/* * Copyright (C) 2018-2022 D. Gilbert * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2, or (at your option) * any later version. * * SPDX-License-Identifier: BSD-2-Clause * * Invocation: See usage() function below. * */ #include #include #include #include #include #include #include #include #include #include #include #include #include #include #define __STDC_FORMAT_MACROS 1 #include #include /* For passing fd_s via Unix sockets */ #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_linux_inc.h" #include "sg_pr2serr.h" /* This program tests ioctl() calls added and modified in version 4.0 and * later of the Linux sg driver. */ static const char * version_str = "Version: 1.21 20220202"; #define INQ_REPLY_LEN 128 #define INQ_CMD_LEN 6 #define SDIAG_CMD_LEN 6 #define SENSE_BUFFER_LEN 96 #define EBUFF_SZ 512 #ifndef SG_FLAG_Q_AT_TAIL #define SG_FLAG_Q_AT_TAIL 0x10 #endif #ifndef SG_FLAG_Q_AT_HEAD #define SG_FLAG_Q_AT_HEAD 0x20 #endif #define DEF_Q_LEN 16 /* max in sg v3 and earlier */ #define MAX_Q_LEN 512 #define DEF_RESERVE_BUFF_SZ (256 * 1024) static bool create_time = false; static bool is_parent = false; static bool do_fork = false; static bool ioctl_only = false; static bool more_async = false; static bool no_duration = false; static bool q_at_tail = false; static bool write_only = false; static bool mrq_immed = false; /* if set, also sets mrq_iosubmit */ static bool mrq_half_immed = false; static bool mrq_iosubmit = false; static bool show_size_value = false; static bool do_v3_only = false; static int childs_pid = 0; static int iterator_test = -1; static int object_walk_test = -1; static int sg_drv_ver_num = 0; static int q_len = DEF_Q_LEN; static int sleep_secs = 0; static int reserve_buff_sz = DEF_RESERVE_BUFF_SZ; static int num_mrqs = 0; static int num_sgnw = 0; static int dname_current = 0; static int dname_last = 0; static int dname_pos = 0; static int verbose = 0; static const char * relative_cp = ""; static char * file_name = NULL; static void usage(void) { printf("Usage: sg_tst_ioctl [-3] [-c] [-f] [-h] [-I=0|1] [-J=0|1] " "[-l=Q_LEN]\n" " [-m=MRQS[,I|S]] [-M] [-n] [-o] [-r=SZ] " "[-s=SEC]\n" " [-S] [-t] [-T=NUM] [-v] [-V] [-w]\n" " [-] []\n" " where:\n" " -3 use sg v3 interface (def: sg v4 if available)\n" " -c timestamp when sg driver created \n" " -f fork and test share between processes\n" " -h help: print usage message then exit\n" " -I=0|1 iterator test of mid-level; 0: unlocked, 1: " "locked\n" " does test -T=NUM times, outputs duration\n" " -J=0|1 object walk up then 2 lookups; 0: no logging; " "1: log\n" " up-scan once per 1000 iterations\n" " -l=Q_LEN queue length, between 1 and 511 (def: 16)\n" " -m=MRQS[,I|S] test multi-req, MRQS number to do; if " "the letter\n" " 'I' is appended after a comma, then do " "IMMED mrq;\n" " 'i' IMMED on submission, non-IMMED on " "receive;\n" " 'S' is appended, then use " "ioctl(SG_IOSUBMIT)\n" " -M set 'more async' flag\n" " -n do not calculate per command duration (def: do)\n" " -o ioctls only, then exit\n" " -r=SZ reserve buffer size in KB (def: 256 --> 256 " "KB)\n" " -s=SEC sleep between writes and reads (def: 0)\n" " -S size of interface structures plus ioctl " "values\n" " -t queue_at_tail (def: q_at_head)\n" " -T=NUM time overhead of NUM invocations of\n" " ioctl(SG_GET_NUM_WAITING); then exit\n" " -v increase verbosity of output\n" " -V print version string then exit\n" " -w write (submit) only then exit\n\n"); printf("There are various groups of options for different tests. The " "get_num_waiting\ngroup needs '-T=NUM' given. When '-I=0|1' is " "also given then an object tree\niterator test is done NUM " "times. If instead '-J=0|1' is given then an\nobject tree " "traversal (up/down) is done 10,000 times (and NUM is\n" "ignored).\n" ); } static void timespec_add(const struct timespec *lhs_p, const struct timespec *rhs_p, struct timespec *res_p) { if ((lhs_p->tv_nsec + rhs_p->tv_nsec) > 1000000000L) { res_p->tv_sec = lhs_p->tv_sec + rhs_p->tv_sec + 1; res_p->tv_nsec = lhs_p->tv_nsec + rhs_p->tv_nsec - 1000000000L; } else { res_p->tv_sec = lhs_p->tv_sec + rhs_p->tv_sec; res_p->tv_nsec = lhs_p->tv_nsec + rhs_p->tv_nsec; } } static void timespec_diff(const struct timespec *lhs_p, const struct timespec *rhs_p, struct timespec *res_p) { if ((lhs_p->tv_nsec - rhs_p->tv_nsec) < 0) { res_p->tv_sec = lhs_p->tv_sec - rhs_p->tv_sec - 1; res_p->tv_nsec = lhs_p->tv_nsec - rhs_p->tv_nsec + 1000000000L; } else { res_p->tv_sec = lhs_p->tv_sec - rhs_p->tv_sec; res_p->tv_nsec = lhs_p->tv_nsec - rhs_p->tv_nsec; } } /* Returns 0 on success. */ int timespec2str(char *buf, unsigned int len, struct timespec *ts) { int ret; struct tm t; tzset(); if (localtime_r(&(ts->tv_sec), &t) == NULL) return 1; ret = strftime(buf, len, "%F %T", &t); if (ret == 0) return 2; len -= ret - 1; ret = snprintf(&buf[strlen(buf)], len, ".%09ld", ts->tv_nsec); if (ret >= (int)len) return 3; return 0; } /* This function taken from Keith Parkard's blog dated 20121005 */ static ssize_t sock_fd_write(int sock, const void *buf, ssize_t buflen, int fd) { ssize_t size; struct msghdr msg; struct iovec iov; union { struct cmsghdr cmsghdr; char control[CMSG_SPACE(sizeof (int))]; } cmsgu; struct cmsghdr *cmsg; iov.iov_base = (void *)buf; /* OS shouldn't write back in this */ iov.iov_len = buflen; msg.msg_name = NULL; msg.msg_namelen = 0; msg.msg_iov = &iov; msg.msg_iovlen = 1; if (fd != -1) { msg.msg_control = cmsgu.control; msg.msg_controllen = sizeof(cmsgu.control); cmsg = CMSG_FIRSTHDR(&msg); cmsg->cmsg_len = CMSG_LEN(sizeof (int)); cmsg->cmsg_level = SOL_SOCKET; cmsg->cmsg_type = SCM_RIGHTS; printf ("passing fd %d\n", fd); *((int *) CMSG_DATA(cmsg)) = fd; } else { msg.msg_control = NULL; msg.msg_controllen = 0; printf ("not passing fd\n"); } size = sendmsg(sock, &msg, 0); if (size < 0) perror ("sendmsg"); return size; } /* This function taken from Keith Parkard's blog dated 2101205 */ static ssize_t sock_fd_read(int sock, void *buf, ssize_t bufsize, int *fd) { ssize_t size; if (fd) { struct msghdr msg; struct iovec iov; union { struct cmsghdr cmsghdr; char control[CMSG_SPACE(sizeof (int))]; } cmsgu; struct cmsghdr *cmsg; iov.iov_base = buf; iov.iov_len = bufsize; msg.msg_name = NULL; msg.msg_namelen = 0; msg.msg_iov = &iov; msg.msg_iovlen = 1; msg.msg_control = cmsgu.control; msg.msg_controllen = sizeof(cmsgu.control); size = recvmsg (sock, &msg, 0); if (size < 0) { perror ("recvmsg"); exit(1); } cmsg = CMSG_FIRSTHDR(&msg); if (cmsg && cmsg->cmsg_len == CMSG_LEN(sizeof(int))) { if (cmsg->cmsg_level != SOL_SOCKET) { fprintf (stderr, "invalid cmsg_level %d\n", cmsg->cmsg_level); exit(1); } if (cmsg->cmsg_type != SCM_RIGHTS) { fprintf (stderr, "invalid cmsg_type %d\n", cmsg->cmsg_type); exit(1); } *fd = *((int *) CMSG_DATA(cmsg)); printf ("received fd %d\n", *fd); } else *fd = -1; } else { size = read (sock, buf, bufsize); if (size < 0) { perror("read"); exit(1); } } return size; } static void set_more_async(int fd, bool more_asy, bool no_dur) { if (sg_drv_ver_num > 40030) { struct sg_extended_info sei; struct sg_extended_info * seip; seip = &sei; memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_CTL_FLAGS; seip->sei_rd_mask |= SG_SEIM_CTL_FLAGS; if (more_asy) { seip->ctl_flags_wr_mask |= SG_CTL_FLAGM_MORE_ASYNC; seip->ctl_flags = SG_CTL_FLAGM_MORE_ASYNC; } if (no_dur) { seip->ctl_flags_wr_mask |= SG_CTL_FLAGM_NO_DURATION; seip->ctl_flags = SG_CTL_FLAGM_NO_DURATION; } if (ioctl(fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED, MORE_ASYNC(|NO_DUR)) failed, " "errno=%d %s\n", errno, strerror(errno)); return; } } else pr2serr("sg driver too old for ioctl(SG_SET_GET_EXTENDED)\n"); } static void pr_create_dev_time(int sg_fd, const char * dev_name) { uint32_t u; uint64_t l; struct sg_extended_info sei; struct sg_extended_info * seip; struct timespec time_up, realtime, boottime, createtime, tmp; char b[64]; seip = &sei; memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_DEV_TS_LOWER; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("%s: ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", __func__, errno, strerror(errno)); return; } u = seip->read_value; seip->read_value = SG_SEIRV_DEV_TS_UPPER; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("%s: ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", __func__, errno, strerror(errno)); return; } l = seip->read_value; l <<= 32; l |= u; time_up.tv_sec = l / 1000000000UL; time_up.tv_nsec = l % 1000000000UL; /* printf("create time nanoseconds=%" PRIu64 "\n", l); */ if (clock_gettime(CLOCK_REALTIME, &realtime) < 0) { pr2serr("%s: clock_gettime(CLOCK_REALTIME) failed, errno=%d %s\n", __func__, errno, strerror(errno)); return; } if (clock_gettime(CLOCK_BOOTTIME, &boottime) < 0) { pr2serr("%s: clock_gettime(CLOCK_REALTIME) failed, errno=%d %s\n", __func__, errno, strerror(errno)); return; } timespec_diff(&realtime, &boottime, &tmp); timespec_add(&tmp, &time_up, &createtime); #if 0 printf("real time: %ld,%ld\n", realtime.tv_sec, realtime.tv_nsec); printf("boot time: %ld,%ld\n", boottime.tv_sec, boottime.tv_nsec); printf("time up: %ld,%ld\n", time_up.tv_sec, time_up.tv_nsec); printf("create time: %ld,%ld\n", createtime.tv_sec, createtime.tv_nsec); #endif timespec2str(b, sizeof(b), &createtime); printf("Create time of %s was %s\n", dev_name, b); } static int tst_extended_ioctl(const char * fnp, int sg_fd, const char * fn2p, int sg_fd2, int sock, const char * cp) { uint32_t cflags; struct sg_extended_info sei; struct sg_extended_info * seip; seip = &sei; memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_RESERVED_SIZE; seip->reserved_sz = reserve_buff_sz; seip->sgat_elem_sz = 64 * 1024; seip->sei_rd_mask |= SG_SEIM_RESERVED_SIZE; seip->sei_rd_mask |= SG_SEIM_TOT_FD_THRESH; seip->sei_wr_mask |= SG_SEIM_CTL_FLAGS; seip->sei_rd_mask |= SG_SEIM_CTL_FLAGS; /* this or previous optional */ seip->sei_rd_mask |= SG_SEIM_MINOR_INDEX; seip->sei_wr_mask |= SG_SEIM_SGAT_ELEM_SZ; seip->ctl_flags_wr_mask |= SG_CTL_FLAGM_TIME_IN_NS; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_TIME_IN_NS; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_OTHER_OPENS; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_ORPHANS; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_Q_TAIL; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_IS_SHARE; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_IS_READ_SIDE; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_UNSHARE; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_READ_SIDE_FINI; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_READ_SIDE_ERR; seip->ctl_flags_wr_mask |= SG_CTL_FLAGM_NO_DURATION; seip->ctl_flags_rd_mask |= SG_CTL_FLAGM_NO_DURATION; seip->ctl_flags |= SG_CTL_FLAGM_TIME_IN_NS; seip->ctl_flags |= SG_CTL_FLAGM_NO_DURATION; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } #if 1 printf("%sSG_SET_GET_EXTENDED ioctl ok\n", cp); if (SG_SEIM_RESERVED_SIZE & seip->sei_rd_mask) printf(" %sreserved size: %u\n", cp, seip->reserved_sz); if (SG_SEIM_MINOR_INDEX & seip->sei_rd_mask) printf(" %sminor index: %u\n", cp, seip->minor_index); if (SG_SEIM_TOT_FD_THRESH & seip->sei_rd_mask) printf(" %stot_fd_thresh: %u\n", cp, seip->tot_fd_thresh); if ((SG_SEIM_CTL_FLAGS & seip->sei_rd_mask) || (SG_SEIM_CTL_FLAGS & seip->sei_wr_mask)) { cflags = seip->ctl_flags; if (SG_CTL_FLAGM_TIME_IN_NS & seip->ctl_flags_rd_mask) printf(" %sTIME_IN_NS: %s\n", cp, (SG_CTL_FLAGM_TIME_IN_NS & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_OTHER_OPENS & seip->ctl_flags_rd_mask) printf(" %sOTHER_OPENS: %s\n", cp, (SG_CTL_FLAGM_OTHER_OPENS & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_ORPHANS & seip->ctl_flags_rd_mask) printf(" %sORPHANS: %s\n", cp, (SG_CTL_FLAGM_ORPHANS & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_Q_TAIL & seip->ctl_flags_rd_mask) printf(" %sQ_TAIL: %s\n", cp, (SG_CTL_FLAGM_Q_TAIL & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_IS_SHARE & seip->ctl_flags_rd_mask) printf(" %sIS_SHARE: %s\n", cp, (SG_CTL_FLAGM_IS_SHARE & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_IS_READ_SIDE & seip->ctl_flags_rd_mask) printf(" %sIS_READ_SIDE: %s\n", cp, (SG_CTL_FLAGM_IS_READ_SIDE & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_UNSHARE & seip->ctl_flags_rd_mask) printf(" %sUNSHARE: %s\n", cp, (SG_CTL_FLAGM_UNSHARE & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_READ_SIDE_FINI & seip->ctl_flags_rd_mask) printf(" %sREAD_SIDE_FINI: %s\n", cp, (SG_CTL_FLAGM_READ_SIDE_FINI & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_READ_SIDE_ERR & seip->ctl_flags_rd_mask) printf(" %sREAD_SIDE_ERR: %s\n", cp, (SG_CTL_FLAGM_READ_SIDE_ERR & cflags) ? "true" : "false"); if (SG_CTL_FLAGM_NO_DURATION & seip->ctl_flags_rd_mask) printf(" %sNO_DURATION: %s\n", cp, (SG_CTL_FLAGM_NO_DURATION & cflags) ? "true" : "false"); } if (SG_SEIM_MINOR_INDEX & seip->sei_rd_mask) printf(" %sminor_index: %u\n", cp, seip->minor_index); printf("\n"); #endif memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_INT_MASK; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } printf(" %sread_value[SG_SEIRV_INT_MASK]= %u\n", cp, seip->read_value); memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_BOOL_MASK; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } printf(" %sread_value[SG_SEIRV_BOOL_MASK]= %u\n", cp, seip->read_value); memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_VERS_NUM; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } printf(" %sread_value[SG_SEIRV_VERS_NUM]= %u\n", cp, seip->read_value); memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_INACT_RQS; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } printf(" %sread_value[SG_SEIRV_INACT_RQS]= %u\n", cp, seip->read_value); memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_DEV_INACT_RQS; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } printf(" %sread_value[SG_SEIRV_DEV_INACT_RQS]= %u\n", cp, seip->read_value); memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_SUBMITTED; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } printf(" %sread_value[SG_SEIRV_SUBMITTED]= %u\n", cp, seip->read_value); memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_READ_VAL; seip->sei_rd_mask |= SG_SEIM_READ_VAL; seip->read_value = SG_SEIRV_DEV_SUBMITTED; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("ioctl(SG_SET_GET_EXTENDED) failed, errno=%d %s\n", errno, strerror(errno)); return 1; } printf(" %sread_value[SG_SEIRV_DEV_SUBMITTED]= %u\n", cp, seip->read_value); memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_SHARE_FD; seip->sei_rd_mask |= SG_SEIM_SHARE_FD; #if 1 seip->share_fd = sg_fd2; #else seip->share_fd = sg_fd; #endif if (do_fork && is_parent) goto bypass_share; if (ioctl(sg_fd, SG_SET_GET_EXTENDED, seip) < 0) { pr2serr("%sioctl(SG_SET_GET_EXTENDED) shared_fd=%d, failed errno=%d " "%s\n", cp, sg_fd2, errno, strerror(errno)); } printf(" %sshare successful, read back previous shared_fd= %d\n", cp, (int)seip->share_fd); bypass_share: if (ioctl(sg_fd, SG_GET_TRANSFORM, NULL) < 0) pr2serr("ioctl(SG_GET_TRANSFORM) fail expected, errno=%d %s\n", errno, strerror(errno)); else printf("%sSG_GET_TRANSFORM okay (does nothing)\n", cp); if (ioctl(sg_fd, SG_SET_TRANSFORM, NULL) < 0) pr2serr("ioctl(SG_SET_TRANSFORM) fail expected, errno=%d %s\n", errno, strerror(errno)); else printf("%sSG_SET_TRANSFORM okay (does nothing)\n", cp); printf("\n"); /* test sending a sg file descriptor between 2 processes using UNIX * sockets */ if (do_fork && is_parent && fnp && (sock >= 0)) { /* master/READ side */ int res; int fd_ma = open(fnp, O_RDWR); if (fd_ma < 0) { pr2serr("%s: opening %s failed: %s\n", __func__, fnp, strerror(errno)); return 1; } res = sock_fd_write(sock, "boo", 4, fd_ma); if (res < 0) pr2serr("%s: sock_fd_write() failed\n", __func__); else printf("%s: sock_fd_write() returned: %d\n", __func__, res); } else if (do_fork && !is_parent && fn2p && (sock >= 0)) { int res, fd_ma; /* int fd_sl = open(fn2p, O_RDWR); not needed */ uint8_t b[32]; fd_ma = -1; res = sock_fd_read(sock, b, sizeof(b), &fd_ma); if (res < 0) pr2serr("%s: sock_fd_read() failed\n", __func__); else printf("%s: sock_fd_read() returned: %d, fd_ma=%d\n", __func__, res, fd_ma); /* yes it works! */ } return 0; } static int do_mrqs(int sg_fd, int sg_fd2, int mrqs) { bool both = (sg_fd2 >= 0); int k, j, arr_v4_sz, good; int res = 0; struct sg_io_v4 * arr_v4; struct sg_io_v4 * h4p; struct sg_io_v4 * mrq_h4p; struct sg_io_v4 mrq_h4; uint8_t sense_buffer[SENSE_BUFFER_LEN] SG_C_CPP_ZERO_INIT; uint8_t inq_cdb[INQ_CMD_LEN] = /* Device Id VPD page */ {0x12, 0x1, 0x83, 0, INQ_REPLY_LEN, 0}; uint8_t sdiag_cdb[SDIAG_CMD_LEN] = {0x1d, 0x10 /* PF */, 0, 0, 0, 0}; uint8_t inqBuff[INQ_REPLY_LEN]; if (both) { struct sg_extended_info sei; struct sg_extended_info * seip; seip = &sei; memset(seip, 0, sizeof(*seip)); seip->sei_wr_mask |= SG_SEIM_SHARE_FD; seip->sei_rd_mask |= SG_SEIM_SHARE_FD; seip->share_fd = sg_fd; /* master */ if (ioctl(sg_fd2, SG_SET_GET_EXTENDED, seip) < 0) { res = errno; pr2serr("ioctl(sg_fd2, SG_SET_GET_EXTENDED) shared_fd, " "failed errno=%d %s\n", res, strerror(res)); return res; } } memset(inqBuff, 0, sizeof(inqBuff)); mrq_h4p = &mrq_h4; memset(mrq_h4p, 0, sizeof(*mrq_h4p)); mrq_h4p->guard = 'Q'; mrq_h4p->flags = SGV4_FLAG_MULTIPLE_REQS; if (mrq_immed) mrq_h4p->flags |= SGV4_FLAG_IMMED; arr_v4 = (struct sg_io_v4 *)calloc(mrqs, sizeof(struct sg_io_v4)); if (NULL == arr_v4) { res = ENOMEM; goto fini; } arr_v4_sz = mrqs * sizeof(struct sg_io_v4); for (k = 0; k < mrqs; ++k) { h4p = arr_v4 + k; h4p->guard = 'Q'; /* ->protocol and ->subprotocol are already zero */ /* io_hdr[k].iovec_count = 0; */ /* memset takes care of this */ if (0 == (k % 2)) { h4p->request_len = sizeof(sdiag_cdb); h4p->request = (uint64_t)(uintptr_t)sdiag_cdb; /* all din and dout fields are zero */ } else { h4p->request_len = sizeof(inq_cdb); h4p->request = (uint64_t)(uintptr_t)inq_cdb; h4p->din_xfer_len = INQ_REPLY_LEN; h4p->din_xferp = (uint64_t)(uintptr_t)inqBuff; if (both) h4p->flags |= SGV4_FLAG_DO_ON_OTHER; } h4p->response = (uint64_t)(uintptr_t)sense_buffer; h4p->max_response_len = sizeof(sense_buffer); h4p->timeout = 20000; /* 20000 millisecs == 20 seconds */ h4p->request_extra = k + 3; /* so pack_id doesn't start at 0 */ /* default is to queue at head (in SCSI mid level) */ if (q_at_tail) h4p->flags |= SG_FLAG_Q_AT_TAIL; else h4p->flags |= SG_FLAG_Q_AT_HEAD; } mrq_h4p->dout_xferp = (uint64_t)(uintptr_t)arr_v4; mrq_h4p->dout_xfer_len = arr_v4_sz; mrq_h4p->din_xferp = mrq_h4p->dout_xferp; mrq_h4p->din_xfer_len = mrq_h4p->dout_xfer_len; if (ioctl(sg_fd, (mrq_iosubmit ? SG_IOSUBMIT : SG_IO), mrq_h4p) < 0) { res = errno; pr2serr("ioctl(SG_IO%s, mrq) failed, errno=%d %s\n", (mrq_iosubmit ? "SUBMIT" : ""), res, strerror(res)); goto fini; } if ((mrq_h4p->dout_resid > 0) || ((int)mrq_h4p->info < mrqs)) pr2serr("ioctl(SG_IO%s, mrq) dout_resid=%d, info=%d\n\n", (mrq_iosubmit ? "SUBMIT" : ""), mrq_h4p->dout_resid, mrq_h4p->info); good = 0; j = 0; if (mrq_immed) { receive_more: if (mrq_half_immed) mrq_h4p->flags = SGV4_FLAG_MULTIPLE_REQS; // zap SGV4_FLAG_IMMED if (ioctl(sg_fd, SG_IORECEIVE, mrq_h4p) < 0) { res = errno; pr2serr("ioctl(SG_IORECEIVE, mrq) failed, errno=%d %s\n", res, strerror(res)); goto fini; } if ((mrq_h4p->din_resid > 0) || ((int)mrq_h4p->info < mrqs)) pr2serr("ioctl(SG_IORECEIVE, mrq) din_resid=%d, info=%d\n", mrq_h4p->din_resid, mrq_h4p->info); } for (k = 0; k < (int)mrq_h4p->info; ++k, ++j) { h4p = arr_v4 + k; if (! (h4p->driver_status || h4p->transport_status || h4p->device_status)) { if (h4p->info & SG_INFO_MRQ_FINI) ++good; } if ((! (h4p->info & SG_INFO_MRQ_FINI)) && (verbose > 1)) pr2serr("%s: k=%d: SG_INFO_MRQ_FINI not set on response\n", __func__, k); } if (mrq_immed && (j < mrqs)) goto receive_more; if (good > 0) { printf("Final INQUIRY response:\n"); hex2stdout(inqBuff, INQ_REPLY_LEN, 0); } printf("Good responses: %d, bad responses: %d\n", good, mrqs - good); if (mrq_h4p->driver_status != 0) printf("Master mrq object: driver_status=%d\n", mrq_h4p->driver_status); h4p = arr_v4 + mrqs - 1; if (h4p->driver_status != 0) printf("Last mrq object: driver_status=%d\n", h4p->driver_status); fini: if (arr_v4) free(arr_v4); return res; } int main(int argc, char * argv[]) { bool done, is_first; bool nw_given = false; bool has_dname_range = false; int k, ok, pack_id, num_waiting; int res = 0; int sum_nw = 0; int sg_fd = -1; int sg_fd2 = -1; int sock = -1; uint8_t inq_cdb[INQ_CMD_LEN] = {0x12, 0, 0, 0, INQ_REPLY_LEN, 0}; uint8_t sdiag_cdb[SDIAG_CMD_LEN] = {0x1d, 0x10 /* PF */, 0, 0, 0, 0}; uint8_t inqBuff[MAX_Q_LEN][INQ_REPLY_LEN]; sg_io_hdr_t io_hdr[MAX_Q_LEN]; sg_io_hdr_t rio_hdr; char ebuff[EBUFF_SZ]; char dname[256]; uint8_t sense_buffer[MAX_Q_LEN][SENSE_BUFFER_LEN] SG_C_CPP_ZERO_INIT; const char * second_fname = NULL; const char * cp; char * chp; struct sg_scsi_id ssi; if (sizeof(struct sg_extended_info) != 96) pr2serr("Warning <<<< sizeof(struct sg_extended_info)=%zu not 96\n", sizeof(struct sg_extended_info)); for (k = 1; k < argc; ++k) { if (0 == memcmp("-3", argv[k], 2)) do_v3_only = true; else if (0 == memcmp("-c", argv[k], 2)) create_time = true; else if (0 == memcmp("-f", argv[k], 2)) do_fork = true; else if (0 == memcmp("-h", argv[k], 2)) { file_name = 0; break; } else if (0 == memcmp("-I=", argv[k], 3)) { iterator_test = atoi(argv[k] + 3); if ((iterator_test > 1) || (iterator_test < -1)) { printf("Expect -I= to take a number, either 0 or 1\n"); file_name = 0; break; } } else if (0 == memcmp("-J=", argv[k], 3)) { object_walk_test = atoi(argv[k] + 3); if ((object_walk_test > 1) || (object_walk_test < -1)) { printf("Expect -J= to take a number, either 0 or 1\n"); file_name = 0; break; } } else if (0 == memcmp("-l=", argv[k], 3)) { q_len = atoi(argv[k] + 3); if ((q_len > 511) || (q_len < 1)) { printf("Expect -l= to take a number (q length) between 1 " "and 511\n"); file_name = 0; break; } } else if (0 == memcmp("-m=", argv[k], 3)) { num_mrqs = sg_get_num(argv[k] + 3); if (num_mrqs < 1) { printf("Expect -m= to take a number greater than 0\n"); file_name = 0; break; } if ((cp = strchr(argv[k] + 3, ','))) { mrq_iosubmit = true; if (cp[1] == 'I') mrq_immed = true; else if (cp[1] == 'i') { mrq_immed = true; mrq_half_immed = true; } else if (toupper(cp[1]) == 'S') ; else { printf("-m= option expects 'A' or 'a' as a suffix, " "after comma\n"); file_name = 0; break; } } } else if (0 == memcmp("-M", argv[k], 2)) more_async = true; else if (0 == memcmp("-n", argv[k], 2)) no_duration = true; else if (0 == memcmp("-o", argv[k], 2)) ioctl_only = true; else if (0 == memcmp("-r=", argv[k], 3)) { reserve_buff_sz = atoi(argv[k] + 3); if (reserve_buff_sz < 0) { printf("Expect -r= to take a number 0 or higher\n"); file_name = 0; break; } } else if (0 == memcmp("-s=", argv[k], 3)) { sleep_secs = atoi(argv[k] + 3); if (sleep_secs < 0) { printf("Expect -s= to take a number 0 or higher\n"); file_name = 0; break; } } else if (0 == memcmp("-S", argv[k], 2)) show_size_value = true; else if (0 == memcmp("-t", argv[k], 2)) q_at_tail = true; else if (0 == memcmp("-T=", argv[k], 3)) { num_sgnw = sg_get_num(argv[k] + 3); if (num_sgnw < 0) { printf("Expect -T= to take a number >= 0\n"); file_name = 0; break; } nw_given = true; } else if (0 == memcmp("-vvvvvvv", argv[k], 8)) verbose += 7; else if (0 == memcmp("-vvvvvv", argv[k], 7)) verbose += 6; else if (0 == memcmp("-vvvvv", argv[k], 6)) verbose += 5; else if (0 == memcmp("-vvvv", argv[k], 5)) verbose += 4; else if (0 == memcmp("-vvv", argv[k], 4)) verbose += 3; else if (0 == memcmp("-vv", argv[k], 3)) verbose += 2; else if (0 == memcmp("-v", argv[k], 2)) verbose += 1; else if (0 == memcmp("-V", argv[k], 2)) { printf("%s\n", version_str); return 0; } else if (0 == memcmp("-w", argv[k], 2)) write_only = true; else if (*argv[k] == '-') { printf("Unrecognized switch: %s\n", argv[k]); file_name = 0; break; } else if (0 == file_name) file_name = argv[k]; else if (NULL == second_fname) second_fname = argv[k]; else { printf("too many arguments\n"); file_name = 0; break; } } if ((iterator_test >= 0) || (object_walk_test >= 0)) nw_given = false; if (show_size_value) { struct utsname unam; printf("Size in bytes:\n"); printf("\t%zu\tsizeof(struct sg_header) Version 2 interface " "structure\n", sizeof(struct sg_header)); printf("\t%zu\tsizeof(struct sg_io_hdr) Version 3 interface " "structure\n", sizeof(struct sg_io_hdr)); printf("\t%zu\tsizeof(struct sg_io_v4) Version 4 interface " "structure\n", sizeof(struct sg_io_v4)); printf("\t%zu\tsizeof(struct sg_iovec) scatter gather element\n", sizeof(struct sg_iovec)); printf("\t%zu\tsizeof(struct sg_scsi_id) topological device id\n", sizeof(struct sg_scsi_id)); printf("\t%zu\tsizeof(struct sg_req_info) request information\n", sizeof(struct sg_req_info)); printf("\t%zu\tsizeof(struct sg_extended_info) for " "SG_SET_GET_EXTENDED\n", sizeof(struct sg_extended_info)); printf("\nioctl values (i.e. second argument to ioctl()):\n"); printf("\t0x%lx\t\tvalue of SG_GET_NUM_WAITING ioctl\n", (unsigned long)SG_GET_NUM_WAITING); printf("\t0x%lx\t\tvalue of SG_IO ioctl\n", (unsigned long)SG_IO); printf("\t0x%lx\tvalue of SG_IOABORT ioctl\n", (unsigned long)SG_IOABORT); printf("\t0x%lx\tvalue of SG_IORECEIVE ioctl\n", (unsigned long)SG_IORECEIVE); printf("\t0x%lx\tvalue of SG_IORECEIVE_V3 ioctl\n", (unsigned long)SG_IORECEIVE_V3); printf("\t0x%lx\tvalue of SG_IOSUBMIT ioctl\n", (unsigned long)SG_IOSUBMIT); printf("\t0x%lx\tvalue of SG_IOSUBMIT_V3 ioctl\n", (unsigned long)SG_IOSUBMIT_V3); printf("\t0x%lx\tvalue of SG_SET_GET_EXTENDED ioctl\n", (unsigned long)SG_SET_GET_EXTENDED); printf("\n\t0x%x\t\tbase value of most SG_* ioctls\n", SG_IOCTL_MAGIC_NUM); printf("\nsizeof(void *) [a pointer] on this machine: %u bytes\n", (unsigned)sizeof(void *)); if (0 == uname(&unam)) printf("Machine name: %s\n", unam.machine); return 0; } if (0 == file_name) { printf("No filename (sg device) given\n\n"); usage(); return 1; } memset(dname, 0, sizeof(dname)); if (strlen(file_name) > 255) { fprintf(stderr, "file_name too long\n"); goto out; } strncpy(dname, file_name, sizeof(dname) - 1); if ((chp = strchr(dname, '-'))) { if (1 != sscanf(chp + 1, "%d", &dname_last)) { fprintf(stderr, "can't code number after '-' in file_name\n"); goto out; } *chp = '\0'; --chp; while (isdigit(*chp)) --chp; ++chp; if (1 != sscanf(chp, "%d", &dname_current)) { fprintf(stderr, "can't code number before '-' in file_name\n"); goto out; } *chp = '\0'; has_dname_range = true; dname_pos = strlen(dname); } is_first = true; dname_range_loop: if (has_dname_range) sprintf(dname + dname_pos, "%d", dname_current); /* An access mode of O_RDWR is required for write()/read() interface */ if ((sg_fd = open(dname, O_RDWR)) < 0) { snprintf(ebuff, EBUFF_SZ, "error opening file: %s", dname); perror(ebuff); return 1; } if (verbose) fprintf(stderr, "opened given file: %s successfully, fd=%d\n", dname, sg_fd); if (ioctl(sg_fd, SG_GET_VERSION_NUM, &sg_drv_ver_num) < 0) { pr2serr("ioctl(SG_GET_VERSION_NUM) failed, errno=%d %s\n", errno, strerror(errno)); goto out; } if (is_first) printf("Linux sg driver version: %d\n", sg_drv_ver_num); if (create_time && (sg_drv_ver_num > 40030)) { pr_create_dev_time(sg_fd, dname); goto out; } if (nw_given || (iterator_test >= 0) || (object_walk_test >= 0)) { /* -T=NUM and/or -I=0|1 or -j=0|1 */ /* time ioctl(SG_GET_NUM_WAITING) or do iterator_test */ int nw; struct timespec start_tm, fin_tm, res_tm; if (is_first) { int rang = has_dname_range ? (1 + dname_last - dname_current) : 1; is_first = false; if (nw_given) printf("Timing %d x %d calls to ioctl(SG_GET_NUM_WAITING)\n", rang, num_sgnw); else if (iterator_test >= 0) { k = num_sgnw + 1000; printf("Timing %d calls to ioctl(SG_SET_DEBUG, %d)\n", rang, ((0 == iterator_test) ? -k : k)); } else printf("Timing %d calls to ioctl(SG_SET_DEBUG, %d)\n", rang, (object_walk_test == 0) ? 999 : -999); if (0 != clock_gettime(CLOCK_MONOTONIC, &start_tm)) { res = errno; perror("start clock_gettime() failed:"); goto out; } } if (nw_given) { for (k = 0; k < num_sgnw; ++k, sum_nw += nw) { if (ioctl(sg_fd, SG_GET_NUM_WAITING, &nw) < 0) { res = errno; fprintf(stderr, "%d: ioctl(SG_GET_NUM_WAITING) failed " "errno=%d\n", k, res); goto out; } } } else if (iterator_test >= 0) { int fd, pid; k = num_sgnw + 1000; if (0 == iterator_test) k = -k; if (second_fname) { if ((sg_fd2 = open(second_fname, O_RDWR)) < 0) { snprintf(ebuff, EBUFF_SZ, "%s: error opening file: %s", __func__, second_fname); perror(ebuff); return 1; } printf("About to fork due to second filename\n"); pid = fork(); if (pid < 0) { perror("fork() failed"); goto out; } else if (0 == pid) { relative_cp = "child: "; is_parent = false; fd = sg_fd2; } else { relative_cp = "parent: "; is_parent = true; childs_pid = pid; fd = sg_fd; } } else { fd = sg_fd; relative_cp = ""; } if (ioctl(fd, SG_SET_DEBUG, &k) < 0) { res = errno; fprintf(stderr, "%s%d: ioctl(SG_SET_DEBUG) failed errno=%d\n", relative_cp, k, res); goto out; } else if (verbose) fprintf(stderr, "%siterator_test good ioctl(SG_SET_DEBUG, " "%d)\n", relative_cp, k); sum_nw += num_sgnw; } else if (object_walk_test >= 0) { const char * ccp = "object_walk_test"; relative_cp = ""; k = (object_walk_test == 0) ? 999 : -999; if (ioctl(sg_fd, SG_SET_DEBUG, &k) < 0) { res = errno; fprintf(stderr, "%s: ioctl(SG_SET_DEBUG, %d) failed " "errno=%d\n", ccp, k, res); } else if (verbose) fprintf(stderr, "%s: good call to ioctl(SG_SET_DEBUG, %d)\n", ccp, k); sum_nw += 10000; /* (1_up-scan + 2_lookups) * 10,000 times */ } if (has_dname_range) { ++dname_current; if (dname_current <= dname_last) { if (sg_fd >= 0) close(sg_fd); goto dname_range_loop; } } if (0 != clock_gettime(CLOCK_MONOTONIC, &fin_tm)) { res = errno; perror("finish clock_gettime() failed:"); goto out; } res_tm.tv_sec = fin_tm.tv_sec - start_tm.tv_sec; res_tm.tv_nsec = fin_tm.tv_nsec - start_tm.tv_nsec; if (res_tm.tv_nsec < 0) { --res_tm.tv_sec; res_tm.tv_nsec += 1000000000; } if (verbose) { if (nw_given && (verbose > 1)) printf("sum of num_waiting_s=%d\n", sum_nw); printf("%selapsed time (nanosecond precision): %d.%09d secs\n", relative_cp, (int)res_tm.tv_sec, (int)res_tm.tv_nsec); } else printf("%selapsed time: %d.%06d secs\n", relative_cp, (int)res_tm.tv_sec, (int)(res_tm.tv_nsec / 1000)); if (num_sgnw >= 100) { double m = (double)res_tm.tv_sec + ((double)res_tm.tv_nsec / 1000000000.0); double num = num_sgnw; if (m > 0.000001) printf("%sCalls per second: %.2f\n", relative_cp, num / m); } res = 0; goto out; } if ((more_async || no_duration) && !do_v3_only) set_more_async(sg_fd, more_async, no_duration); if (second_fname) { if ((sg_fd2 = open(second_fname, O_RDWR)) < 0) { snprintf(ebuff, EBUFF_SZ, "%s: error opening file: %s", __func__, second_fname); perror(ebuff); return 1; } if (verbose) fprintf(stderr, "opened second file: %s successfully, fd=%d\n", second_fname, sg_fd2); if (more_async && !do_v3_only) set_more_async(sg_fd2, more_async, no_duration); } if ((num_mrqs > 0) && !do_v3_only) { res = do_mrqs(sg_fd, sg_fd2, num_mrqs); goto out; } if (do_fork) { int pid; int sv[2]; if (socketpair(AF_LOCAL, SOCK_STREAM, 0, sv) < 0) { perror("socketpair"); exit(1); } printf("socketpair: sv[0]=%d, sv[1]=%d sg_fd=%d\n", sv[0], sv[1], sg_fd); pid = fork(); if (pid < 0) { perror("fork() failed"); goto out; } else if (0 == pid) { relative_cp = "child "; is_parent = false; close(sv[0]); sock = sv[1]; } else { relative_cp = "parent "; is_parent = true; childs_pid = pid; close(sv[1]); sock = sv[0]; } } cp = do_fork ? relative_cp : ""; if (! do_v3_only && (sg_drv_ver_num > 40030)) { if (tst_extended_ioctl(dname, sg_fd, second_fname, sg_fd2, sock, cp)) goto out; } if (ioctl_only) goto out; if (do_fork && !is_parent) return 0; printf("start write() calls [submits]\n"); for (k = 0; k < q_len; ++k) { /* Prepare INQUIRY command */ memset(&io_hdr[k], 0, sizeof(sg_io_hdr_t)); io_hdr[k].interface_id = 'S'; /* io_hdr[k].iovec_count = 0; */ /* memset takes care of this */ io_hdr[k].mx_sb_len = (uint8_t)sizeof(sense_buffer); if (0 == (k % 3)) { io_hdr[k].cmd_len = sizeof(sdiag_cdb); io_hdr[k].cmdp = sdiag_cdb; io_hdr[k].dxfer_direction = SG_DXFER_NONE; } else { io_hdr[k].cmd_len = sizeof(inq_cdb); io_hdr[k].cmdp = inq_cdb; io_hdr[k].dxfer_direction = SG_DXFER_FROM_DEV; io_hdr[k].dxfer_len = INQ_REPLY_LEN; io_hdr[k].dxferp = inqBuff[k]; } io_hdr[k].sbp = sense_buffer[k]; io_hdr[k].mx_sb_len = SENSE_BUFFER_LEN; io_hdr[k].timeout = 20000; /* 20000 millisecs == 20 seconds */ io_hdr[k].pack_id = k + 3; /* so pack_id doesn't start at 0 */ /* default is to queue at head (in SCSI mid level) */ if (q_at_tail) io_hdr[k].flags |= SG_FLAG_Q_AT_TAIL; else io_hdr[k].flags |= SG_FLAG_Q_AT_HEAD; /* io_hdr[k].usr_ptr = NULL; */ if (write(sg_fd, &io_hdr[k], sizeof(sg_io_hdr_t)) < 0) { pr2serr("%ssg write errno=%d [%s]\n", cp, errno, strerror(errno)); close(sg_fd); return 1; } } memset(&ssi, 0, sizeof(ssi)); if (ioctl(sg_fd, SG_GET_SCSI_ID, &ssi) < 0) pr2serr("ioctl(SG_GET_SCSI_ID) failed, errno=%d %s\n", errno, strerror(errno)); else { printf("host_no: %d\n", ssi.host_no); printf(" channel: %d\n", ssi.channel); printf(" scsi_id: %d\n", ssi.scsi_id); printf(" lun: %d\n", ssi.lun); printf(" pdt: %d\n", ssi.scsi_type); printf(" h_cmd_per_lun: %d\n", ssi.h_cmd_per_lun); printf(" d_queue_depth: %d\n", ssi.d_queue_depth); printf(" SCSI 8 byte LUN: "); hex2stdout(ssi.scsi_lun, 8, -1); } if (ioctl(sg_fd, SG_GET_PACK_ID, &pack_id) < 0) pr2serr("ioctl(SG_GET_PACK_ID) failed, errno=%d %s\n", errno, strerror(errno)); else printf("first available pack_id: %d\n", pack_id); if (ioctl(sg_fd, SG_GET_NUM_WAITING, &num_waiting) < 0) pr2serr("ioctl(SG_GET_NUM_WAITING) failed, errno=%d %s\n", errno, strerror(errno)); else printf("num_waiting: %d\n", num_waiting); sleep(sleep_secs); if (write_only) goto out; if (do_fork) printf("\n\nFollowing starting with get_pack_id are all CHILD\n"); if (ioctl(sg_fd, SG_GET_PACK_ID, &pack_id) < 0) pr2serr("ioctl(SG_GET_PACK_ID) failed, errno=%d %s\n", errno, strerror(errno)); else printf("first available pack_id: %d\n", pack_id); if (ioctl(sg_fd, SG_GET_NUM_WAITING, &num_waiting) < 0) pr2serr("ioctl(SG_GET_NUM_WAITING) failed, errno=%d %s\n", errno, strerror(errno)); else printf("num_waiting: %d\n", num_waiting); printf("\nstart read() calls [io receive]\n"); for (k = 0, done = false; k < q_len; ++k) { if ((! done) && (k == q_len / 2)) { done = true; printf("\n>>> half way through read\n"); if (ioctl(sg_fd, SG_GET_PACK_ID, &pack_id) < 0) pr2serr("ioctl(SG_GET_PACK_ID) failed, errno=%d %s\n", errno, strerror(errno)); else printf("first available pack_id: %d\n", pack_id); if (ioctl(sg_fd, SG_GET_NUM_WAITING, &num_waiting) < 0) pr2serr("ioctl(SG_GET_NUM_WAITING) failed, errno=%d %s\n", errno, strerror(errno)); else printf("num_waiting: %d\n", num_waiting); } memset(&rio_hdr, 0, sizeof(sg_io_hdr_t)); rio_hdr.interface_id = 'S'; if (read(sg_fd, &rio_hdr, sizeof(sg_io_hdr_t)) < 0) { perror("sg read error"); close(sg_fd); return 1; } /* now for the error processing */ ok = 0; switch (sg_err_category3(&rio_hdr)) { case SG_LIB_CAT_CLEAN: ok = 1; break; case SG_LIB_CAT_RECOVERED: printf("Recovered error, continuing\n"); ok = 1; break; default: /* won't bother decoding other categories */ sg_chk_n_print3("command error", &rio_hdr, 1); break; } if (ok) { /* output result if it is available */ if (0 == (rio_hdr.pack_id % 3)) printf("SEND DIAGNOSTIC %d duration=%u\n", rio_hdr.pack_id, rio_hdr.duration); else printf("INQUIRY %d duration=%u\n", rio_hdr.pack_id, rio_hdr.duration); } } out: if (sg_fd >= 0) close(sg_fd); if (sg_fd2 >= 0) close(sg_fd2); return res; }