// license:BSD-3-Clause // copyright-holders:Mietek Bak // best read together with SCSI-2 draft spec (rev 10L 7-SEP-93) // https://www.staff.uni-mainz.de/tacke/scsi/SCSI2.html #include "emu.h" #include "tape.h" #include "util/multibyte.h" #include "util/tape_file_interface.h" #include #include // #define VERBOSE LOG_GENERAL // #define LOG_OUTPUT_FUNC osd_printf_info #include "logmacro.h" DEFINE_DEVICE_TYPE(NSCSI_TAPE, nscsi_tape_device, "scsi_tape", "SCSI tape"); ////////////////////////////////////////////////////////////////////////////// // constants static constexpr u32 TAPE_DEFAULT_FIXED_BLOCK_LEN = 512; static constexpr int TAPE_RW_BUF_ID = 2; static constexpr int TAPE_PL_BUF_ID = 3; ////////////////////////////////////////////////////////////////////////////// // construction nscsi_tape_device::nscsi_tape_device(const machine_config &config, device_type type, const char *tag, device_t *owner, u32 clock) : nscsi_full_device(config, type, tag, owner, clock) , m_image(*this, "image") , m_sequence_counter(0) , m_has_tape(false) , m_tape_changed(false) , m_fixed_block_len(TAPE_DEFAULT_FIXED_BLOCK_LEN) , m_rw_buf_size(m_fixed_block_len) , m_rw_pending(false) { } nscsi_tape_device::nscsi_tape_device(const machine_config &config, const char *tag, device_t *owner, u32 clock) : nscsi_tape_device(config, NSCSI_TAPE, tag, owner, clock) { } ////////////////////////////////////////////////////////////////////////////// // device_t implementation void nscsi_tape_device::device_add_mconfig(machine_config &config) { SIMH_TAPE_IMAGE(config, m_image).set_interface("tape"); } ////////////////////////////////////////////////////////////////////////////// // nscsi_full_device implementation void nscsi_tape_device::device_start() { nscsi_full_device::device_start(); m_sequence_counter = m_image->sequence_counter(); m_has_tape = m_image->get_file(); m_rw_buf = std::make_unique(m_rw_buf_size); save_item(NAME(m_sequence_counter)); save_item(NAME(m_has_tape)); save_item(NAME(m_tape_changed)); save_item(NAME(m_fixed_block_len)); save_item(NAME(m_rw_buf_size)); save_pointer(NAME(m_rw_buf), m_rw_buf_size); save_item(NAME(m_rw_pending)); save_item(NAME(m_rw_len)); save_item(NAME(m_rw_blocks_num)); save_item(NAME(m_rw_req_blocks_num)); save_item(NAME(m_rw_req_block_len)); save_item(NAME(m_rw_fixed_blocks)); save_item(NAME(m_r_suppress_bad_len)); save_item(NAME(m_pl_buf)); save_item(NAME(m_pl_len)); } void nscsi_tape_device::device_reset() { nscsi_full_device::device_reset(); m_sequence_counter = m_image->sequence_counter(); m_has_tape = m_image->get_file(); m_tape_changed = false; m_fixed_block_len = TAPE_DEFAULT_FIXED_BLOCK_LEN; m_rw_pending = false; } void nscsi_tape_device::scsi_command() { const u8 cmd = scsi_cmdbuf[0]; const u8 lun = get_lun(scsi_cmdbuf[1] >> 5); // LUN may be overridden by IDENTIFY, per SCSI-2 section 7.2.2 switch (cmd) { // these commands must be handled here, before tape changing logic case SC_INQUIRY: return handle_inquiry(lun); case SC_REQUEST_SENSE: return handle_request_sense(lun); } if (m_sequence_counter != m_image->sequence_counter()) { // tape just changed m_sequence_counter = m_image->sequence_counter(); const bool had_tape = m_has_tape; m_has_tape = m_image->get_file(); m_tape_changed = true; m_rw_pending = false; if (had_tape) { // we report no tape to let initiator know old tape has been removed LOG("command %s (ignored)\n", command_names[cmd], cmd); return report_no_medium(); } } if (m_tape_changed) { // tape changed earlier m_tape_changed = false; if (m_has_tape) { // we report tape changed to let initiator know new tape has been inserted LOG("command %s (ignored)\n", command_names[cmd], cmd); return report_medium_changed(); } } if (lun) // error: we don't support LUNs other than 0 for other commands return report_bad_lun(cmd, lun); assert(m_has_tape == (bool)m_image->get_file()); switch (cmd) { case SC_MODE_SELECT_6: return handle_mode_select_6(); case SC_MODE_SENSE_6: return handle_mode_sense_6(); case SC_SEND_DIAGNOSTIC: return handle_send_diagnostic(); case SC_TEST_UNIT_READY: return handle_test_unit_ready(); case SC_PREVENT_ALLOW_MEDIUM_REMOVAL: return handle_prevent_allow_medium_removal(); case SC_ERASE: return handle_erase(); case SC_LOAD_UNLOAD: return handle_load_unload(); case SC_LOCATE: return handle_locate(); case SC_READ_6: return handle_read_6(); case SC_READ_BLOCK_LIMITS: return handle_read_block_limits(); case SC_READ_POSITION: return handle_read_position(); case SC_RELEASE_UNIT: return handle_release_unit(); case SC_RESERVE_UNIT: return handle_reserve_unit(); case SC_REWIND: return handle_rewind(); case SC_SPACE: return handle_space(); case SC_WRITE_6: return handle_write_6(); case SC_WRITE_FILEMARKS: return handle_write_filemarks(); // TODO: support more optional commands case SC_CHANGE_DEFINITION: case SC_COMPARE: case SC_COPY: case SC_COPY_AND_VERIFY: case SC_LOG_SELECT: case SC_LOG_SENSE: case SC_MODE_SELECT_10: case SC_MODE_SENSE_10: case SC_READ_BUFFER: case SC_READ_REVERSE: case SC_RECEIVE_DIAGNOSTIC_RESULTS: case SC_RECOVER_BUFFERED_DATA: case SC_VERIFY_6: case SC_WRITE_BUFFER: default: nscsi_full_device::scsi_command(); } } u8 nscsi_tape_device::scsi_get_data(int id, int pos) { switch (id) { // we're handling READ(6); pos = 0 .. (m_rw_req_blocks_num * m_rw_req_block_len - 1) case TAPE_RW_BUF_ID: { const int relative_pos = pos % m_rw_req_block_len; if (m_rw_pending && relative_pos == 0) { // we need to fill buffer by reading another block assert(m_rw_len == 0); continue_handling_read_6(); } if (m_rw_len == 0) // buffer is still empty, so reading block failed; condition has already been reported; all we can do here is pretend to read 0 from buffer return 0; m_rw_len--; return m_rw_buf[relative_pos]; } default: return nscsi_full_device::scsi_get_data(id, pos); } } void nscsi_tape_device::scsi_put_data(int id, int pos, u8 data) { switch (id) { // we're handling WRITE(6); pos == 0 .. (m_rw_req_blocks_num * m_rw_req_block_len - 1) case TAPE_RW_BUF_ID: { if (m_rw_len == m_rw_req_block_len) // buffer is still full, so writing block failed; condition has already been reported; all we can do is pretend to write to buffer return; const int relative_pos = pos % m_rw_req_block_len; m_rw_buf[relative_pos] = data; m_rw_len++; if (m_rw_pending && relative_pos == m_rw_req_block_len - 1) { // we need to empty buffer by writing another block assert(m_rw_len == m_rw_req_block_len); continue_handling_write_6(); } return; } // we're handling MODE SELECT(6); pos == 0 .. (m_pl_len - 1) case TAPE_PL_BUF_ID: m_pl_buf[pos] = data; if (pos == m_pl_len - 1) continue_handling_mode_select_6(); return; default: return nscsi_full_device::scsi_put_data(id, pos, data); } } ////////////////////////////////////////////////////////////////////////////// // command handling void nscsi_tape_device::handle_inquiry(const u8 lun) // mandatory; SCSI-2 section 8.2.5 { const bool vpd_enable = scsi_cmdbuf[1] & 0x01; // should we respond with vital product data const u8 page_code = scsi_cmdbuf[2]; const u8 alloc_len = scsi_cmdbuf[4]; // allocation length LOG("command INQUIRY lun=%d vpd_enable=%d page_code=0x%02x alloc_len=%d\n", lun, vpd_enable, page_code, alloc_len); if ((scsi_cmdbuf[1] & 0x1e) || scsi_cmdbuf[3]) // error: reserved bits set return report_bad_cdb_field(); if (vpd_enable || page_code) // error: we don't support vital product data or pages other than 0 return report_bad_cdb_field(); assert(sizeof(scsi_cmdbuf) >= 36); memset(scsi_cmdbuf, 0, 36); scsi_cmdbuf[0] = (lun == 0) ? 0x01 : 0x7f; // we support tape device on LUN 0 only, per 7.5.3(a) scsi_cmdbuf[1] = 0x80; // we support removing tape scsi_cmdbuf[2] = 0x02; // we're compliant with SCSI-2 only scsi_cmdbuf[3] = 0x02; // we use SCSI-2 response format scsi_cmdbuf[4] = 32; // additional length strncpy((char *)&scsi_cmdbuf[8], "MAME", 8); // vendor strncpy((char *)&scsi_cmdbuf[16], "SCSI tape drive", 16); // product strncpy((char *)&scsi_cmdbuf[32], "1.0", 4); // revision for (u32 i = 8; i < 36; i++) { if (scsi_cmdbuf[i] == 0) scsi_cmdbuf[i] = ' '; // pad strings with spaces } scsi_data_in(SBUF_MAIN, std::min(36, (const int)alloc_len)); scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_mode_select_6() // mandatory; SCSI-2 sections 8.2.8, 8.3.3, 10.3.3 { const bool page_format = scsi_cmdbuf[1] & 0x10; // ignored; we always treat pages according to SCSI-2 const bool save_pages = scsi_cmdbuf[1] & 0x01; const u8 pl_len = scsi_cmdbuf[4]; // parameter list length LOG("command MODE SELECT(6) page_format=%d save_pages=%d pl_len=%d\n", page_format, save_pages, pl_len); if ((scsi_cmdbuf[1] & 0x0e) || scsi_cmdbuf[2] || scsi_cmdbuf[3]) // error: reserved bits set return report_bad_cdb_field(); if (save_pages) // error: we don't support saving pages return report_bad_cdb_field(); if (pl_len == 0) // success: we have nothing to do return scsi_status_complete(SS_GOOD); m_pl_len = pl_len; scsi_data_out(TAPE_PL_BUF_ID, pl_len); // we continue in continue_handling_mode_select_6 through scsi_put_data } void nscsi_tape_device::continue_handling_mode_select_6() { // this function is called by scsi_put_data when parameter list buffer is filled if (m_pl_len < 4) // error: truncated header return report_bad_pl_len(); const u8 buf_mode = (m_pl_buf[2] & 0x70) >> 4; // ignored; we don't support buffering const u8 speed = m_pl_buf[2] & 0x0f; // ignored; we're always fast const u8 bd_len = m_pl_buf[3]; // block descriptor length LOG(" buf_mode=0x%02x speed=0x%02x bd_len=%d\n", buf_mode, speed, bd_len); if (m_pl_len < 4 + bd_len) // error: truncated block descriptor return report_bad_pl_len(); if (bd_len && bd_len != 8) // error: we don't accept more than 1 block descriptor return report_bad_pl_field(); if (bd_len == 8) { // 1 block descriptor const u8 density_code = m_pl_buf[4]; const u32 blocks_num = get_u24be(&m_pl_buf[5]); // number of blocks const u32 block_len = get_u24be(&m_pl_buf[9]); // block length LOG(" density_code=0x%02x blocks_num=%d block_len=%d\n", density_code, blocks_num, block_len); if (density_code) // error: we don't support changing density return report_bad_pl_field(); if (blocks_num) // error: we don't support changing block length for only some amount of blocks return report_bad_pl_field(); if (block_len == 0) // error: requested block length is bad return report_bad_pl_field(); m_fixed_block_len = block_len; if (m_fixed_block_len > m_rw_buf_size) { m_rw_buf_size = m_fixed_block_len; m_rw_buf = std::make_unique(m_rw_buf_size); } } u32 page_num = 0; u32 page_pos = 4 + bd_len; while (page_pos < m_pl_len) { // we accept any number of pages if (m_pl_len < page_pos + 2) // error: truncated page return report_bad_pl_len(); const u8 page_code = m_pl_buf[page_pos] & 0x3f; const u8 page_len = m_pl_buf[page_pos + 1]; LOG(" page_num=%d page_code=0x%02x page_len=%d\n", page_num, page_code, page_len); if (m_pl_len < page_pos + 2 + page_len) // error: truncated page return report_bad_pl_len(); switch (page_code) { case SPC_MEDIUM_PARTITION_PAGE_1: { // TODO: test more software and see if these pages need to be accommodated if (page_len < 6 || page_len % 2) // error: malformed page return report_bad_pl_field(); const u8 map = m_pl_buf[page_pos + 2]; // "maximum additional partitions" const u8 apd = m_pl_buf[page_pos + 3]; // "additional partitions defined" const bool fdp = m_pl_buf[page_pos + 4] & 0x80; // "fixed data partitions" const bool sdp = m_pl_buf[page_pos + 4] & 0x40; // "select data partitions" const bool idp = m_pl_buf[page_pos + 4] & 0x20; // "initiator-defined partitions" const u8 psum = (m_pl_buf[page_pos + 4] & 0x18) >> 3; // "partition size unit of measure" const u8 mfr = m_pl_buf[page_pos + 5]; // "medium format recognition" LOG(" map=%d apd=%d fdp=%d sdp=%d idp=%d psum=0x%x mfr=0x%02x\n", map, apd, fdp, sdp, idp, psum, mfr); u32 psd_num = 0; // partition size descriptor number u32 psd_pos = 8; // partition size descriptor position while (psd_pos < page_len) { const u16 ps = get_u16be(&m_pl_buf[page_pos + psd_pos]); // "partition size" LOG(" psd_num=%d ps=%d\n", psd_num, ps); psd_num++; psd_pos += 2; } break; } default: LOG(" *** BAD PAGE\n"); } page_num++; page_pos += 2 + page_len; } scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_mode_sense_6() // mandatory; SCSI-2 sections 8.2.10, 8.3.3, 10.3.3 { const bool bd_disable = scsi_cmdbuf[1] & 0x80; // should we not respond with block descriptor const u8 page_control = scsi_cmdbuf[2] >> 6; const u8 page_code = scsi_cmdbuf[2] & 0x3f; LOG("command MODE SENSE(6) bd_disable=%d page_control=0x%02x page_code=0x%02x\n", bd_disable, page_control, page_code); if ((scsi_cmdbuf[1] & 0x17) || scsi_cmdbuf[3]) // error: reserved bits set return report_bad_cdb_field(); if (page_code && page_code != SPC_RETURN_ALL_MODE_PAGES) // error: we don't support pages other than 0 return report_bad_cdb_field(); // TODO: support more pages, such as SPC_DATA_COMPRESSION_PAGE, and SPC_DEVICE_CONFIGURATION_PAGE with BIS bit set to indicate we support reporting block addresses in response to READ POSITION if (page_control == SPC_SAVED_VALUES) // error: we don't support saving parameters return report_no_saving_params(); const u8 resp_len = bd_disable ? 4 : 12; // response length assert(sizeof(scsi_cmdbuf) >= resp_len); memset(scsi_cmdbuf, 0, resp_len); scsi_cmdbuf[0] = resp_len - 1; // mode data length does not include itself, per SCSI-2 section 8.3.3 scsi_cmdbuf[2] = (m_has_tape && m_image->get_file()->is_read_only()) ? 0x80 : 0; // device-specific parameter scsi_cmdbuf[3] = bd_disable ? 0 : 8; // block descriptor length if (!bd_disable) { // respond with block descriptor scsi_cmdbuf[4] = m_has_tape ? m_image->get_file()->get_density_code() : 0; // density code put_u24be(&scsi_cmdbuf[9], m_fixed_block_len); // block length } scsi_data_in(SBUF_MAIN, resp_len); scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_send_diagnostic() // mandatory; SCSI-2 section 8.2.15 { const bool page_format = scsi_cmdbuf[1] & 0x10; const bool self_test = scsi_cmdbuf[1] & 0x04; const bool device_offline = scsi_cmdbuf[1] & 0x02; const bool unit_offline = scsi_cmdbuf[1] & 0x01; const u16 pl_len = get_u16be(&scsi_cmdbuf[3]); // parameter list length LOG("command SEND DIAGNOSTIC page_format=%d self_test=%d device_offline=%d unit_offline=%d pl_len=%d\n", page_format, self_test, device_offline, unit_offline, pl_len); if ((scsi_cmdbuf[1] & 0x08) || scsi_cmdbuf[2]) // error: reserved bits set return report_bad_cdb_field(); if (pl_len) // error: we don't support any parameters return report_bad_cdb_field(); scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_test_unit_ready() // mandatory; SCSI-2 section 8.2.16 { LOG("command TEST UNIT READY\n"); if ((scsi_cmdbuf[1] & 0x1f) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || scsi_cmdbuf[4]) // error: reserved bits set return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_prevent_allow_medium_removal() // optional; SCSI-2 section 9.2.4 { const bool prevent = scsi_cmdbuf[4] & 0x01; // should we prevent or allow removing tape LOG("command %s MEDIUM REMOVAL\n", prevent ? "PREVENT" : "ALLOW"); if ((scsi_cmdbuf[1] & 0x1f) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || (scsi_cmdbuf[4] & 0xfe)) // error: reserved bits set return report_bad_cdb_field(); if (prevent) { if (!m_has_tape) // error: no tape return report_no_medium(); // TODO: prevent removing tape, once MAME supports it return scsi_status_complete(SS_GOOD); } else { // allow // TODO: allow removing tape, once MAME supports it return scsi_status_complete(SS_GOOD); } } void nscsi_tape_device::handle_erase() // mandatory; SCSI-2 section 10.2.1 { const bool immed = scsi_cmdbuf[1] & 0x02; // ignored; we don't support buffering const bool eom = scsi_cmdbuf[1] & 0x01; // should we erase to EOM instead of 1 block; "long" LOG("command ERASE immed=%d eom=%d\n", immed, eom); if ((scsi_cmdbuf[1] & 0x1c) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || scsi_cmdbuf[4]) // error: reserved bits set return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); if (m_image->get_file()->is_read_only()) // error: tape is read-only return report_read_only(); try { m_image->get_file()->erase(eom); return scsi_status_complete(SS_GOOD); } catch (std::exception &e) { // error: writing to tape failed osd_printf_error("ERASE FAILURE: nscsi_tape_device::handle_erase: %s\n", e.what()); return report_erase_failure(); } } void nscsi_tape_device::handle_load_unload() // optional; SCSI-2 section 10.2.2 { const bool immed = scsi_cmdbuf[1] & 0x01; // ignored; we don't support buffering const bool eom = scsi_cmdbuf[4] & 0x04; // should we rewind to EOM instead of BOM on unload const bool retension = scsi_cmdbuf[4] & 0x02; // ignored; we're always tense const bool load = scsi_cmdbuf[4] & 0x01; // should we load or unload tape LOG("command %s immed=%d eom=%d retension=%d\n", load ? "LOAD" : "UNLOAD", immed, eom, retension); if ((scsi_cmdbuf[1] & 0x1e) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || (scsi_cmdbuf[4] & 0xf8)) // error: reserved bits set return report_bad_cdb_field(); if (load && eom) // error: invalid combination of command options return report_bad_cdb_field(); if (load) { if (!m_has_tape) // error: no tape return report_no_medium(); m_image->get_file()->rewind(false); return scsi_status_complete(SS_GOOD); } else { // unload if (m_has_tape) // rewind tape if it's there m_image->get_file()->rewind(eom); return scsi_status_complete(SS_GOOD); } } void nscsi_tape_device::handle_locate() // optional; SCSI-2 section 10.2.3 { const bool block_addr_type = scsi_cmdbuf[1] & 0x04; // ignored; we always use logical block addresses const bool change_partition = scsi_cmdbuf[1] & 0x02; const bool immed = scsi_cmdbuf[1] & 0x01; // ignored; we don't support buffering const u32 req_block_addr = get_u32be(&scsi_cmdbuf[3]); // requested block address to locate const u8 partition = scsi_cmdbuf[8]; LOG("command LOCATE block_addr_type=%d change_partition=%d immed=%d req_block_addr=%d partition=0x%02x\n", block_addr_type, change_partition, immed, req_block_addr, partition); if ((scsi_cmdbuf[1] & 0x18) || scsi_cmdbuf[2] || scsi_cmdbuf[7]) // error: reserved bits set return report_bad_cdb_field(); if (change_partition) // error: we don't support partitions other than 0 return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); try { const auto status = m_image->get_file()->locate_block(req_block_addr); switch (status) { case tape_status::OK: // success: we located requested block return scsi_status_complete(SS_GOOD); case tape_status::EOD: // error: we reached EOD case tape_status::EOD_EW: // error: we reached EOD and we're also between EW and EOM return report_eod(0, status == tape_status::EOD_EW); case tape_status::EOM: // error: we reached EOM return report_eom(false); default: assert(false); } } catch (std::exception &e) { // error: reading from tape failed osd_printf_error("READ FAILURE: nscsi_tape_device::handle_locate: %s\n", e.what()); return report_read_failure(); } } void nscsi_tape_device::handle_read_6() // mandatory; SCSI-2 section 10.2.4 { const bool suppress = scsi_cmdbuf[1] & 0x02; // should we suppress indicating incorrect length const bool fixed = scsi_cmdbuf[1] & 0x01; // should we read many fixed-length blocks instead of 1 variable-length block const u32 req_items_num = get_u24be(&scsi_cmdbuf[2]); // requested number of blocks or bytes to read; "transfer length" LOG("command READ(6) suppress=%d fixed=%d req_items_num=%d\n", suppress, fixed, req_items_num); if (scsi_cmdbuf[1] & 0x1c) // error: reserved bits set return report_bad_cdb_field(); if (fixed && suppress) // error: invalid combination of command options return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); if (req_items_num == 0) // success: we have nothing to do return scsi_status_complete(SS_GOOD); if (!fixed && req_items_num > m_rw_buf_size) { m_rw_buf_size = req_items_num; m_rw_buf = std::make_unique(m_rw_buf_size); } m_rw_pending = true; m_rw_len = 0; m_rw_blocks_num = 0; m_rw_req_blocks_num = fixed ? req_items_num : 1; m_rw_req_block_len = fixed ? m_fixed_block_len : req_items_num; m_rw_fixed_blocks = fixed; m_r_suppress_bad_len = suppress; assert(m_rw_req_block_len <= m_rw_buf_size); scsi_data_in(TAPE_RW_BUF_ID, m_rw_req_blocks_num * m_rw_req_block_len); // we continue in continue_handling_read_6 through scsi_get_data } void nscsi_tape_device::continue_handling_read_6() { // this function is called by scsi_get_data every time read/write buffer is emptied assert(m_has_tape); assert(m_rw_len == 0); try { const auto result = m_image->get_file()->read_block(m_rw_buf.get(), m_rw_buf_size); const auto status = result.first; const u32 block_len = result.second; switch (status) { case tape_status::OK: { // success: we read another block const bool over = block_len > m_rw_req_block_len; const bool under = block_len < m_rw_req_block_len; if (over || (under && !m_r_suppress_bad_len)) { // error: we read block of incorrect length m_rw_pending = false; return report_bad_len(over, m_rw_fixed_blocks ? (m_rw_req_blocks_num - m_rw_blocks_num) : (m_rw_req_block_len - block_len)); } if (under && m_r_suppress_bad_len) LOG(" *** UNDERLENGTH\n"); m_rw_len = block_len; m_rw_blocks_num++; if (m_rw_blocks_num == m_rw_req_blocks_num) { // success: we're done m_rw_pending = false; return scsi_status_complete(SS_GOOD); } return; // we should read some more blocks } case tape_status::FILEMARK: // error: we reached filemark case tape_status::FILEMARK_EW: // error: we reached filemark and we're also between EW and EOM m_rw_pending = false; assert(block_len == 0); return report_filemark(m_rw_fixed_blocks ? (m_rw_req_blocks_num - m_rw_blocks_num) : m_rw_req_block_len, status == tape_status::FILEMARK_EW); case tape_status::EOD: // error: we reached EOD case tape_status::EOD_EW: // error: we reached EOD and we're also between EW and EOM m_rw_pending = false; assert(block_len == 0); return report_eod(m_rw_fixed_blocks ? (m_rw_req_blocks_num - m_rw_blocks_num) : m_rw_req_block_len, status == tape_status::EOD_EW); case tape_status::EOM: // error: we reached EOM m_rw_pending = false; assert(block_len == 0); return report_eom(false, m_rw_fixed_blocks ? (m_rw_req_blocks_num - m_rw_blocks_num) : m_rw_req_block_len); default: assert(false); } } catch (std::exception &e) { // error: reading from tape failed osd_printf_error("READ FAILURE: nscsi_tape_device::continue_handling_read_6: %s\n", e.what()); return report_read_failure(); } } void nscsi_tape_device::handle_read_block_limits() // mandatory; SCSI-2 section 10.2.5 { LOG("command READ BLOCK LIMITS\n"); if ((scsi_cmdbuf[1] & 0x1f) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || scsi_cmdbuf[4]) // error: reserved bits set return report_bad_cdb_field(); assert(sizeof(scsi_cmdbuf) >= 6); memset(scsi_cmdbuf, 0, 6); put_u24be(&scsi_cmdbuf[1], 0xffffff); // 16MB; "maximum block length limit" put_u16be(&scsi_cmdbuf[4], m_fixed_block_len); // "minimum block length limit" scsi_data_in(SBUF_MAIN, 6); scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_read_position() // optional; SCSI-2 section 10.2.6 { const bool block_addr_type = scsi_cmdbuf[1] & 0x01; // ignored; we always use logical block addresses LOG("command READ POSITION block_addr_type=%d\n", block_addr_type); if ((scsi_cmdbuf[1] & 0x1e) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || scsi_cmdbuf[4] || scsi_cmdbuf[5] || scsi_cmdbuf[6] || scsi_cmdbuf[7] || scsi_cmdbuf[8]) // error: reserved bits set return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); try { const auto result = m_image->get_file()->read_position(); const auto status = result.first; const u32 block_addr = result.second; switch (status) { case tape_status::OK: // we're right after some block (at EOD, or at filemark, or at another block); block address is valid LOG(" block_addr=%d\n", block_addr); break; case tape_status::BOM: // we're at BOM; block address is valid and 0 LOG(" BOM block_addr=%d\n", block_addr); assert(block_addr == 0); break; case tape_status::EW: // we're between EW and EOM; block address is valid LOG(" EW block_addr=%d\n", block_addr); break; case tape_status::UNKNOWN: // we're after EOD or inside some block; block address is not valid case tape_status::UNKNOWN_EW: // we're after EOD or inside some block and also between EW and EOM; block address is not valid LOG(" UNKNOWN%s block_addr=%d\n", status == tape_status::UNKNOWN_EW ? " EW" : " ", block_addr); assert(block_addr == 0); break; case tape_status::EOM: // we're at EOM; block address is not valid LOG(" EOM block_addr=%d\n", block_addr); assert(block_addr == 0); break; default: assert(false); } const bool bom = status == tape_status::BOM; const bool eom = status == tape_status::EW || status == tape_status::UNKNOWN_EW || status == tape_status::EOM; const bool bpu = status == tape_status::UNKNOWN || status == tape_status::UNKNOWN_EW || status == tape_status::EOM; assert(sizeof(scsi_cmdbuf) >= 20); memset(scsi_cmdbuf, 0, 20); scsi_cmdbuf[0] = (bom ? 0x80 : 0) // is position at BOM | (eom ? 0x40 : 0) // is position between EW and EOM | (bpu ? 0x04 : 0); // is next block address invalid; "block position unknown" put_u32be(&scsi_cmdbuf[4], block_addr); // address of next block to be read/written; "first block location" put_u32be(&scsi_cmdbuf[8], block_addr); // address of last buffered block; we don't support buffering, so we set it to next block address; "last block location" scsi_data_in(SBUF_MAIN, 20); scsi_status_complete(SS_GOOD); } catch (std::exception &e) { // error: reading from tape failed osd_printf_error("READ FAILURE: nscsi_tape_device::handle_read_position: %s\n", e.what()); return report_read_failure(); } } void nscsi_tape_device::handle_release_unit() // mandatory; SCSI-2 section 10.2.9 { const bool tpr = scsi_cmdbuf[1] & 0x10; // "third-party release" const u8 tpdi = (scsi_cmdbuf[1] & 0x0e) >> 1; // "third-party device id" LOG("command RELEASE UNIT tpr=%d tpdi=%d\n", tpr, tpdi); if ((scsi_cmdbuf[1] & 0x01) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || scsi_cmdbuf[4]) // error: reserved bits set return report_bad_cdb_field(); // TODO: release unit, once MAME supports multiple initiators scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_reserve_unit() // mandatory; SCSI-2 section 10.2.10 { const bool tpr = scsi_cmdbuf[1] & 0x10; // "third-party release" const u8 tpdi = (scsi_cmdbuf[1] & 0x0e) >> 1; // "third-party device id" LOG("command RESERVE UNIT tpr=%d tpdi=%d\n", tpr, tpdi); if ((scsi_cmdbuf[1] & 0x01) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || scsi_cmdbuf[4]) // error: reserved bits set return report_bad_cdb_field(); // TODO: reserve unit, once MAME supports multiple initiators scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_rewind() // mandatory; SCSI-2 section 10.2.11 { const bool immed = scsi_cmdbuf[1] & 0x01; // ignored; we don't support buffering LOG("command REWIND immed=%d\n", immed); if ((scsi_cmdbuf[1] & 0x1e) || scsi_cmdbuf[2] || scsi_cmdbuf[3] || scsi_cmdbuf[4]) // error: reserved bits set return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); m_image->get_file()->rewind(false); scsi_status_complete(SS_GOOD); } void nscsi_tape_device::handle_space() // mandatory; SCSI-2 section 10.2.12 { const u8 items_type = scsi_cmdbuf[1] & 0x07; // what type of items should we space over const u32 req_dir_items_num = get_s24be(&scsi_cmdbuf[2]); // requested direction and number of items to space over; "count" LOG("command SPACE items_type=0x%02x req_dir_items_num=%d\n", items_type, req_dir_items_num); if (scsi_cmdbuf[1] & 0x18) // error: reserved bits set return report_bad_cdb_field(); if (items_type != STC_BLOCKS && items_type != STC_FILEMARKS && items_type != STC_END_OF_DATA) // error: we don't support spacing over setmarks or sequential filemarks return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); try { if (items_type == STC_END_OF_DATA) { // spacing EOD needs special handling const auto status = m_image->get_file()->space_eod(); switch (status) { case tape_status::OK: // success: we reached EOD return scsi_status_complete(SS_GOOD); case tape_status::EOM: // error: we reached EOM return report_eom(false, 0, true); default: assert(false); } } if (req_dir_items_num == 0) // success: we have nothing to do return scsi_status_complete(SS_GOOD); const bool marks = items_type == STC_FILEMARKS; const bool reverse = req_dir_items_num < 0; const u32 req_items_num = reverse ? -req_dir_items_num : req_dir_items_num; const auto result = marks ? (reverse ? m_image->get_file()->space_filemarks_reverse(req_items_num) : m_image->get_file()->space_filemarks(req_items_num)) : (reverse ? m_image->get_file()->space_blocks_reverse(req_items_num) : m_image->get_file()->space_blocks(req_items_num)); const auto status = result.first; const u32 items_num = result.second; switch (status) { case tape_status::OK: // success: we reached requested item assert(items_num == req_items_num); return scsi_status_complete(SS_GOOD); case tape_status::BOM: // error: we reached BOM return report_bom(req_items_num - items_num); case tape_status::FILEMARK: // error: we reached filemark case tape_status::FILEMARK_EW: // error: we reached filemark and we're also between EW and EOM return report_filemark(req_items_num - items_num, status == tape_status::FILEMARK_EW); case tape_status::EOD: // error: we reached EOD case tape_status::EOD_EW: // error: we reached EOD and we're also between EW and EOM return report_eod(req_items_num - items_num, status == tape_status::EOD_EW); case tape_status::EOM: // error: we reached EOM return report_eom(false, req_items_num - items_num); default: assert(false); } } catch (std::exception &e) { // error: reading from tape failed osd_printf_error("READ FAILURE: nscsi_tape_device::handle_space: %s\n", e.what()); return report_read_failure(); } } void nscsi_tape_device::handle_write_6() // mandatory; SCSI-2 section 10.2.14 { const bool fixed = scsi_cmdbuf[1] & 0x01; // should we write many fixed-length blocks instead of 1 variable-length block const u32 req_items_num = get_u24be(&scsi_cmdbuf[2]); // requested number of blocks or bytes to write; "transfer length" LOG("command WRITE(6) fixed=%d req_items_num=%d\n", fixed, req_items_num); if (scsi_cmdbuf[1] & 0x1e) // error: reserved bits set return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); if (m_image->get_file()->is_read_only()) // error: tape is read-only return report_read_only(); if (req_items_num == 0) // success: we have nothing to do return scsi_status_complete(SS_GOOD); if (!fixed && req_items_num > m_rw_buf_size) { m_rw_buf_size = req_items_num; m_rw_buf = std::make_unique(m_rw_buf_size); } m_rw_pending = true; m_rw_len = 0; m_rw_blocks_num = 0; m_rw_req_blocks_num = fixed ? req_items_num : 1; m_rw_req_block_len = fixed ? m_fixed_block_len : req_items_num; m_rw_fixed_blocks = fixed; assert(m_rw_req_block_len <= m_rw_buf_size); scsi_data_out(TAPE_RW_BUF_ID, m_rw_req_blocks_num * m_rw_req_block_len); // we continue in continue_handling_write_6 through scsi_put_data } void nscsi_tape_device::continue_handling_write_6() { // this function is called by scsi_put_data every time read/write buffer is filled assert(m_has_tape); assert(m_rw_len == m_rw_req_block_len); try { const auto status = m_image->get_file()->write_block(m_rw_buf.get(), m_rw_req_block_len); switch (status) { case tape_status::OK: // success: we wrote another block m_rw_len = 0; m_rw_blocks_num++; if (m_rw_blocks_num == m_rw_req_blocks_num) { // success: we're done m_rw_pending = false; return scsi_status_complete(SS_GOOD); } return; // we should write some more blocks case tape_status::EW: // success: we wrote another block, but we're between EW and EOM m_rw_len = 0; m_rw_blocks_num++; m_rw_pending = false; return report_ew(m_rw_fixed_blocks ? (m_rw_req_blocks_num - m_rw_blocks_num) : m_rw_req_block_len); case tape_status::EOM: // error: we reached EOM m_rw_pending = false; return report_eom(true, m_rw_fixed_blocks ? (m_rw_req_blocks_num - m_rw_blocks_num) : m_rw_req_block_len); default: assert(false); } } catch (std::exception &e) { // error: writing to tape failed osd_printf_error("WRITE FAILURE: nscsi_tape_device::continue_handling_write_6: %s\n", e.what()); return report_write_failure(); } } void nscsi_tape_device::handle_write_filemarks() // mandatory; SCSI-2 section 10.2.15 { const bool setmarks = scsi_cmdbuf[1] & 0x02; // should we write setmarks instead of filemarks const bool immed = scsi_cmdbuf[1] & 0x01; // ignored; we don't support buffering const u32 req_marks_num = get_u24be(&scsi_cmdbuf[2]); // requested number of marks to write; "transfer length" LOG("command WRITE FILEMARKS setmarks=%d immed=%d req_marks_num=%d\n", setmarks, immed, req_marks_num); if (scsi_cmdbuf[1] & 0x1c) // error: reserved bits set return report_bad_cdb_field(); if (setmarks) // error: we don't support writing setmarks return report_bad_cdb_field(); if (!m_has_tape) // error: no tape return report_no_medium(); if (m_image->get_file()->is_read_only()) // error: tape is read-only return report_read_only(); try { const auto status = m_image->get_file()->write_filemarks(req_marks_num); switch (status) { case tape_status::OK: // success: we wrote all filemarks return scsi_status_complete(SS_GOOD); case tape_status::EW: // success: we wrote all filemarks, but we're between EW and EOM return report_ew(); case tape_status::EOM: // error: we reached EOM return report_eom(true, req_marks_num); default: assert(false); } } catch (std::exception &e) { // error: writing to tape failed osd_printf_error("WRITE FAILURE: nscsi_tape_device::handle_write_filemarks: %s\n", e.what()); return report_write_failure(); } } //////////////////////////////////////////////////////////////////////////////