dingusppc/devices/common/scsi/scsi_hd.cpp

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/*
DingusPPC - The Experimental PowerPC Macintosh emulator
Copyright (C) 2018-22 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 <devices/deviceregistry.h>
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#include <devices/common/scsi/scsi.h>
#include <devices/common/scsi/scsi_hd.h>
#include <machines/machinebase.h>
#include <machines/machineproperties.h>
#include <loguru.hpp>
#include <fstream>
#include <limits>
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#include <cstring>
#include <stdio.h>
#include <sys/stat.h>
#define sector_size 512
using namespace std;
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ScsiHardDisk::ScsiHardDisk(int my_id) : ScsiDevice(my_id) {
supports_types(HWCompType::SCSI_DEV);
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}
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.
this->hdd_img.open(filename, ios::out | ios::in | ios::binary);
struct stat stat_buf;
int rc = stat(filename.c_str(), &stat_buf);
if (!rc) {
this->img_size = stat_buf.st_size;
} else {
ABORT_F("ScsiHardDisk: could not determine file size using stat()");
}
this->hdd_img.seekg(0, std::ios_base::beg);
}
void ScsiHardDisk::process_command() {
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uint32_t lba = 0;
uint16_t transfer_len = 0;
uint16_t alloc_len = 0;
uint8_t param_len = 0;
uint8_t page_code = 0;
uint8_t subpage_code = 0;
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this->pre_xfer_action = nullptr;
this->post_xfer_action = nullptr;
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// assume successful command execution
this->status = ScsiStatus::GOOD;
uint8_t* cmd = this->cmd_buf;
if (cmd[0] != 0 && cmd[0] != 8 && cmd[0] != 0xA && cmd[0] != 0x28 && cmd[0] != 0x2A) {
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ABORT_F("SCSI-HD: untested command 0x%X", cmd[0]);
}
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switch (cmd[0]) {
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case ScsiCommand::TEST_UNIT_READY:
test_unit_ready();
break;
case ScsiCommand::REWIND:
rewind();
break;
case ScsiCommand::REQ_SENSE:
alloc_len = cmd[4];
req_sense(alloc_len);
break;
case ScsiCommand::INQUIRY:
alloc_len = (cmd[3] << 8) + cmd[4];
inquiry(alloc_len);
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);
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this->switch_phase(ScsiPhase::DATA_OUT);
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break;
case ScsiCommand::SEEK_6:
lba = ((cmd[1] & 0x1F) << 16) + (cmd[2] << 8) + cmd[3];
seek(lba);
break;
case ScsiCommand::MODE_SELECT_6:
param_len = cmd[4];
mode_select_6(param_len);
break;
case ScsiCommand::MODE_SENSE_6:
page_code = cmd[2] & 0x1F;
subpage_code = cmd[3];
alloc_len = cmd[4];
mode_sense_6(page_code, subpage_code, alloc_len);
break;
case ScsiCommand::READ_CAPAC_10:
read_capacity_10();
break;
default:
LOG_F(WARNING, "SCSI_HD: unrecognized command: %x", cmd[0]);
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}
}
bool ScsiHardDisk::prepare_data() {
cur_buf_pos = 0;
switch (this->cur_phase) {
case ScsiPhase::DATA_IN:
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this->data_ptr = (uint8_t*)this->img_buffer;
this->data_size = this->cur_buf_cnt;
break;
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case ScsiPhase::DATA_OUT:
this->data_ptr = (uint8_t*)this->img_buffer;
this->data_size = 0;
break;
case ScsiPhase::STATUS:
if (!error) {
this->img_buffer[0] = ScsiStatus::GOOD;
} else {
this->img_buffer[0] = ScsiStatus::CHECK_CONDITION;
}
this->cur_buf_cnt = 1;
break;
case ScsiPhase::MESSAGE_IN:
this->img_buffer[0] = this->msg_code;
this->cur_buf_cnt = 1;
break;
default:
LOG_F(WARNING, "SCSI_HD: unexpected phase in prepare_data");
return false;
}
return true;
}
int ScsiHardDisk::test_unit_ready() {
this->switch_phase(ScsiPhase::STATUS);
return ScsiError::NO_ERROR;
}
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int ScsiHardDisk::req_sense(uint16_t alloc_len) {
if (alloc_len != 252) {
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LOG_F(WARNING, "Inappropriate Allocation Length: %d", alloc_len);
}
return ScsiError::NO_ERROR; // placeholder - no sense
}
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void ScsiHardDisk::inquiry(uint16_t alloc_len) {
if (alloc_len >= 48) {
uint8_t empty_filler[1 << 17] = {0x0};
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std::memcpy(img_buffer, empty_filler, (1 << 17));
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img_buffer[2] = 0x1;
img_buffer[3] = 0x2;
img_buffer[4] = 0x31;
img_buffer[7] = 0x1C;
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std::memcpy(img_buffer + 8, vendor_info, 8);
std::memcpy(img_buffer + 16, prod_info, 16);
std::memcpy(img_buffer + 32, rev_info, 8);
std::memcpy(img_buffer + 40, serial_info, 8);
}
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else {
LOG_F(WARNING, "Inappropriate Allocation Length: %d", alloc_len);
}
}
int ScsiHardDisk::send_diagnostic() {
return 0x0;
}
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int ScsiHardDisk::mode_select_6(uint8_t param_len) {
if (param_len == 0) {
return 0x0;
}
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else {
LOG_F(WARNING, "Mode Select calling for param length of: %d", param_len);
return param_len;
}
}
void ScsiHardDisk::mode_sense_6(uint8_t page_code, uint8_t subpage_code, uint8_t alloc_len) {
LOG_F(WARNING, "Page Code %d; Subpage Code: %d", page_code, subpage_code);
}
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void ScsiHardDisk::read_capacity_10() {
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uint32_t sec_limit = (this->img_size >> 9);
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std::memset(img_buffer, 0, sizeof(img_buffer));
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img_buffer[0] = (sec_limit >> 24) & 0xFF;
img_buffer[1] = (sec_limit >> 16) & 0xFF;
img_buffer[2] = (sec_limit >> 8) & 0xFF;
img_buffer[3] = sec_limit & 0xFF;
img_buffer[6] = 2;
}
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void ScsiHardDisk::format() {
}
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void ScsiHardDisk::read(uint32_t lba, uint16_t transfer_len, uint8_t cmd_len) {
uint32_t transfer_size = transfer_len;
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std::memset(img_buffer, 0, sizeof(img_buffer));
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if (cmd_len == 6)
transfer_size = (transfer_len == 0) ? 256 : transfer_len;
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transfer_size *= sector_size;
uint64_t device_offset = lba * sector_size;
this->hdd_img.seekg(device_offset, this->hdd_img.beg);
this->hdd_img.read(img_buffer, transfer_size);
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this->cur_buf_cnt = transfer_size;
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this->msg_buf[0] = ScsiMessage::COMMAND_COMPLETE;
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this->switch_phase(ScsiPhase::DATA_IN);
}
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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_size = (transfer_len == 0) ? 256 : transfer_len;
transfer_size *= sector_size;
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uint64_t device_offset = lba * sector_size;
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this->incoming_size = transfer_size;
this->hdd_img.seekg(device_offset, this->hdd_img.beg);
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this->post_xfer_action = [this]() {
this->hdd_img.write(this->img_buffer, this->incoming_size);
};
}
void ScsiHardDisk::seek(uint32_t lba) {
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uint64_t device_offset = lba * sector_size;
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this->hdd_img.seekg(device_offset, this->hdd_img.beg);
}
void ScsiHardDisk::rewind() {
this->hdd_img.seekg(0, this->hdd_img.beg);
}
static const PropMap SCSI_HD_Properties = {
{"hdd_img", new StrProperty("")},
{"hdd_wr_prot", new BinProperty(0)},
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};
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static const DeviceDescription SCSI_HD_Descriptor =
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{ScsiHardDisk::create, {}, SCSI_HD_Properties};
REGISTER_DEVICE(ScsiHD, SCSI_HD_Descriptor);