/* * Copyright (c) 2022 Douglas Gilbert. * All rights reserved. * Use of this source code is governed by a BSD-style * license that can be found in the BSD_LICENSE file. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #define __STDC_FORMAT_MACROS 1 #include #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "sg_lib.h" #include "sg_lib_data.h" #include "sg_pt.h" #include "sg_cmds_basic.h" #include "sg_unaligned.h" #include "sg_pr2serr.h" /* A utility program originally written for the Linux OS SCSI subsystem. * * * This program issues the SCSI REPORT DENSITY SUPPORT command to the given * SCSI (tape) device and outputs the response. Based on ssc5r06.pdf */ static const char * version_str = "1.00 20220120"; #define MAX_RDS_BUFF_LEN (64 * 1024 - 1) #define DEF_RDS_BUFF_LEN 4096 #define REPORT_DENSITY_SUPPORT_CMD 0x44 #define REPORT_DENSITY_SUPPORT_CMDLEN 10 #define RDS_DENSITY_DESC_LEN 52 #define RDS_MEDIUM_T_DESC_LEN 56 #define SENSE_BUFF_LEN 64 /* Arbitrary, could be larger */ #define DEF_PT_TIMEOUT 60 /* 60 seconds */ static const char * rds_s = "Report density support"; static struct option long_options[] = { {"help", no_argument, 0, 'h'}, {"hex", no_argument, 0, 'H'}, {"in", required_argument, 0, 'i'}, /* silent, same as --inhex= */ {"inhex", required_argument, 0, 'i'}, {"maxlen", required_argument, 0, 'm'}, {"media", no_argument, 0, 'M'}, /* Media field; byte 1, bit 0 */ {"raw", no_argument, 0, 'r'}, {"readonly", no_argument, 0, 'R'}, {"typem", no_argument, 0, 't'}, /* Medium type field, byte 1, bit 1 */ {"verbose", no_argument, 0, 'v'}, {"version", no_argument, 0, 'V'}, {0, 0, 0, 0}, }; static void usage(void) { pr2serr("Usage: " "sg_rep_density [--help] [--hex] [--inhex=FN] [--maxlen=LEN] " "[--media]\n" " [--raw] [--readonly] [--typem] [--verbose] " "[--version]\n" " DEVICE\n"); pr2serr(" where:\n" " --help|-h prints out this usage message\n" " --hex|-H output response in hexadecimal " "(default); used\n" " twice: hex without addresses at start " "of line\n" " --inhex=FN decode contents of FN, ignore DEVICE\n" " --maxlen=LEN|-m LEN max response length (allocation " "length in cdb)\n" " (def: 512 bytes)\n" " --media|-M report on media in drive (def: report " "on drive)\n" " --raw|-r output response in binary\n" " --readonly|-R open DEVICE read-only (def: read-write)\n" " --typem|-t report medium types (def: density " "codes)\n" " --verbose|-v increase verbosity\n" " --version|-V print version string and exit\n\n" "Sends a SCSI REPORT DENSITY SUPPORT command outputs the " "response in\nASCII hexadecimal or binary. By default it reports " "on density codes supported\nby the drive (LU).\n"); } /* Invokes a SCSI REPORT PROVISIONING INITIALIZATION PATTERN command (SBC). * Return of 0 -> success, various SG_LIB_CAT_* positive values or * -1 -> other errors */ static int sg_ll_report_density(int sg_fd, bool media, bool m_type, void * resp, int mx_resp_len, int * residp, bool noisy, int verbose) { int ret, res, sense_cat; uint8_t rds_cdb[REPORT_DENSITY_SUPPORT_CMDLEN] = {REPORT_DENSITY_SUPPORT_CMD, 0, 0, 0, 0, 0, 0, 0, 0, 0}; uint8_t sense_b[SENSE_BUFF_LEN] SG_C_CPP_ZERO_INIT; struct sg_pt_base * ptvp; if (media) rds_cdb[1] |= 0x1; if (m_type) rds_cdb[1] |= 0x2; sg_put_unaligned_be16((uint16_t)mx_resp_len, rds_cdb + 7); if (verbose) { char b[128]; pr2serr(" %s cdb: %s\n", rds_s, sg_get_command_str(rds_cdb, REPORT_DENSITY_SUPPORT_CMDLEN, false, sizeof(b), b)); } ptvp = construct_scsi_pt_obj(); if (NULL == ptvp) { pr2serr("%s: out of memory\n", __func__); return -1; } set_scsi_pt_cdb(ptvp, rds_cdb, sizeof(rds_cdb)); set_scsi_pt_sense(ptvp, sense_b, sizeof(sense_b)); set_scsi_pt_data_in(ptvp, (uint8_t *)resp, mx_resp_len); res = do_scsi_pt(ptvp, sg_fd, DEF_PT_TIMEOUT, verbose); ret = sg_cmds_process_resp(ptvp, rds_s, res, noisy, verbose, &sense_cat); if (-1 == ret) { if (get_scsi_pt_transport_err(ptvp)) ret = SG_LIB_TRANSPORT_ERROR; else ret = sg_convert_errno(get_scsi_pt_os_err(ptvp)); } else if (-2 == ret) { switch (sense_cat) { case SG_LIB_CAT_RECOVERED: case SG_LIB_CAT_NO_SENSE: ret = 0; break; default: ret = sense_cat; break; } } else ret = 0; if (residp) *residp = get_scsi_pt_resid(ptvp); destruct_scsi_pt_obj(ptvp); return ret; } static void decode_medium_type(const uint8_t * up, int num_desc) { int k, j, n, q; for (k = 0; k < num_desc; ++k, up += RDS_MEDIUM_T_DESC_LEN) { if (0 == k) printf("Medium type descriptor%s\n", ((num_desc > 1) ? "s" : "")); printf(" descriptor %d\n", k + 1); printf(" Medium type: %u\n", up[0]); n = up[4]; printf(" Number of density codes: %d\n", n); if (n > 9) n = 9; for (j = 0; j < n; ++j) { q = up[5 + j]; if (q > 0) printf(" Primary density code: %d\n", q); } printf(" Media width: %u\n", sg_get_unaligned_be16(up + 14)); printf(" Medium length: %u\n", sg_get_unaligned_be16(up + 16)); printf(" Assigning organization: %.8s\n", (const char *)(up + 20)); printf(" Medium type name: %.8s\n", (const char *)(up + 28)); printf(" Description: %.20s\n", (const char *)(up + 36)); } } static void decode_density_code(const uint8_t * up, int num_desc) { int k; for (k = 0; k < num_desc; ++k, up += RDS_DENSITY_DESC_LEN) { if (0 == k) printf("Density support data block descriptor%s\n", ((num_desc > 1) ? "s" : "")); printf(" descriptor %d\n", k + 1); printf(" Primary density code: %u\n", up[0]); printf(" Secondary density code: %u\n", up[1]); printf(" WRT: %u\n", !!(0x80 & up[2])); printf(" DUP: %u\n", !!(0x40 & up[2])); printf(" DEFLT: %u\n", !!(0x20 & up[2])); printf(" DLV: %u\n", !!(0x1 & up[2])); printf(" Bits per mm: %u\n", sg_get_unaligned_be24(up + 5)); printf(" Media width: %u\n", sg_get_unaligned_be16(up + 8)); printf(" Tracks: %u\n", sg_get_unaligned_be16(up + 10)); printf(" Capacity: %u\n", sg_get_unaligned_be32(up + 12)); printf(" Assigning organization: %.8s\n", (const char *)(up + 16)); printf(" Density name: %.8s\n", (const char *)(up + 24)); printf(" Description: %.20s\n", (const char *)(up + 32)); } } static void dStrRaw(const uint8_t * str, int len) { int k; for (k = 0; k < len; ++k) printf("%c", str[k]); } int main(int argc, char * argv[]) { bool do_raw = false; bool media = false; bool m_type = false; bool no_final_msg = false; bool o_readonly = false; bool verbose_given = false; bool version_given = false; int res, c, rlen, desc_len, ads_len, num_desc; int resid = 0; int sg_fd = -1; int do_help = 0; int do_hex = 0; int maxlen = 0; int in_len = 0; int ret = 0; int verbose = 0; const char * device_name = NULL; const char * inhex_fn = NULL; uint8_t * rdsBuff = NULL; uint8_t * free_rds = NULL; char b[80]; while (1) { int option_index = 0; c = getopt_long(argc, argv, "hHi:m:MrRtvV", long_options, &option_index); if (c == -1) break; switch (c) { case 'h': case '?': ++do_help; break; case 'H': ++do_hex; break; case 'i': inhex_fn = optarg; break; case 'm': maxlen = sg_get_num(optarg); if ((maxlen < 0) || (maxlen > MAX_RDS_BUFF_LEN)) { pr2serr("argument to '--maxlen' should be %d or less\n", MAX_RDS_BUFF_LEN); return SG_LIB_SYNTAX_ERROR; } break; case 'M': media = true; break; case 'r': do_raw = true; break; case 'R': o_readonly = true; break; case 't': m_type = true; break; case 'v': verbose_given = true; ++verbose; break; case 'V': version_given = true; break; default: pr2serr("unrecognised option code 0x%x ??\n", c); usage(); return SG_LIB_SYNTAX_ERROR; } } if (optind < argc) { if (NULL == device_name) { device_name = argv[optind]; ++optind; } if (optind < argc) { for (; optind < argc; ++optind) pr2serr("Unexpected extra argument: %s\n", argv[optind]); usage(); return SG_LIB_SYNTAX_ERROR; } } #ifdef DEBUG pr2serr("In DEBUG mode, "); if (verbose_given && version_given) { pr2serr("but override: '-vV' given, zero verbose and continue\n"); verbose_given = false; version_given = false; verbose = 0; } else if (! verbose_given) { pr2serr("set '-vv'\n"); verbose = 2; } else pr2serr("keep verbose=%d\n", verbose); #else if (verbose_given && version_given) pr2serr("Not in DEBUG mode, so '-vV' has no special action\n"); #endif if (version_given) { pr2serr("version: %s\n", version_str); return 0; } if (do_help) { usage(); return 0; } if (device_name && inhex_fn) { pr2serr("ignoring DEVICE, best to give DEVICE or --inhex=FN, but " "not both\n"); device_name = NULL; } if (0 == maxlen) maxlen = DEF_RDS_BUFF_LEN; rdsBuff = (uint8_t *)sg_memalign(maxlen, 0, &free_rds, verbose > 3); if (NULL == rdsBuff) { pr2serr("unable to sg_memalign %d bytes\n", maxlen); return sg_convert_errno(ENOMEM); } if (NULL == device_name) { if (inhex_fn) { if ((ret = sg_f2hex_arr(inhex_fn, do_raw, false, rdsBuff, &in_len, maxlen))) { if (SG_LIB_LBA_OUT_OF_RANGE == ret) { no_final_msg = true; pr2serr("... decode what we have, --maxlen=%d needs to " "be increased\n", maxlen); } else goto the_end; } if (verbose > 2) pr2serr("Read %d [0x%x] bytes of user supplied data\n", in_len, in_len); if (do_raw) do_raw = false; /* otherwise interferes with decoding */ if (in_len < 4) { pr2serr("--inhex=%s only decoded %d bytes (needs 4 at " "least)\n", inhex_fn, in_len); ret = SG_LIB_SYNTAX_ERROR; goto the_end; } res = 0; maxlen = in_len; goto start_response; } else { pr2serr("missing device name!\n\n"); usage(); ret = SG_LIB_FILE_ERROR; no_final_msg = true; goto the_end; } } else in_len = 0; if (do_raw) { if (sg_set_binary_mode(STDOUT_FILENO) < 0) { perror("sg_set_binary_mode"); ret = SG_LIB_FILE_ERROR; no_final_msg = true; goto the_end; } } sg_fd = sg_cmds_open_device(device_name, o_readonly, verbose); if (sg_fd < 0) { if (verbose) pr2serr("open error: %s: %s\n", device_name, safe_strerror(-sg_fd)); ret = sg_convert_errno(-sg_fd); goto the_end; } res = sg_ll_report_density(sg_fd, media, m_type, rdsBuff, maxlen, &resid, true, verbose); start_response: ret = res; if (0 == res) { rlen = maxlen - resid; if (rlen < 4) { pr2serr("Response length (%d) too short\n", rlen); ret = SG_LIB_CAT_MALFORMED; goto the_end; } if (do_raw) { dStrRaw(rdsBuff, rlen); goto the_end; } if (do_hex) { if (2 != do_hex) hex2stdout(rdsBuff, rlen, ((1 == do_hex) ? 1 : -1)); else hex2stdout(rdsBuff, rlen, 0); goto the_end; } desc_len = m_type ? RDS_MEDIUM_T_DESC_LEN : RDS_DENSITY_DESC_LEN; ads_len = sg_get_unaligned_be16(rdsBuff + 0) + 2; if (4 == ads_len) goto the_end; if (ads_len < 4) { pr2serr("Badly formatted response, ads_len=%d\n", ads_len - 2); ret = SG_LIB_CAT_MALFORMED; goto the_end; } if (ads_len > rlen) { if (verbose) pr2serr("Trimming response from %d to %d bytes\n", ads_len, rlen); ads_len = rlen; if (4 == ads_len) goto the_end; } num_desc = (ads_len - 4) / desc_len; if (0 != ((ads_len - 4) % desc_len)) { if (verbose) pr2serr("Truncating response to %d descriptors\n", num_desc); } if (m_type) decode_medium_type(rdsBuff + 4, num_desc); else decode_density_code(rdsBuff + 4, num_desc); } else if (SG_LIB_CAT_INVALID_OP == res) pr2serr("%s command not supported\n", rds_s); else { sg_get_category_sense_str(res, sizeof(b), b, verbose); pr2serr("%s command: %s\n", rds_s, b); } the_end: if (free_rds) free(free_rds); if (sg_fd >= 0) { res = sg_cmds_close_device(sg_fd); if (res < 0) { pr2serr("close error: %s\n", safe_strerror(-res)); if (0 == ret) ret = sg_convert_errno(-res); } } if ((0 == verbose) && (! no_final_msg)) { if (! sg_if_can2stderr("sg_rep_density failed: ", ret)) pr2serr("Some error occurred, try again with '-v' " "or '-vv' for more information\n"); } return (ret >= 0) ? ret : SG_LIB_CAT_OTHER; }