/* * Copyright (c) 2013-2022 Douglas Gilbert. * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. * * SPDX-License-Identifier: BSD-2-Clause */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #ifdef HAVE_CONFIG_H #include "config.h" #endif #ifndef HAVE_LINUX_SG_V4_HDR /* Kernel uapi header contain __user decorations on user space pointers * to indicate they are unsafe in the kernel space. However glibc takes * all those __user decorations out from headers in /usr/include/linux . * So to stop compile errors when directly importing include/uapi/scsi/sg.h * undef __user before doing that include. */ #define __user /* Want to block the original sg.h header from also being included. That * causes lots of multiple definition errors. This will only work if this * header is included _before_ the original sg.h header. */ #define _SCSI_GENERIC_H /* original kernel header guard */ #define _SCSI_SG_H /* glibc header guard */ #include "uapi_sg.h" /* local copy of include/uapi/scsi/sg.h */ #else #define __user #endif /* end of: ifndef HAVE_LINUX_SG_V4_HDR */ #include "sg_lib.h" #include "sg_io_linux.h" #include "sg_unaligned.h" static const char * version_str = "1.14 20220425"; static const char * util_name = "sg_tst_excl"; /* This is a test program for checking O_EXCL on open() works. It uses * multiple threads and can be run as multiple processes and attempts * to "break" O_EXCL. The strategy is to open a device O_EXCL|O_NONBLOCK * and do a double increment on a LB then close it. Prior to the first * increment, the value is checked for even or odd. Assuming the count * starts as an even (typically 0) then it should remain even. Odd instances * are counted and reported at the end of the program, after all threads * have completed. * * This is C++ code with some things from C++11 (e.g. threads) and was * only just able to compile (when some things were reverted) with gcc/g++ * version 4.7.3 found in Ubuntu 13.04 . C++11 "feature complete" support * was not available until g++ version 4.8.1 and that is only currently * found in Fedora 19 . * * The build uses various object files from the /lib directory * which is assumed to be a sibling of this examples directory. Those * object files in the lib directory can be built with: * cd ; ./configure ; cd lib; make * Then: * cd ../testing * make sg_tst_excl * * Currently this utility is Linux only and assumes the SG_IO v3 interface * which is supported by sg and block devices (but not bsg devices which * require the SG_IO v4 interface). This restriction is relaxed in the * sg_tst_excl2 variant of this utility. * * BEWARE: this utility modifies a logical block (default LBA 1000) on the * given device. * */ using namespace std; using namespace std::chrono; #define DEF_NUM_PER_THREAD 200 #define DEF_NUM_THREADS 4 #define DEF_WAIT_MS 0 /* 0: yield; -1: don't wait; -2: sleep(0) */ #define DEF_LBA 1000U #define EBUFF_SZ 256 static mutex odd_count_mutex; static mutex console_mutex; static unsigned int odd_count; static unsigned int ebusy_count; static unsigned int eagain_count; static int sg_ifc_ver = 3; static void usage(void) { printf("Usage: %s [-b] [-f] [-h] [-i ] [-l ] " "[-n ]\n" " [-t ] [-V] [-w ] " "[-x] [-xx]\n" " \n", util_name); printf(" where\n"); printf(" -b block on open (def: O_NONBLOCK)\n"); printf(" -f force: any SCSI disk (def: only " "scsi_debug)\n"); printf(" WARNING: written to\n"); printf(" -h print this usage message then exit\n"); printf(" -i sg driver interface version (default: " "3)\n"); printf(" -l logical block to increment (def: %u)\n", DEF_LBA); printf(" -n number of loops per thread " "(def: %d)\n", DEF_NUM_PER_THREAD); printf(" -t number of threads (def: %d)\n", DEF_NUM_THREADS); printf(" -V print version number then exit\n"); printf(" -w >0: sleep_for(); =0: " "yield(); -1: no\n" " wait; -2: sleep(0) (def: %d)\n", DEF_WAIT_MS); printf(" -x don't use O_EXCL on first thread " "(def: use\n" " O_EXCL on all threads)\n" " -xx don't use O_EXCL on any thread\n\n"); printf("Test O_EXCL open flag with Linux sg driver. Each open/close " "cycle with the\nO_EXCL flag does a double increment on " "lba (using its first 4 bytes).\nEach increment uses a READ_16, " "READ_16, increment, WRITE_16 cycle. The two\nREAD_16s are " "launched asynchronously. Note that '-xx' will run test\n" "without any O_EXCL flags.\n"); } #define READ16_REPLY_LEN 512 #define READ16_CMD_LEN 16 #define WRITE16_REPLY_LEN 512 #define WRITE16_CMD_LEN 16 /* Opens dev_name and spins if busy (i.e. gets EBUSY), sleeping for * wait_ms milliseconds if wait_ms is positive. * Reads lba (twice) and treats the first 4 bytes as an int (SCSI endian), * increments it and writes it back. Repeats so that happens twice. Then * closes dev_name. If an error occurs returns -1 else returns 0 if * first int read from lba is even otherwise returns 1. */ static int do_rd_inc_wr_twice_v3(const char * dev_name, unsigned int lba, int block, int excl, int wait_ms, int id, unsigned int & ebusy, unsigned int & eagains) { bool odd = false; int k, sg_fd; struct sg_io_hdr pt, pt2; unsigned char r16CmdBlk [READ16_CMD_LEN] = {0x88, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0}; unsigned char w16CmdBlk [WRITE16_CMD_LEN] = {0x8a, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0}; unsigned char sense_buffer[64] SG_C_CPP_ZERO_INIT; unsigned char lb[READ16_REPLY_LEN]; int open_flags = O_RDWR; sg_put_unaligned_be64(lba, r16CmdBlk + 2); sg_put_unaligned_be64(lba, w16CmdBlk + 2); if (! block) open_flags |= O_NONBLOCK; if (excl) open_flags |= O_EXCL; while (((sg_fd = open(dev_name, open_flags)) < 0) && (EBUSY == errno)) { ++ebusy; if (wait_ms > 0) this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? } if (sg_fd < 0) { char ebuff[EBUFF_SZ]; snprintf(ebuff, EBUFF_SZ, "%s: error opening file: %s", __func__, dev_name); perror(ebuff); return -1; } for (k = 0; k < 2; ++k) { bool ok = false; int res; unsigned int u = 0; /* Prepare READ_16 command */ memset(&pt, 0, sizeof(pt)); pt.interface_id = 'S'; pt.cmd_len = sizeof(r16CmdBlk); pt.mx_sb_len = sizeof(sense_buffer); pt.dxfer_direction = SG_DXFER_FROM_DEV; pt.dxfer_len = READ16_REPLY_LEN; pt.dxferp = lb; pt.cmdp = r16CmdBlk; pt.sbp = sense_buffer; pt.timeout = 20000; /* 20000 millisecs == 20 seconds */ pt.pack_id = id; // queue up two READ_16s to same LBA if (write(sg_fd, &pt, sizeof(pt)) < 0) { { lock_guard lg(console_mutex); perror(" write(sg, READ_16)"); } close(sg_fd); return -1; } pt2 = pt; if (write(sg_fd, &pt2, sizeof(pt2)) < 0) { { lock_guard lg(console_mutex); perror(" write(sg, READ_16) 2"); } close(sg_fd); return -1; } while (((res = read(sg_fd, &pt, sizeof(pt))) < 0) && (EAGAIN == errno)) { ++eagains; if (wait_ms > 0) this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? } if (res < 0) { { lock_guard lg(console_mutex); perror(" read(sg, READ_16)"); } close(sg_fd); return -1; } /* now for the error processing */ switch (sg_err_category3(&pt)) { case SG_LIB_CAT_CLEAN: ok = true; break; case SG_LIB_CAT_RECOVERED: { lock_guard lg(console_mutex); fprintf(stderr, "Recovered error on READ_16, continuing\n"); } ok = true; break; default: /* won't bother decoding other categories */ { lock_guard lg(console_mutex); sg_chk_n_print3("READ_16 command error", &pt, 1); } break; } if (ok) { while (((res = read(sg_fd, &pt2, sizeof(pt2))) < 0) && (EAGAIN == errno)) { ++eagains; if (wait_ms > 0) this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? } if (res < 0) { { lock_guard lg(console_mutex); perror(" read(sg, READ_16) 2"); } close(sg_fd); return -1; } pt = pt2; /* now for the error processing */ ok = false; switch (sg_err_category3(&pt)) { case SG_LIB_CAT_CLEAN: ok = true; break; case SG_LIB_CAT_RECOVERED: { lock_guard lg(console_mutex); fprintf(stderr, "%s: Recovered error on READ_16, " "continuing 2\n", __func__); } ok = true; break; default: /* won't bother decoding other categories */ { lock_guard lg(console_mutex); sg_chk_n_print3("READ_16 command error 2", &pt, 1); } break; } } if (! ok) { close(sg_fd); return -1; } u = sg_get_unaligned_be32(lb); // Assuming u starts test as even (probably 0), expect it to stay even if (0 == k) odd = (1 == (u % 2)); ++u; sg_put_unaligned_be32(u, lb); if (wait_ms > 0) /* allow daylight for bad things ... */ this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? /* Prepare WRITE_16 command */ memset(&pt, 0, sizeof(pt)); pt.interface_id = 'S'; pt.cmd_len = sizeof(w16CmdBlk); pt.mx_sb_len = sizeof(sense_buffer); pt.dxfer_direction = SG_DXFER_TO_DEV; pt.dxfer_len = WRITE16_REPLY_LEN; pt.dxferp = lb; pt.cmdp = w16CmdBlk; pt.sbp = sense_buffer; pt.timeout = 20000; /* 20000 millisecs == 20 seconds */ pt.pack_id = id; if (ioctl(sg_fd, SG_IO, &pt) < 0) { { lock_guard lg(console_mutex); perror(" WRITE_16 SG_IO ioctl error"); } close(sg_fd); return -1; } /* now for the error processing */ ok = false; switch (sg_err_category3(&pt)) { case SG_LIB_CAT_CLEAN: ok = true; break; case SG_LIB_CAT_RECOVERED: { lock_guard lg(console_mutex); fprintf(stderr, "%s: Recovered error on WRITE_16, " "continuing\n", __func__); } ok = true; break; default: /* won't bother decoding other categories */ { lock_guard lg(console_mutex); sg_chk_n_print3("WRITE_16 command error", &pt, 1); } break; } if (! ok) { close(sg_fd); return -1; } } close(sg_fd); return (int)odd; } /* Opens dev_name and spins if busy (i.e. gets EBUSY), sleeping for * wait_ms milliseconds if wait_ms is positive. * Reads lba (twice) and treats the first 4 bytes as an int (SCSI endian), * increments it and writes it back. Repeats so that happens twice. Then * closes dev_name. If an error occurs returns -1 else returns 0 if * first int read from lba is even otherwise returns 1. */ static int do_rd_inc_wr_twice_v4(const char * dev_name, unsigned int lba, int block, int excl, int wait_ms, int id, unsigned int & ebusy, unsigned int & eagains) { bool odd = false; int k, sg_fd; struct sg_io_v4 pt, pt2; unsigned char r16CmdBlk [READ16_CMD_LEN] = {0x88, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0}; unsigned char w16CmdBlk [WRITE16_CMD_LEN] = {0x8a, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 0, 0}; unsigned char sense_buffer[64] SG_C_CPP_ZERO_INIT; unsigned char lb[READ16_REPLY_LEN]; int open_flags = O_RDWR; sg_put_unaligned_be64(lba, r16CmdBlk + 2); sg_put_unaligned_be64(lba, w16CmdBlk + 2); if (! block) open_flags |= O_NONBLOCK; if (excl) open_flags |= O_EXCL; while (((sg_fd = open(dev_name, open_flags)) < 0) && (EBUSY == errno)) { ++ebusy; if (wait_ms > 0) this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? } if (sg_fd < 0) { char ebuff[EBUFF_SZ]; snprintf(ebuff, EBUFF_SZ, "%s: error opening file: %s", __func__, dev_name); perror(ebuff); return -1; } for (k = 0; k < 2; ++k) { bool ok = false; int res; unsigned int u = 0; /* Prepare READ_16 command */ memset(&pt, 0, sizeof(pt)); pt.guard = 'Q'; pt.request_len = sizeof(r16CmdBlk); pt.max_response_len = sizeof(sense_buffer); // pt.dxfer_direction = SG_DXFER_FROM_DEV; pt.din_xfer_len = READ16_REPLY_LEN; pt.din_xferp = (uint64_t)(sg_uintptr_t)lb; pt.request = (uint64_t)(sg_uintptr_t)r16CmdBlk; pt.response = (uint64_t)(sg_uintptr_t)sense_buffer; pt.timeout = 20000; /* 20000 millisecs == 20 seconds */ pt.request_extra = id; /* pack_id field */ // queue up two READ_16s to same LBA if (ioctl(sg_fd, SG_IOSUBMIT, &pt) < 0) { { lock_guard lg(console_mutex); perror(" write(sg, READ_16)"); } close(sg_fd); return -1; } pt2 = pt; if (ioctl(sg_fd, SG_IOSUBMIT, &pt2) < 0) { { lock_guard lg(console_mutex); perror(" write(sg, READ_16) 2"); } close(sg_fd); return -1; } while (((res = ioctl(sg_fd, SG_IORECEIVE, &pt)) < 0) && (EAGAIN == errno)) { ++eagains; if (wait_ms > 0) this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? } if (res < 0) { { lock_guard lg(console_mutex); perror(" read(sg, READ_16)"); } close(sg_fd); return -1; } /* now for the error processing */ switch (sg_err_category_new(pt.device_status, pt.transport_status, pt.driver_status, sense_buffer, pt.response_len)) { case SG_LIB_CAT_CLEAN: ok = true; break; case SG_LIB_CAT_RECOVERED: { lock_guard lg(console_mutex); fprintf(stderr, "Recovered error on READ_16, continuing\n"); } ok = true; break; default: /* won't bother decoding other categories */ { lock_guard lg(console_mutex); sg_linux_sense_print("READ_16 command error", pt.device_status, pt.transport_status, pt.driver_status, sense_buffer, pt.response_len, true); // sg_chk_n_print3("READ_16 command error", &pt, 1); } break; } if (ok) { while (((res = ioctl(sg_fd, SG_IORECEIVE, &pt2)) < 0) && (EAGAIN == errno)) { ++eagains; if (wait_ms > 0) this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? } if (res < 0) { { lock_guard lg(console_mutex); perror(" read(sg, READ_16) 2"); } close(sg_fd); return -1; } pt = pt2; /* now for the error processing */ ok = false; switch (sg_err_category_new(pt.device_status, pt.transport_status, pt.driver_status, sense_buffer, pt.response_len)) { case SG_LIB_CAT_CLEAN: ok = true; break; case SG_LIB_CAT_RECOVERED: { lock_guard lg(console_mutex); fprintf(stderr, "%s: Recovered error on READ_16, " "continuing 2\n", __func__); } ok = true; break; default: /* won't bother decoding other categories */ { lock_guard lg(console_mutex); sg_linux_sense_print("READ_16 command error 2", pt.device_status, pt.transport_status, pt.driver_status, sense_buffer, pt.response_len, true); // sg_chk_n_print3("READ_16 command error 2", &pt, 1); } break; } } if (! ok) { close(sg_fd); return -1; } u = sg_get_unaligned_be32(lb); // Assuming u starts test as even (probably 0), expect it to stay even if (0 == k) odd = (1 == (u % 2)); ++u; sg_put_unaligned_be32(u, lb); if (wait_ms > 0) /* allow daylight for bad things ... */ this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? /* Prepare WRITE_16 command */ memset(&pt, 0, sizeof(pt)); pt.guard = 'Q'; pt.request_len = sizeof(w16CmdBlk); pt.max_response_len = sizeof(sense_buffer); // pt.dxfer_direction = SG_DXFER_TO_DEV; pt.dout_xfer_len = WRITE16_REPLY_LEN; pt.dout_xferp = (uint64_t)(sg_uintptr_t)lb; pt.request = (uint64_t)(sg_uintptr_t)w16CmdBlk; pt.response = (uint64_t)(sg_uintptr_t)sense_buffer; pt.timeout = 20000; /* 20000 millisecs == 20 seconds */ pt.request_extra = id; /* pack_id field */ if (ioctl(sg_fd, SG_IO, &pt) < 0) { { lock_guard lg(console_mutex); perror(" WRITE_16 SG_IO ioctl error"); } close(sg_fd); return -1; } /* now for the error processing */ ok = false; switch (sg_err_category_new(pt.device_status, pt.transport_status, pt.driver_status, sense_buffer, pt.response_len)) { case SG_LIB_CAT_CLEAN: ok = true; break; case SG_LIB_CAT_RECOVERED: { lock_guard lg(console_mutex); fprintf(stderr, "%s: Recovered error on WRITE_16, " "continuing\n", __func__); } ok = true; break; default: /* won't bother decoding other categories */ { lock_guard lg(console_mutex); sg_linux_sense_print("WRITE_16 command error", pt.device_status, pt.transport_status, pt.driver_status, sense_buffer, pt.response_len, true); } break; } if (! ok) { close(sg_fd); return -1; } } close(sg_fd); return odd; } #define INQ_REPLY_LEN 96 #define INQ_CMD_LEN 6 /* Send INQUIRY and fetches response. If okay puts PRODUCT ID field * in b (up to m_blen bytes). Does not use O_EXCL flag. Returns 0 on success, * else -1 . */ static int do_inquiry_prod_id(const char * dev_name, int block, int wait_ms, unsigned int & ebusys, char * b, int b_mlen) { int sg_fd, ok, ret; struct sg_io_hdr pt; unsigned char inqCmdBlk [INQ_CMD_LEN] = {0x12, 0, 0, 0, INQ_REPLY_LEN, 0}; unsigned char inqBuff[INQ_REPLY_LEN]; unsigned char sense_buffer[64] SG_C_CPP_ZERO_INIT; int open_flags = O_RDWR; /* O_EXCL | O_RDONLY fails with EPERM */ if (! block) open_flags |= O_NONBLOCK; while (((sg_fd = open(dev_name, open_flags)) < 0) && (EBUSY == errno)) { ++ebusys; if (wait_ms > 0) this_thread::sleep_for(milliseconds{wait_ms}); else if (0 == wait_ms) this_thread::yield(); else if (-2 == wait_ms) sleep(0); // process yield ?? } if (sg_fd < 0) { char ebuff[EBUFF_SZ]; snprintf(ebuff, EBUFF_SZ, "do_inquiry_prod_id: error opening file: %s", dev_name); perror(ebuff); return -1; } /* Prepare INQUIRY command */ memset(&pt, 0, sizeof(pt)); pt.interface_id = 'S'; pt.cmd_len = sizeof(inqCmdBlk); /* pt.iovec_count = 0; */ /* memset takes care of this */ pt.mx_sb_len = sizeof(sense_buffer); pt.dxfer_direction = SG_DXFER_FROM_DEV; pt.dxfer_len = INQ_REPLY_LEN; pt.dxferp = inqBuff; pt.cmdp = inqCmdBlk; pt.sbp = sense_buffer; pt.timeout = 20000; /* 20000 millisecs == 20 seconds */ /* pt.flags = 0; */ /* take defaults: indirect IO, etc */ /* pt.pack_id = 0; */ /* pt.usr_ptr = NULL; */ if (ioctl(sg_fd, SG_IO, &pt) < 0) { perror("do_inquiry_prod_id: Inquiry SG_IO ioctl error"); close(sg_fd); return -1; } /* now for the error processing */ ok = 0; switch (sg_err_category3(&pt)) { case SG_LIB_CAT_CLEAN: ok = 1; break; case SG_LIB_CAT_RECOVERED: fprintf(stderr, "Recovered error on INQUIRY, continuing\n"); ok = 1; break; default: /* won't bother decoding other categories */ sg_chk_n_print3("INQUIRY command error", &pt, 1); break; } if (ok) { /* Good, so fetch Product ID from response, copy to 'b' */ if (b_mlen > 0) { if (b_mlen > 16) { memcpy(b, inqBuff + 16, 16); b[16] = '\0'; } else { memcpy(b, inqBuff + 16, b_mlen - 1); b[b_mlen - 1] = '\0'; } } ret = 0; } else ret = -1; close(sg_fd); return ret; } static void work_thread(const char * dev_name, unsigned int lba, int id, int block, int excl, int num, int wait_ms) { unsigned int thr_odd_count = 0; unsigned int thr_ebusy_count = 0; unsigned int thr_eagain_count = 0; int k, res; { lock_guard lg(console_mutex); cerr << "Enter work_thread id=" << id << " excl=" << excl << " block=" << block << endl; } for (k = 0; k < num; ++k) { if (sg_ifc_ver == 3) res = do_rd_inc_wr_twice_v3(dev_name, lba, block, excl, wait_ms, k, thr_ebusy_count, thr_eagain_count); else if (sg_ifc_ver == 4) res = do_rd_inc_wr_twice_v4(dev_name, lba, block, excl, wait_ms, k, thr_ebusy_count, thr_eagain_count); else { lock_guard lg(console_mutex); cerr << "sg_ifc_ver=" << sg_ifc_ver << " not supported" << endl; res = -1; } if (res < 0) break; if (res) ++thr_odd_count; } { lock_guard lg(console_mutex); if (k < num) cerr << "thread id=" << id << " FAILed at iteration: " << k << '\n'; else cerr << "thread id=" << id << " normal exit" << '\n'; } { lock_guard lg(odd_count_mutex); odd_count += thr_odd_count; ebusy_count += thr_ebusy_count; eagain_count += thr_eagain_count; } } int main(int argc, char * argv[]) { int k; int block = 0; int force = 0; unsigned int lba = DEF_LBA; int num_per_thread = DEF_NUM_PER_THREAD; int num_threads = DEF_NUM_THREADS; int wait_ms = DEF_WAIT_MS; int no_o_excl = 0; char * dev_name = NULL; for (k = 1; k < argc; ++k) { if (0 == memcmp("-b", argv[k], 2)) ++block; else if (0 == memcmp("-f", argv[k], 2)) ++force; else if (0 == memcmp("-h", argv[k], 2)) { usage(); return 0; } else if (0 == memcmp("-i", argv[k], 2)) { ++k; if ((k < argc) && isdigit(*argv[k])) sg_ifc_ver = atoi(argv[k]); else break; } else if (0 == memcmp("-l", argv[k], 2)) { ++k; if ((k < argc) && isdigit(*argv[k])) lba = (unsigned int)atoi(argv[k]); else break; } else if (0 == memcmp("-n", argv[k], 2)) { ++k; if ((k < argc) && isdigit(*argv[k])) num_per_thread = atoi(argv[k]); else break; } else if (0 == memcmp("-t", argv[k], 2)) { ++k; if ((k < argc) && isdigit(*argv[k])) num_threads = atoi(argv[k]); else break; } else if (0 == memcmp("-V", argv[k], 2)) { printf("%s version: %s\n", util_name, version_str); return 0; } else if (0 == memcmp("-w", argv[k], 2)) { ++k; if ((k < argc) && (isdigit(*argv[k]) || ('-' == *argv[k]))) { if ('-' == *argv[k]) wait_ms = - atoi(argv[k] + 1); else wait_ms = atoi(argv[k]); } else break; } else if (0 == memcmp("-xxx", argv[k], 4)) no_o_excl += 3; else if (0 == memcmp("-xx", argv[k], 3)) no_o_excl += 2; else if (0 == memcmp("-x", argv[k], 2)) ++no_o_excl; else if (*argv[k] == '-') { printf("Unrecognized switch: %s\n", argv[k]); dev_name = NULL; break; } else if (! dev_name) dev_name = argv[k]; else { printf("too many arguments\n"); dev_name = 0; break; } } if (0 == dev_name) { usage(); return 1; } try { struct stat a_stat; if (stat(dev_name, &a_stat) < 0) { perror("stat() on dev_name failed"); return 1; } if (! S_ISCHR(a_stat.st_mode)) { fprintf(stderr, "%s should be a sg device which is a char " "device. %s\n", dev_name, dev_name); fprintf(stderr, "is not a char device and damage could be done " "if it is a BLOCK\ndevice, exiting ...\n"); return 1; } if (! force) { char b[64]; int res = do_inquiry_prod_id(dev_name, block, wait_ms, ebusy_count, b, sizeof(b)); if (res) { fprintf(stderr, "INQUIRY failed on %s\n", dev_name); return 1; } // For safety, since written to, only permit scsi_debug // devices. Bypass this with '-f' option. if (0 != memcmp("scsi_debug", b, 10)) { fprintf(stderr, "Since this utility writes to LBA %u, only " "devices with scsi_debug\nproduct ID accepted.\n", lba); return 2; } } vector vt; for (k = 0; k < num_threads; ++k) { int excl = 1; if (no_o_excl > 1) excl = 0; else if ((0 == k) && (1 == no_o_excl)) excl = 0; thread * tp = new thread {work_thread, dev_name, lba, k, block, excl, num_per_thread, wait_ms}; vt.push_back(tp); } // g++ 4.7.3 didn't like range-for loop here for (k = 0; k < (int)vt.size(); ++k) vt[k]->join(); for (k = 0; k < (int)vt.size(); ++k) delete vt[k]; if (no_o_excl) cout << "Odd count: " << odd_count << endl; else cout << "Expecting odd count of 0, got " << odd_count << endl; cout << "Number of EBUSYs: " << ebusy_count << endl; cout << "Number of EAGAINs: " << eagain_count << endl; } catch(system_error& e) { cerr << "got a system_error exception: " << e.what() << '\n'; auto ec = e.code(); cerr << "category: " << ec.category().name() << '\n'; cerr << "value: " << ec.value() << '\n'; cerr << "message: " << ec.message() << '\n'; cerr << "\nNote: if g++ may need '-pthread' or similar in " "compile/link line" << '\n'; } catch(...) { cerr << "got another exception: " << '\n'; } return 0; }