this->name.c_str(),
this->cmd_pkt[4] & 1 ? "prevented" : "allowed");
this->status_good();
this->present_status();
break;
case ScsiCommand::READ_CAPACITY_10:
this->xfer_cnt = this->report_capacity(this->data_buf);
this->r_byte_count = this->xfer_cnt;
this->data_ptr = (uint16_t*)this->data_buf;
this->status_good();
this->data_out_phase();
break;
case ScsiCommand::READ_TOC:
this->status_good();
xfer_len = this->read_toc(this->cmd_pkt, this->data_buf);
if (!xfer_len) {
this->present_status();
} else {
this->xfer_cnt = std::min((uint32_t)this->r_byte_count, xfer_len);
this->data_ptr = (uint16_t*)this->data_buf;
this->data_out_phase();
}
break;
case ScsiCommand::MODE_SENSE_10:
this->xfer_cnt = this->mode_sense_ex(this->cmd_pkt, this->data_buf);
if (!this->xfer_cnt) {
this->present_status();
} else {
this->r_byte_count = this->xfer_cnt;
this->data_ptr = (uint16_t*)this->data_buf;
this->status_good();
this->data_out_phase();
}
break;
case ScsiCommand::READ_6:
lba = this->cmd_pkt[1] << 16 | READ_WORD_BE_U(&this->cmd_pkt[2]);
xfer_len = this->cmd_pkt[4];
if (this->r_features & ATAPI_Features::DMA) {
LOG_F(WARNING, "ATAPI DMA transfer requsted");
}
this->set_fpos(lba);
this->xfer_cnt = this->read_begin(xfer_len, this->r_byte_count);
this->r_byte_count = this->xfer_cnt;
this->data_ptr = (uint16_t*)this->data_cache.get();
this->status_good();
this->data_out_phase();
break;
case ScsiCommand::READ_10:
lba = READ_DWORD_BE_U(&this->cmd_pkt[2]);
xfer_len = READ_WORD_BE_U(&this->cmd_pkt[7]);
if (this->r_features & ATAPI_Features::DMA) {
LOG_F(WARNING, "ATAPI DMA transfer requsted");
}
this->set_fpos(lba);
this->xfer_cnt = this->read_begin(xfer_len, this->r_byte_count);
this->r_byte_count = this->xfer_cnt;
this->data_ptr = (uint16_t*)this->data_cache.get();
this->status_good();
this->data_out_phase();
break;
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case ScsiCommand::READ_12:
lba = READ_DWORD_BE_U(&this->cmd_pkt[2]);
xfer_len = READ_DWORD_BE_U(&this->cmd_pkt[6]);
if (this->r_features & ATAPI_Features::DMA) {
LOG_F(WARNING, "ATAPI DMA transfer requsted");
}
this->set_fpos(lba);
this->xfer_cnt = this->read_begin(xfer_len, this->r_byte_count);
this->r_byte_count = this->xfer_cnt;
this->data_ptr = (uint16_t*)this->data_cache.get();
this->status_good();
this->data_out_phase();
break;
case ScsiCommand::SET_CD_SPEED:
LOG_F(INFO, "%s: speed set to %d kBps", this->name.c_str(),
READ_WORD_BE_U(&this->cmd_pkt[2]));
this->status_good();
this->present_status();
break;
case ScsiCommand::READ_CD:
{
lba = READ_DWORD_BE_U(&this->cmd_pkt[2]);
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xfer_len = (this->cmd_pkt[6] << 16) | READ_WORD_BE_U(&this->cmd_pkt[7]);
if (this->cmd_pkt[1] || (this->cmd_pkt[9] & ~0xf8) || ((this->cmd_pkt[9] & 0xf8) == 0) || this->cmd_pkt[10])
LOG_F(WARNING, "%s: unsupported READ_CD params: %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X %02X",
this->name.c_str(),
this->cmd_pkt[0], this->cmd_pkt[1], this->cmd_pkt[2], this->cmd_pkt[3], this->cmd_pkt[4], this->cmd_pkt[5],
this->cmd_pkt[6], this->cmd_pkt[7], this->cmd_pkt[8], this->cmd_pkt[9], this->cmd_pkt[10], this->cmd_pkt[11]
);
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if (this->r_features & ATAPI_Features::DMA) {
LOG_F(WARNING, "ATAPI DMA transfer requsted");
}
this->set_fpos(lba);
this->sector_areas = cmd_pkt[9];
this->doing_sector_areas = true;
this->current_block = lba;
this->current_block_byte = 0;
int bytes_prolog = 0;
int bytes_data = 0;
int bytes_epilog = 0;
// For Mode 1 CD-ROMs:
if (this->sector_areas & 0x80) bytes_prolog += 12; // Sync
if (this->sector_areas & 0x20) bytes_prolog += 4; // Header
if (this->sector_areas & 0x40) bytes_prolog += 0; // SubHeader
if (this->sector_areas & 0x10) bytes_data += 2048; // User
if (this->sector_areas & 0x08) bytes_epilog += 288; // Auxiliary
if (this->sector_areas & 0x02) bytes_epilog += 294; // ErrorFlags
if (this->sector_areas & 0x01) bytes_epilog += 96; // SubChannel
int bytes_per_block = bytes_prolog + bytes_data + bytes_epilog;
int disk_image_byte_count;
if (bytes_per_block == 0) {
disk_image_byte_count = 0xffff;
}
else {
disk_image_byte_count = (this->r_byte_count / bytes_per_block) * this->block_size; // whole blocks
if ((this->r_byte_count % bytes_per_block) > bytes_prolog) { // partial block
int disk_image_byte_count_partial_block = (this->r_byte_count % bytes_per_block) - bytes_prolog; // remove prolog from partial block
if (disk_image_byte_count_partial_block > this->block_size) { // partial block includes some epilog?
disk_image_byte_count_partial_block = this->block_size; // // remove epilog from partial block
}
// add partial block
disk_image_byte_count += disk_image_byte_count_partial_block;
}
}
int disk_image_bytes_received = this->read_begin(xfer_len, disk_image_byte_count);
int bytes_received = (disk_image_bytes_received / this->block_size) * bytes_per_block + bytes_prolog + (disk_image_bytes_received % this->block_size); // whole blocks + prolog + partial block
if (bytes_received > this->r_byte_count) { // if partial epilog or partial prolog
bytes_received = this->r_byte_count; // confine to r_byte_count
}
this->r_byte_count = bytes_received;
this->xfer_cnt = bytes_received;
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this->data_ptr = (uint16_t*)this->data_cache.get();
this->status_good();
this->data_out_phase();
break;
}
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default:
LOG_F(ERROR, "%s: unsupported ATAPI command 0x%X", this->name.c_str(),
this->cmd_pkt[0]);
this->status_error(ScsiSense::ILLEGAL_REQ, ScsiError::INVALID_CMD);
this->present_status();
}
}
int AtapiCdrom::request_data() {
// continuation of READ_CD above
this->data_ptr = (uint16_t*)this->data_cache.get();
this->xfer_cnt = this->read_more();
return this->xfer_cnt;
}
static const uint8_t mode_1_sync[] = { 0x00, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0xff, 0x00 };
uint16_t AtapiCdrom::get_data() {
uint16_t ret_data;
if (doing_sector_areas) {
// For Mode 1 CD-ROMs:
int area_start;
int area_end = 0;
ret_data = 0xffff;
if (this->sector_areas & 0x80) {
area_start = area_end;
area_end += 12; // Sync
if (this->current_block_byte >= area_start && this->current_block_byte < area_end) {
ret_data = BYTESWAP_16(*((uint16_t*)(&mode_1_sync[current_block_byte - area_start])));
}
}
if (this->sector_areas & 0x20) {
area_start = area_end;
area_end += 4; // Header
if (this->current_block_byte >= area_start && this->current_block_byte < area_end) {
AddrMsf msf = lba_to_msf(this->current_block + 150);
uint8_t header[4];
header[0] = msf.min;
header[1] = msf.sec;
header[2] = msf.frm;
header[3] = 0x01; // Mode 1
ret_data = BYTESWAP_16(*((uint16_t*)(&header[current_block_byte - area_start])));
}
}
if (this->sector_areas & 0x40) {
area_start = area_end;
area_end += 0; // SubHeader
if (this->current_block_byte >= area_start && this->current_block_byte < area_end) {
ret_data = 0;
}
}
if (this->sector_areas & 0x10) {
area_start = area_end;
area_end += 2048; // User
if (this->current_block_byte >= area_start && this->current_block_byte < area_end) {
ret_data = AtaBaseDevice::get_data();
}
}
if (this->sector_areas & 0x08) {
area_start = area_end;
area_end += 288; // Auxiliary
if (this->current_block_byte >= area_start && this->current_block_byte < area_end) {
ret_data = 0;
}
}
if (this->sector_areas & 0x02) {
area_start = area_end;
area_end += 294; // ErrorFlags
if (this->current_block_byte >= area_start && this->current_block_byte < area_end) {
ret_data = 0;
}
}
if (this->sector_areas & 0x01) {
area_start = area_end;
area_end += 96; // SubChannel
if (this->current_block_byte >= area_start && this->current_block_byte < area_end) {
ret_data = 0;
}
}
current_block_byte += 2;
if (current_block_byte >= area_end)
current_block_byte = 0;
}
else {
ret_data = AtaBaseDevice::get_data();
}
return ret_data;
}
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void AtapiCdrom::status_good() {
this->status_expected = true;
this->r_error = 0;
this->sense_key = 0;
this->r_status &= ~ATA_Status::ERR;
}
void AtapiCdrom::status_error(uint8_t sense_key, uint8_t asc) {
this->status_expected = true;
this->sense_key = sense_key;
this->asc = asc;
this->r_error = (sense_key << 4) | ATA_Error::ABRT;
this->r_status |= ATA_Status::ERR;
}
static const PropMap AtapiCdromProperties = {
{"cdr_img", new StrProperty("")},
};
static const DeviceDescription AtapiCdromDescriptor =
{AtapiCdrom::create, {}, AtapiCdromProperties};
REGISTER_DEVICE(AtapiCdrom, AtapiCdromDescriptor);