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dingusppc/devices/common/scsi/scsihd.cpp
joevt 45a9d45e3f Add SCSI devices. 
scsibus has a new method attach_scsi_devices which is used by all machines to populate a SCSI bus with one or more hard drives or CD-ROM drives.

HDDs are specified by the hdd_img property.
CDs are specified by the cdr_img property.
Multiple images are delimited by a colon :

attach_scsi_devices is called by the scsi controller after the scsi controller has attached itself to the scsi bus.
The bus suffix is applied to the property name.
Curio has no suffix so it will use hdd_img and cdr_img properties.
Mesh is expected to have a suffix of 2 so it will use hdd_img2 and cdr_img2 properties.

HDDs will skip SCSI ID 3 unless 7 HDDs are added, in which case, the seventh HDD will use ID 3.
CDs will start at SCSI ID 3, go to 7, then down to 0.
SCSI IDs are skipped if a device is already using that SCSI ID.

ScsiCdrom and ScsiHD no longer use REGISTER_DEVICE or DeviceDescription or PropMap which is normal for devices that can have multiple instances.
2024-03-14 19:12:11 -07:00

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/*
DingusPPC - The Experimental PowerPC Macintosh emulator
Copyright (C) 2018-24 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 Generic SCSI Hard Disk emulation. */
#include <core/timermanager.h>
#include <devices/common/scsi/scsi.h>
#include <devices/common/scsi/scsihd.h>
#include <devices/deviceregistry.h>
#include <loguru.hpp>
#include <machines/machineproperties.h>
#include <memaccess.h>
#include <fstream>
#include <cstring>
using namespace std;
ScsiHardDisk::ScsiHardDisk(std::string name, int my_id) : ScsiDevice(name, my_id) {
}
void ScsiHardDisk::insert_image(std::string filename) {
//We don't want to store everything in memory, but
//we want to keep the hard disk available.
if (!this->disk_img.open(filename))
ABORT_F("%s: could not open image file %s", this->name.c_str(), filename.c_str());
this->img_size = this->disk_img.size();
uint64_t tb = (this->img_size + this->sector_size - 1) / this->sector_size;
this->total_blocks = static_cast<int>(tb);
if (this->total_blocks < 0 || tb != this->total_blocks) {
ABORT_F("ScsiHardDisk: file size is too large");
}
}
void ScsiHardDisk::process_command() {
uint32_t lba = 0;
uint16_t transfer_len = 0;
uint16_t alloc_len = 0;
uint8_t page_code = 0;
uint8_t subpage_code = 0;
this->pre_xfer_action = nullptr;
this->post_xfer_action = nullptr;
// assume successful command execution
this->status = ScsiStatus::GOOD;
this->msg_buf[0] = ScsiMessage::COMMAND_COMPLETE;
uint8_t* cmd = this->cmd_buf;
switch (cmd[0]) {
case ScsiCommand::TEST_UNIT_READY:
test_unit_ready();
break;
case ScsiCommand::REWIND:
this->illegal_command(cmd);
break;
case ScsiCommand::REQ_SENSE:
alloc_len = cmd[4];
req_sense(alloc_len);
break;
case ScsiCommand::FORMAT_UNIT:
this->format();
break;
case ScsiCommand::INQUIRY:
this->inquiry();
break;
case ScsiCommand::READ_BLK_LIMITS:
this->illegal_command(cmd);
break;
case ScsiCommand::READ_6:
lba = ((cmd[1] & 0x1F) << 16) + (cmd[2] << 8) + cmd[3];
transfer_len = cmd[4];
read(lba, transfer_len, 6);
break;
case ScsiCommand::READ_10:
lba = (cmd[2] << 24) + (cmd[3] << 16) + (cmd[4] << 8) + cmd[5];
transfer_len = (cmd[7] << 8) + cmd[8];
read(lba, transfer_len, 10);
break;
case ScsiCommand::WRITE_6:
lba = ((cmd[1] & 0x1F) << 16) + (cmd[2] << 8) + cmd[3];
transfer_len = cmd[4];
write(lba, transfer_len, 6);
break;
case ScsiCommand::WRITE_10:
lba = (cmd[2] << 24) + (cmd[3] << 16) + (cmd[4] << 8) + cmd[5];
transfer_len = (cmd[7] << 8) + cmd[8];
write(lba, transfer_len, 10);
this->switch_phase(ScsiPhase::DATA_OUT);
break;
case ScsiCommand::SEEK_6:
this->illegal_command(cmd);
break;
case ScsiCommand::VERIFY_6:
this->illegal_command(cmd);
break;
case ScsiCommand::MODE_SELECT_6:
mode_select_6(cmd[4]);
break;
case ScsiCommand::RELEASE_UNIT:
this->illegal_command(cmd);
break;
case ScsiCommand::ERASE_6:
this->illegal_command(cmd);
break;
case ScsiCommand::MODE_SENSE_6:
this->mode_sense_6();
break;
case ScsiCommand::START_STOP_UNIT:
this->illegal_command(cmd);
break;
case ScsiCommand::DIAG_RESULTS:
this->illegal_command(cmd);
break;
case ScsiCommand::SEND_DIAGS:
this->illegal_command(cmd);
break;
case ScsiCommand::READ_CAPACITY_10:
this->read_capacity_10();
break;
case ScsiCommand::VERIFY_10:
this->illegal_command(cmd);
break;
case ScsiCommand::READ_BUFFER:
read_buffer();
break;
case ScsiCommand::MODE_SENSE_10:
this->illegal_command(cmd);
break;
case ScsiCommand::READ_12:
this->illegal_command(cmd);
break;
// CD-ROM specific commands
case ScsiCommand::READ_TOC:
this->illegal_command(cmd);
break;
case ScsiCommand::SET_CD_SPEED:
this->illegal_command(cmd);
break;
case ScsiCommand::READ_CD:
this->illegal_command(cmd);
break;
default:
this->illegal_command(cmd);
}
}
bool ScsiHardDisk::prepare_data() {
switch (this->cur_phase) {
case ScsiPhase::DATA_IN:
this->data_ptr = (uint8_t*)this->data_buf;
this->data_size = this->bytes_out;
break;
case ScsiPhase::DATA_OUT:
this->data_ptr = (uint8_t*)this->data_buf;
this->data_size = 0;
break;
case ScsiPhase::STATUS:
if (!error) {
this->data_buf[0] = ScsiStatus::GOOD;
} else {
this->data_buf[0] = ScsiStatus::CHECK_CONDITION;
}
this->data_size = 1;
break;
case ScsiPhase::MESSAGE_IN:
this->data_buf[0] = this->msg_code;
this->data_size = 1;
break;
default:
LOG_F(WARNING, "%s: unexpected phase in prepare_data", this->name.c_str());
return false;
}
return true;
}
int ScsiHardDisk::test_unit_ready() {
this->switch_phase(ScsiPhase::STATUS);
return ScsiError::NO_ERROR;
}
int ScsiHardDisk::req_sense(uint16_t alloc_len) {
if (alloc_len != 252) {
LOG_F(WARNING, "%s: inappropriate Allocation Length: %d", this->name.c_str(),
alloc_len);
}
return ScsiError::NO_ERROR; // placeholder - no sense
}
void ScsiHardDisk::inquiry() {
int page_num = cmd_buf[2];
int alloc_len = cmd_buf[4];
if (page_num) {
ABORT_F("%s: invalid page number in INQUIRY", this->name.c_str());
}
if (alloc_len >= 36) {
this->data_buf[0] = 0; // device type: Direct-access block device
this->data_buf[1] = 0; // non-removable media
this->data_buf[2] = 2; // ANSI version: SCSI-2
this->data_buf[3] = 1; // response data format
this->data_buf[4] = 0; // additional length
this->data_buf[5] = 0;
this->data_buf[6] = 0;
this->data_buf[7] = 0x18; // supports synchronous xfers and linked commands
std::memcpy(data_buf + 8, vendor_info, 8);
std::memcpy(data_buf + 16, prod_info, 16);
std::memcpy(data_buf + 32, rev_info, 4);
this->bytes_out = 36;
this->switch_phase(ScsiPhase::DATA_IN);
}
else {
LOG_F(WARNING, "%s: allocation length too small: %d", this->name.c_str(),
alloc_len);
}
}
int ScsiHardDisk::send_diagnostic() {
return 0x0;
}
void ScsiHardDisk::mode_select_6(uint8_t param_len) {
if (!param_len) {
this->switch_phase(ScsiPhase::STATUS);
return;
}
this->incoming_size = param_len;
std::memset(&this->data_buf[0], 0xDD, this->sector_size);
this->post_xfer_action = [this]() {
// TODO: parse the received mode parameter list here
};
this->switch_phase(ScsiPhase::DATA_OUT);
}
static char Apple_Copyright_Page_Data[] = "APPLE COMPUTER, INC ";
void ScsiHardDisk::mode_sense_6() {
uint8_t page_code = this->cmd_buf[2] & 0x3F;
uint8_t page_ctrl = this->cmd_buf[2] >> 6;
uint8_t alloc_len = this->cmd_buf[4];
this->data_buf[ 0] = 13; // initial data size
this->data_buf[ 1] = 0; // medium type
this->data_buf[ 2] = 0; // medium is write enabled
this->data_buf[ 3] = 8; // block description length
this->data_buf[ 4] = 0; // density code
this->data_buf[ 5] = (this->total_blocks >> 16) & 0xFFU;
this->data_buf[ 6] = (this->total_blocks >> 8) & 0xFFU;
this->data_buf[ 7] = (this->total_blocks ) & 0xFFU;
WRITE_DWORD_BE_A(&this->data_buf[8], this->sector_size);
this->data_buf[12] = page_code;
switch(page_code) {
case 1: // read-write error recovery page
this->data_buf[13] = 6; // data size - 1
std::memset(&this->data_buf[14], 0, 6);
break;
case 3: // Format device page
this->data_buf[13] = 22; // data size - 1
std::memset(&this->data_buf[14], 0, 22);
// default values taken from Empire 540/1080S manual
this->data_buf[15] = 6; // tracks per defect zone
this->data_buf[17] = 1; // alternate sectors per zone
this->data_buf[23] = 92; // sectors per track in the outermost zone
this->data_buf[27] = 1; // interleave factor
this->data_buf[29] = 19; // track skew factor
this->data_buf[31] = 25; // cylinder skew factor
this->data_buf[32] = 0x80; // SSEC=1, HSEC=0, RMB=0, SURF=0, INS=0
WRITE_WORD_BE_U(&this->data_buf[24], 512); // bytes per sector
break;
case 0x30: // Copyright page for Apple certified drives
this->data_buf[13] = 22; // data size - 1
std::memcpy(&this->data_buf[14], Apple_Copyright_Page_Data, 22);
break;
default:
ABORT_F("%s: unsupported page %d in MODE_SENSE_6", this->name.c_str(), page_code);
};
// adjust for overall mode sense data length
this->data_buf[0] += this->data_buf[13] + 1;
this->bytes_out = std::min(alloc_len, (uint8_t)this->data_buf[0]);
this->switch_phase(ScsiPhase::DATA_IN);
}
void ScsiHardDisk::read_capacity_10() {
uint32_t lba = READ_DWORD_BE_U(&this->cmd_buf[2]);
if (this->cmd_buf[1] & 1) {
ABORT_F("%s: RelAdr bit set in READ_CAPACITY_10", this->name.c_str());
}
if (!(this->cmd_buf[8] & 1) && lba) {
LOG_F(ERROR, "%s: non-zero LBA for PMI=0", this->name.c_str());
this->status = ScsiStatus::CHECK_CONDITION;
this->sense = ScsiSense::ILLEGAL_REQ;
this->switch_phase(ScsiPhase::STATUS);
return;
}
uint32_t last_lba = this->total_blocks - 1;
uint32_t blk_len = this->sector_size;
WRITE_DWORD_BE_A(&data_buf[0], last_lba);
WRITE_DWORD_BE_A(&data_buf[4], blk_len);
this->bytes_out = 8;
this->switch_phase(ScsiPhase::DATA_IN);
}
void ScsiHardDisk::format() {
LOG_F(WARNING, "%s: attempt to format the disk!", this->name.c_str());
if (this->cmd_buf[1] & 0x10)
ABORT_F("%s: defect list isn't supported yet", this->name.c_str());
TimerManager::get_instance()->add_oneshot_timer(NS_PER_SEC, [this]() {
this->switch_phase(ScsiPhase::STATUS);
});
}
void ScsiHardDisk::read(uint32_t lba, uint16_t transfer_len, uint8_t cmd_len) {
uint32_t transfer_size = transfer_len;
std::memset(data_buf, 0, sizeof(data_buf));
if (cmd_len == 6 && transfer_len == 0) {
transfer_size = 256;
}
transfer_size *= this->sector_size;
uint64_t device_offset = (uint64_t)lba * this->sector_size;
this->disk_img.read(data_buf, device_offset, transfer_size);
this->bytes_out = transfer_size;
this->switch_phase(ScsiPhase::DATA_IN);
}
void ScsiHardDisk::write(uint32_t lba, uint16_t transfer_len, uint8_t cmd_len) {
uint32_t transfer_size = transfer_len;
if (cmd_len == 6 && transfer_len == 0) {
transfer_size = 256;
}
transfer_size *= this->sector_size;
uint64_t device_offset = (uint64_t)lba * this->sector_size;
this->incoming_size = transfer_size;
this->post_xfer_action = [this, device_offset]() {
this->disk_img.write(this->data_buf, device_offset, this->incoming_size);
};
}
void ScsiHardDisk::read_buffer() {
uint8_t mode = this->cmd_buf[1];
uint32_t alloc_len = (this->cmd_buf[6] << 24) | (this->cmd_buf[7] << 16) |
this->cmd_buf[8];
switch(mode) {
case 0: // Combined header and data mode
WRITE_DWORD_BE_A(&this->data_buf[0], 0x10000); // report buffer size of 64K
break;
default:
ABORT_F("%s: unsupported mode %d in READ_BUFFER", this->name.c_str(), mode);
}
this->bytes_out = alloc_len;
this->switch_phase(ScsiPhase::DATA_IN);
}
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