mirror of
https://github.com/akuker/RASCSI.git
synced 2024-12-21 23:29:39 +00:00
454c61ac0d
* Support for ID and LUN parameter for the -L option in rascsi * Added DeviceLogger class * Removed dupiicate code * Fixed SonarQube issues * Added unit tests, improved code sharing * Fixed regression (#979)
480 lines
17 KiB
C++
480 lines
17 KiB
C++
//---------------------------------------------------------------------------
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//
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// SCSI Target Emulator RaSCSI Reloaded
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// for Raspberry Pi
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//
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// Copyright (C) 2020 akuker
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// Copyright (C) 2014-2020 GIMONS
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// Copyright (C) 2001-2006 PI.(ytanaka@ipc-tokai.or.jp)
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//
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// Licensed under the BSD 3-Clause License.
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// See LICENSE file in the project root folder.
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//
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// [ Emulation of the DaynaPort SCSI Link Ethernet interface ]
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//
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// This design is derived from the SLINKCMD.TXT file, as well as David Kuder's
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// Tiny SCSI Emulator
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// - SLINKCMD: http://www.bitsavers.org/pdf/apple/scsi/dayna/daynaPORT/SLINKCMD.TXT
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// - Tiny SCSI : https://hackaday.io/project/18974-tiny-scsi-emulator
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//
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// Additional documentation and clarification is available at the
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// following link:
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// - https://github.com/akuker/RASCSI/wiki/Dayna-Port-SCSI-Link
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//
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// Note: This requires a DaynaPort SCSI Link driver.
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//---------------------------------------------------------------------------
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#include "shared/rascsi_exceptions.h"
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#include "scsi_command_util.h"
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#include "scsi_daynaport.h"
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#include <sstream>
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#include <iomanip>
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using namespace scsi_defs;
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using namespace scsi_command_util;
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SCSIDaynaPort::SCSIDaynaPort(int lun) : PrimaryDevice(SCDP, lun)
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{
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SupportsParams(true);
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}
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bool SCSIDaynaPort::Init(const unordered_map<string, string>& params)
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{
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PrimaryDevice::Init(params);
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AddCommand(scsi_command::eCmdTestUnitReady, [this] { TestUnitReady(); });
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AddCommand(scsi_command::eCmdRead6, [this] { Read6(); });
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AddCommand(scsi_command::eCmdWrite6, [this] { Write6(); });
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AddCommand(scsi_command::eCmdRetrieveStats, [this] { RetrieveStatistics(); });
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AddCommand(scsi_command::eCmdSetIfaceMode, [this] { SetInterfaceMode(); });
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AddCommand(scsi_command::eCmdSetMcastAddr, [this] { SetMcastAddr(); });
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AddCommand(scsi_command::eCmdEnableInterface, [this] { EnableInterface(); });
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// The Daynaport needs to have a delay after the size/flags field of the read response.
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// In the MacOS driver, it looks like the driver is doing two "READ" system calls.
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SetSendDelay(DAYNAPORT_READ_HEADER_SZ);
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m_bTapEnable = m_tap.Init(GetParams());
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if(!m_bTapEnable){
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GetLogger().Error("Unable to open the TAP interface");
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// Not terminating on regular Linux PCs is helpful for testing
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#if !defined(__x86_64__) && !defined(__X86__)
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return false;
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#endif
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} else {
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GetLogger().Trace("Tap interface created");
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}
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Reset();
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SetReady(true);
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SetReset(false);
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return true;
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}
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vector<uint8_t> SCSIDaynaPort::InquiryInternal() const
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{
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vector<uint8_t> buf = HandleInquiry(device_type::PROCESSOR, scsi_level::SCSI_2, false);
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// The Daynaport driver for the Mac expects 37 bytes: Increase additional length and
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// add a vendor-specific byte in order to satisfy this driver.
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buf[4]++;
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buf.push_back(0);
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return buf;
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}
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//---------------------------------------------------------------------------
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//
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// READ
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//
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// Command: 08 00 00 LL LL XX (LLLL is data length, XX = c0 or 80)
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// Function: Read a packet at a time from the device (standard SCSI Read)
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// Type: Input; the following data is returned:
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// LL LL NN NN NN NN XX XX XX ... CC CC CC CC
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// where:
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// LLLL is normally the length of the packet (a 2-byte
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// big-endian hex value), including 4 trailing bytes
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// of CRC, but excluding itself and the flag field.
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// See below for special values
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// NNNNNNNN is a 4-byte flag field with the following meanings:
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// FFFFFFFF a packet has been dropped (?); in this case
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// the length field appears to be always 4000
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// 00000010 there are more packets currently available
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// in SCSI/Link memory
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// 00000000 this is the last packet
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// XX XX ... is the actual packet
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// CCCCCCCC is the CRC
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//
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// Notes:
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// - When all packets have been retrieved successfully, a length field
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// of 0000 is returned; however, if a packet has been dropped, the
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// SCSI/Link will instead return a non-zero length field with a flag
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// of FFFFFFFF when there are no more packets available. This behaviour
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// seems to continue until a disable/enable sequence has been issued.
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// - The SCSI/Link apparently has about 6KB buffer space for packets.
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//
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//---------------------------------------------------------------------------
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int SCSIDaynaPort::Read(const vector<int>& cdb, vector<uint8_t>& buf, uint64_t)
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{
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int rx_packet_size = 0;
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const auto response = (scsi_resp_read_t*)buf.data();
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const int requested_length = cdb[4];
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GetLogger().Trace("Read maximum length: " + to_string(requested_length));
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// At startup the host may send a READ(6) command with a sector count of 1 to read the root sector.
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// We should respond by going into the status mode with a code of 0x02.
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if (requested_length == 1) {
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return 0;
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}
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// Some of the packets we receive will not be for us. So, we'll keep pulling messages
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// until the buffer is empty, or we've read X times. (X is just a made up number)
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// TODO send_message_to_host is effctively always true
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bool send_message_to_host;
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int read_count = 0;
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while (read_count < MAX_READ_RETRIES) {
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read_count++;
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// The first 2 bytes are reserved for the length of the packet
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// The next 4 bytes are reserved for a flag field
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//rx_packet_size = m_tap.Rx(response->data);
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rx_packet_size = m_tap.Receive(&buf[DAYNAPORT_READ_HEADER_SZ]);
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// If we didn't receive anything, return size of 0
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if (rx_packet_size <= 0) {
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GetLogger().Trace("No packet received");
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response->length = 0;
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response->flags = read_data_flags_t::e_no_more_data;
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return DAYNAPORT_READ_HEADER_SZ;
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}
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GetLogger().Trace("Packet Size " + to_string(rx_packet_size) + ", read count: " + to_string(read_count));
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// This is a very basic filter to prevent unnecessary packets from
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// being sent to the SCSI initiator.
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send_message_to_host = false;
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// The following doesn't seem to work with unicast messages. Temporarily removing the filtering
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// functionality.
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/////// // Check if received packet destination MAC address matches the
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/////// // DaynaPort MAC. For IP packets, the mac_address will be the first 6 bytes
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/////// // of the data.
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/////// if (memcmp(response->data, m_mac_addr, 6) == 0) {
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/////// send_message_to_host = true;
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/////// }
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/////// // Check to see if this is a broadcast message
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/////// if (memcmp(response->data, m_bcast_addr, 6) == 0) {
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/////// send_message_to_host = true;
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/////// }
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/////// // Check to see if this is an AppleTalk Message
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/////// if (memcmp(response->data, m_apple_talk_addr, 6) == 0) {
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/////// send_message_to_host = true;
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/////// }
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send_message_to_host = true;
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// TODO: We should check to see if this message is in the multicast
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// configuration from SCSI command 0x0D
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if (!send_message_to_host) {
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stringstream s;
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s << "Received a packet that's not for me:" << setfill('0') << setw(2) << hex;
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for (int i = 0 ; i < 6; i++) {
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s << " $" << static_cast<int>(response->data[i]);
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}
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GetLogger().Debug(s.str());
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// If there are pending packets to be processed, we'll tell the host that the read
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// length was 0.
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if (!m_tap.PendingPackets()) {
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response->length = 0;
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response->flags = read_data_flags_t::e_no_more_data;
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return DAYNAPORT_READ_HEADER_SZ;
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}
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}
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else {
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// TODO: Need to do some sort of size checking. The buffer can easily overflow, probably.
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// response->length = rx_packet_size;
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// if(m_tap.PendingPackets()){
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// response->flags = e_more_data_available;
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// } else {
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// response->flags = e_no_more_data;
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// }
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int size = rx_packet_size;
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if (size < 64) {
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// A frame must have at least 64 bytes (see https://github.com/akuker/RASCSI/issues/619)
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// Note that this work-around breaks the checksum. As currently there are no known drivers
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// that care for the checksum, and the Daynaport driver for the Atari expects frames of
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// 64 bytes it was decided to accept the broken checksum. If a driver should pop up that
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// breaks because of this, the work-around has to be re-evaluated.
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size = 64;
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}
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SetInt16(buf, 0, size);
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SetInt32(buf, 2, m_tap.PendingPackets() ? 0x10 : 0x00);
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// Return the packet size + 2 for the length + 4 for the flag field
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// The CRC was already appended by the ctapdriver
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return size + DAYNAPORT_READ_HEADER_SZ;
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}
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// If we got to this point, there are still messages in the queue, so
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// we should loop back and get the next one.
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} // end while
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response->length = 0;
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response->flags = read_data_flags_t::e_no_more_data;
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return DAYNAPORT_READ_HEADER_SZ;
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}
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//---------------------------------------------------------------------------
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//
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// Write
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//
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// Command: 0a 00 00 LL LL XX (LLLL is data length, XX = 80 or 00)
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// Function: Write a packet at a time to the device (standard SCSI Write)
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// Type: Output; the format of the data to be sent depends on the value
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// of XX, as follows:
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// - if XX = 00, LLLL is the packet length, and the data to be sent
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// must be an image of the data packet
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// - if XX = 80, LLLL is the packet length + 8, and the data to be
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// sent is:
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// PP PP 00 00 XX XX XX ... 00 00 00 00
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// where:
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// PPPP is the actual (2-byte big-endian) packet length
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// XX XX ... is the actual packet
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//
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//---------------------------------------------------------------------------
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bool SCSIDaynaPort::WriteBytes(const vector<int>& cdb, vector<uint8_t>& buf, uint32_t)
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{
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const int data_format = cdb[5];
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int data_length = GetInt16(cdb, 3);
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if (data_format == 0x00) {
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m_tap.Send(buf.data(), data_length);
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GetLogger().Trace("Transmitted " + to_string(data_length) + " byte(s) (00 format)");
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}
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else if (data_format == 0x80) {
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// The data length is specified in the first 2 bytes of the payload
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data_length = buf[1] + ((static_cast<int>(buf[0]) & 0xff) << 8);
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m_tap.Send(&(buf.data()[4]), data_length);
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GetLogger().Trace("Transmitted " + to_string(data_length) + "byte(s) (80 format)");
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}
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else {
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stringstream s;
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s << "Unknown data format: " << setfill('0') << setw(2) << hex << data_format;
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GetLogger().Warn(s.str());
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}
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GetController()->SetBlocks(0);
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return true;
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}
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//---------------------------------------------------------------------------
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//
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// RetrieveStats
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//
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// Command: 09 00 00 00 12 00
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// Function: Retrieve MAC address and device statistics
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// Type: Input; returns 18 (decimal) bytes of data as follows:
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// - bytes 0-5: the current hardware ethernet (MAC) address
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// - bytes 6-17: three long word (4-byte) counters (little-endian).
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// Notes: The contents of the three longs are typically zero, and their
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// usage is unclear; they are suspected to be:
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// - long #1: frame alignment errors
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// - long #2: CRC errors
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// - long #3: frames lost
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//
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//---------------------------------------------------------------------------
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int SCSIDaynaPort::RetrieveStats(const vector<int>& cdb, vector<uint8_t>& buf) const
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{
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memcpy(buf.data(), &m_scsi_link_stats, sizeof(m_scsi_link_stats));
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return static_cast<int>(min(sizeof(m_scsi_link_stats), static_cast<size_t>(GetInt16(cdb, 3))));
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}
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void SCSIDaynaPort::TestUnitReady()
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{
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// Always successful
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EnterStatusPhase();
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}
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void SCSIDaynaPort::Read6()
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{
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// Get record number and block number
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const uint32_t record = GetInt24(GetController()->GetCmd(), 1) & 0x1fffff;
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GetController()->SetBlocks(1);
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// If any commands have a bogus control value, they were probably not
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// generated by the DaynaPort driver so ignore them
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if (GetController()->GetCmd(5) != 0xc0 && GetController()->GetCmd(5) != 0x80) {
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GetLogger().Trace("Control value: " + to_string(GetController()->GetCmd(5)));
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throw scsi_exception(sense_key::ILLEGAL_REQUEST, asc::INVALID_FIELD_IN_CDB);
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}
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stringstream s;
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s << "READ(6) command, record: $" << setfill('0') << setw(8) << hex << record;
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GetLogger().Trace(s.str() + ", blocks: " + to_string(GetController()->GetBlocks()));
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GetController()->SetLength(Read(GetController()->GetCmd(), GetController()->GetBuffer(), record));
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GetLogger().Trace("Length is " + to_string(GetController()->GetLength()));
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// Set next block
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GetController()->SetNext(record + 1);
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EnterDataInPhase();
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}
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void SCSIDaynaPort::Write6() const
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{
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// Ensure a sufficient buffer size (because it is not transfer for each block)
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GetController()->AllocateBuffer(DAYNAPORT_BUFFER_SIZE);
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const int data_format = GetController()->GetCmd(5);
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if (data_format == 0x00) {
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GetController()->SetLength(GetInt16(GetController()->GetCmd(), 3));
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}
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else if (data_format == 0x80) {
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GetController()->SetLength(GetInt16(GetController()->GetCmd(), 3) + 8);
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}
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else {
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stringstream s;
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s << "Unknown data format: " << setfill('0') << setw(2) << hex << data_format;
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GetLogger().Warn(s.str());
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}
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stringstream s;
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s << "Length: " << GetController()->GetLength() << ", format: $" << setfill('0') << setw(2) << hex << data_format;
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GetLogger().Trace(s.str());
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if (GetController()->GetLength() <= 0) {
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throw scsi_exception(sense_key::ILLEGAL_REQUEST, asc::INVALID_FIELD_IN_CDB);
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}
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// Set next block
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GetController()->SetBlocks(1);
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GetController()->SetNext(1);
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EnterDataOutPhase();
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}
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void SCSIDaynaPort::RetrieveStatistics() const
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{
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GetController()->SetLength(RetrieveStats(GetController()->GetCmd(), GetController()->GetBuffer()));
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// Set next block
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GetController()->SetBlocks(1);
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GetController()->SetNext(1);
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EnterDataInPhase();
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}
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//---------------------------------------------------------------------------
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//
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// Set interface mode/Set MAC address
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//
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// Set Interface Mode (0c)
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// -----------------------
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// Command: 0c 00 00 00 FF 80 (FF = 08 or 04)
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// Function: Allow interface to receive broadcast messages (FF = 04); the
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// function of (FF = 08) is currently unknown.
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// Type: No data transferred
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// Notes: This command is accepted by firmware 1.4a & 2.0f, but has no
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// effect on 2.0f, which is always capable of receiving broadcast
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// messages. In 1.4a, once broadcast mode is set, it remains set
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// until the interface is disabled.
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//
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// Set MAC Address (0c)
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// --------------------
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// Command: 0c 00 00 00 FF 40 (FF = 08 or 04)
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// Function: Set MAC address
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// Type: Output; overrides built-in MAC address with user-specified
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// 6-byte value
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// Notes: This command is intended primarily for debugging/test purposes.
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// Disabling the interface resets the MAC address to the built-in
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// value.
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//
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//---------------------------------------------------------------------------
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void SCSIDaynaPort::SetInterfaceMode() const
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{
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// Check whether this command is telling us to "Set Interface Mode" or "Set MAC Address"
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GetController()->SetLength(RetrieveStats(GetController()->GetCmd(), GetController()->GetBuffer()));
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switch(GetController()->GetCmd(5)){
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case CMD_SCSILINK_SETMODE:
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// Not implemented, do nothing
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EnterStatusPhase();
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break;
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case CMD_SCSILINK_SETMAC:
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GetController()->SetLength(6);
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EnterDataOutPhase();
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break;
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default:
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stringstream s;
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s << "Unsupported SetInterface command: " << setfill('0') << setw(2) << hex << GetController()->GetCmd(5);
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GetLogger().Warn(s.str());
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throw scsi_exception(sense_key::ILLEGAL_REQUEST, asc::INVALID_COMMAND_OPERATION_CODE);
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break;
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}
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}
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void SCSIDaynaPort::SetMcastAddr() const
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{
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GetController()->SetLength(GetController()->GetCmd(4));
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if (GetController()->GetLength() == 0) {
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stringstream s;
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s << "Unsupported SetMcastAddr command: " << setfill('0') << setw(2) << hex << GetController()->GetCmd(2);
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GetLogger().Warn(s.str());
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throw scsi_exception(sense_key::ILLEGAL_REQUEST, asc::INVALID_FIELD_IN_CDB);
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}
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EnterDataOutPhase();
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}
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//---------------------------------------------------------------------------
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//
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// Enable or Disable the interface
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//
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// Command: 0e 00 00 00 00 XX (XX = 80 or 00)
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// Function: Enable (80) / disable (00) Ethernet interface
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// Type: No data transferred
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// Notes: After issuing an Enable, the initiator should avoid sending
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// any subsequent commands to the device for approximately 0.5
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// seconds
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//
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//---------------------------------------------------------------------------
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void SCSIDaynaPort::EnableInterface()
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{
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if (GetController()->GetCmd(5) & 0x80) {
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if (!m_tap.Enable()) {
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GetLogger().Warn("Unable to enable the DaynaPort Interface");
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throw scsi_exception(sense_key::ABORTED_COMMAND);
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}
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m_tap.Flush();
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GetLogger().Info("The DaynaPort interface has been ENABLED");
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}
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else {
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if (!m_tap.Disable()) {
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GetLogger().Warn("Unable to disable the DaynaPort Interface");
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throw scsi_exception(sense_key::ABORTED_COMMAND);
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}
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GetLogger().Info("The DaynaPort interface has been DISABLED");
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}
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||
|
||
EnterStatusPhase();
|
||
}
|
||
|