RASCSI/cpp/devices/scsi_daynaport.h
Daniel Markstedt 52c2aa474f
Rebrand project to PiSCSI (#1016)
* Rebrand project to PiSCSI
- rascsi ->piscsi
- rasctl -> scsictl
- rasdump -> scsidump
- ras* -> piscsi* (rasutil -> piscsi_util, etc.)

* Refined the formatting and wording of the app startup banner
* Kept some references to rascsi and rasctl where backwards compatibility is concerned
* Point to the new github repo URL

Co-authored-by: nucleogenic <nr@nucleogenic.com>
Co-authored-by: Uwe Seimet <Uwe.Seimet@seimet.de>
2022-12-05 09:58:23 -08:00

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//---------------------------------------------------------------------------
//
// SCSI Target Emulator PiSCSI
// for Raspberry Pi
//
// Copyright (C) 2020 akuker
// Copyright (C) 2014-2020 GIMONS
// Copyright (C) 2001-2006 (ytanaka@ipc-tokai.or.jp)
//
// Licensed under the BSD 3-Clause License.
// See LICENSE file in the project root folder.
//
// [ Emulation of the DaynaPort SCSI Link Ethernet interface ]
//
// This design is derived from the SLINKCMD.TXT file, as well as David Kuder's
// Tiny SCSI Emulator
// - SLINKCMD: http://www.bitsavers.org/pdf/apple/scsi/dayna/daynaPORT/SLINKCMD.TXT
// - Tiny SCSI : https://hackaday.io/project/18974-tiny-scsi-emulator
//
// Special thanks to @PotatoFi for loaning me his Farallon EtherMac for
// this development. (Farallon's EtherMac is a re-branded DaynaPort
// SCSI/Link-T).
//
// This does NOT include the file system functionality that is present
// in the Sharp X68000 host bridge.
//
// Note: This requires a DaynaPort SCSI Link driver.
//---------------------------------------------------------------------------
#pragma once
#include "interfaces/byte_writer.h"
#include "primary_device.h"
#include "ctapdriver.h"
#include <string>
#include <unordered_map>
#include <array>
//===========================================================================
//
// DaynaPort SCSI Link
//
//===========================================================================
class SCSIDaynaPort : public PrimaryDevice, public ByteWriter
{
public:
explicit SCSIDaynaPort(int);
~SCSIDaynaPort() override = default;
bool Init(const unordered_map<string, string>&) override;
// Commands
vector<uint8_t> InquiryInternal() const override;
int Read(const vector<int>&, vector<uint8_t>&, uint64_t);
bool WriteBytes(const vector<int>&, vector<uint8_t>&, uint32_t) override;
int RetrieveStats(const vector<int>&, vector<uint8_t>&) const;
void TestUnitReady() override;
void Read6();
void Write6() const;
void RetrieveStatistics() const;
void SetInterfaceMode() const;
void SetMcastAddr() const;
void EnableInterface();
static const int DAYNAPORT_BUFFER_SIZE = 0x1000000;
static const int CMD_SCSILINK_STATS = 0x09;
static const int CMD_SCSILINK_ENABLE = 0x0E;
static const int CMD_SCSILINK_SET = 0x0C;
static const int CMD_SCSILINK_SETMAC = 0x40;
static const int CMD_SCSILINK_SETMODE = 0x80;
// When we're reading the Linux tap device, most of the messages will not be for us, so we
// need to filter through those. However, we don't want to keep re-reading the packets
// indefinitely. So, we'll pick a large-ish number that will cause the emulated DaynaPort
// to respond with "no data" after MAX_READ_RETRIES tries.
static const int MAX_READ_RETRIES = 50;
// The READ response has a header which consists of:
// 2 bytes - payload size
// 4 bytes - status flags
static const uint32_t DAYNAPORT_READ_HEADER_SZ = 2 + 4;
private:
enum class read_data_flags_t : uint32_t {
e_no_more_data = 0x00000000,
e_more_data_available = 0x00000001,
e_dropped_packets = 0xFFFFFFFF,
};
using scsi_resp_read_t = struct __attribute__((packed)) {
uint32_t length;
read_data_flags_t flags;
byte pad;
array<byte, ETH_FRAME_LEN + sizeof(uint32_t)> data; // Frame length + 4 byte CRC
};
using scsi_resp_link_stats_t = struct __attribute__((packed)) {
array<byte, 6> mac_address;
uint32_t frame_alignment_errors;
uint32_t crc_errors;
uint32_t frames_lost;
};
scsi_resp_link_stats_t m_scsi_link_stats = {
// TODO Remove this hard-coded MAC address, see https://github.com/PiSCSI/piscsi/issues/598
.mac_address = { byte{0x00}, byte{0x80}, byte{0x19}, byte{0x10}, byte{0x98}, byte{0xe3} },
.frame_alignment_errors = 0,
.crc_errors = 0,
.frames_lost = 0,
};
CTapDriver m_tap;
// TAP valid flag
bool m_bTapEnable = false;
};