/* * Copyright (c) 2007-2021 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 */ /* sg_pt_solaris version 1.15 20210617 */ #include #include #include #include #include #include #include #include #include #include /* Solaris headers */ #include #include #include #include #ifdef HAVE_CONFIG_H #include "config.h" #endif #include "sg_pt.h" #include "sg_lib.h" #define DEF_TIMEOUT 60 /* 60 seconds */ struct sg_pt_solaris_scsi { struct uscsi_cmd uscsi; int max_sense_len; int in_err; int os_err; bool is_nvme; int dev_fd; }; struct sg_pt_base { struct sg_pt_solaris_scsi impl; }; /* Returns >= 0 if successful. If error in Unix returns negated errno. */ int scsi_pt_open_device(const char * device_name, bool read_only, int verbose) { int oflags = 0 /* O_NONBLOCK*/ ; oflags |= (read_only ? O_RDONLY : O_RDWR); return scsi_pt_open_flags(device_name, oflags, verbose); } /* Similar to scsi_pt_open_device() but takes Unix style open flags OR-ed * together. The 'flags' argument is ignored in Solaris. * Returns >= 0 if successful, otherwise returns negated errno. */ int scsi_pt_open_flags(const char * device_name, int flags_arg, int verbose) { int oflags = O_NONBLOCK | O_RDWR; int fd; flags_arg = flags_arg; /* ignore flags argument, suppress warning */ if (verbose > 1) { fprintf(sg_warnings_strm ? sg_warnings_strm : stderr, "open %s with flags=0x%x\n", device_name, oflags); } fd = open(device_name, oflags); if (fd < 0) fd = -errno; return fd; } /* Returns 0 if successful. If error in Unix returns negated errno. */ int scsi_pt_close_device(int device_fd) { int res; res = close(device_fd); if (res < 0) res = -errno; return res; } struct sg_pt_base * construct_scsi_pt_obj_with_fd(int dev_fd, int verbose) { struct sg_pt_solaris_scsi * ptp; ptp = (struct sg_pt_solaris_scsi *) calloc(1, sizeof(struct sg_pt_solaris_scsi)); if (ptp) { ptp->dev_fd = (dev_fd < 0) ? -1 : dev_fd; ptp->is_nvme = false; ptp->uscsi.uscsi_timeout = DEF_TIMEOUT; /* Comment in Illumos suggest USCSI_ISOLATE and USCSI_DIAGNOSE (both) * seem to mean "don't retry" which is what we want. */ ptp->uscsi.uscsi_flags = USCSI_ISOLATE | USCSI_DIAGNOSE | USCSI_RQENABLE; } else if (verbose) fprintf(sg_warnings_strm ? sg_warnings_strm : stderr, "%s: calloc() out of memory\n", __func__); return (struct sg_pt_base *)ptp; } struct sg_pt_base * construct_scsi_pt_obj() { return construct_scsi_pt_obj_with_fd(-1, 0); } void destruct_scsi_pt_obj(struct sg_pt_base * vp) { struct sg_pt_solaris_scsi * ptp = &vp->impl; if (ptp) free(ptp); } void clear_scsi_pt_obj(struct sg_pt_base * vp) { bool is_nvme; int dev_fd; struct sg_pt_solaris_scsi * ptp = &vp->impl; if (ptp) { is_nvme = ptp->is_nvme; dev_fd = ptp->dev_fd; memset(ptp, 0, sizeof(struct sg_pt_solaris_scsi)); ptp->dev_fd = dev_fd; ptp->is_nvme = is_nvme; ptp->uscsi.uscsi_timeout = DEF_TIMEOUT; ptp->uscsi.uscsi_flags = USCSI_ISOLATE | USCSI_DIAGNOSE | USCSI_RQENABLE; } } void partial_clear_scsi_pt_obj(struct sg_pt_base * vp) { struct sg_pt_solaris_scsi * ptp = &vp->impl; if (ptp) { ptp->in_err = 0; ptp->os_err = 0; ptp->uscsi.uscsi_status = 0; ptp->uscsi.uscsi_bufaddr = NULL; ptp->uscsi.uscsi_buflen = 0; ptp->uscsi.uscsi_flags = USCSI_ISOLATE | USCSI_DIAGNOSE | USCSI_RQENABLE; } } void set_scsi_pt_cdb(struct sg_pt_base * vp, const uint8_t * cdb, int cdb_len) { struct sg_pt_solaris_scsi * ptp = &vp->impl; ptp->uscsi.uscsi_cdb = (char *)cdb; ptp->uscsi.uscsi_cdblen = cdb_len; } int get_scsi_pt_cdb_len(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return ptp->uscsi.uscsi_cdblen; } uint8_t * get_scsi_pt_cdb_buf(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return (uint8_t *)ptp->uscsi.uscsi_cdb; } void set_scsi_pt_sense(struct sg_pt_base * vp, uint8_t * sense, int max_sense_len) { struct sg_pt_solaris_scsi * ptp = &vp->impl; if (sense && (max_sense_len > 0)) memset(sense, 0, max_sense_len); ptp->uscsi.uscsi_rqbuf = (char *)sense; ptp->uscsi.uscsi_rqlen = max_sense_len; ptp->max_sense_len = max_sense_len; } /* from device */ void set_scsi_pt_data_in(struct sg_pt_base * vp, uint8_t * dxferp, int dxfer_len) { struct sg_pt_solaris_scsi * ptp = &vp->impl; if (ptp->uscsi.uscsi_bufaddr) ++ptp->in_err; if (dxfer_len > 0) { ptp->uscsi.uscsi_bufaddr = (char *)dxferp; ptp->uscsi.uscsi_buflen = dxfer_len; ptp->uscsi.uscsi_flags = USCSI_READ | USCSI_ISOLATE | USCSI_DIAGNOSE | USCSI_RQENABLE; } } /* to device */ void set_scsi_pt_data_out(struct sg_pt_base * vp, const uint8_t * dxferp, int dxfer_len) { struct sg_pt_solaris_scsi * ptp = &vp->impl; if (ptp->uscsi.uscsi_bufaddr) ++ptp->in_err; if (dxfer_len > 0) { ptp->uscsi.uscsi_bufaddr = (char *)dxferp; ptp->uscsi.uscsi_buflen = dxfer_len; ptp->uscsi.uscsi_flags = USCSI_WRITE | USCSI_ISOLATE | USCSI_DIAGNOSE | USCSI_RQENABLE; } } void set_scsi_pt_packet_id(struct sg_pt_base * vp, int pack_id) { // struct sg_pt_solaris_scsi * ptp = &vp->impl; vp = vp; /* ignore and suppress warning */ pack_id = pack_id; /* ignore and suppress warning */ } void set_scsi_pt_tag(struct sg_pt_base * vp, uint64_t tag) { // struct sg_pt_solaris_scsi * ptp = &vp->impl; vp = vp; /* ignore and suppress warning */ tag = tag; /* ignore and suppress warning */ } /* Note that task management function codes are transport specific */ void set_scsi_pt_task_management(struct sg_pt_base * vp, int tmf_code) { struct sg_pt_solaris_scsi * ptp = &vp->impl; ++ptp->in_err; tmf_code = tmf_code; /* dummy to silence compiler */ } void set_scsi_pt_task_attr(struct sg_pt_base * vp, int attribute, int priority) { struct sg_pt_solaris_scsi * ptp = &vp->impl; ++ptp->in_err; attribute = attribute; /* dummy to silence compiler */ priority = priority; /* dummy to silence compiler */ } void set_scsi_pt_flags(struct sg_pt_base * objp, int flags) { /* do nothing, suppress warnings */ objp = objp; flags = flags; } /* Executes SCSI command (or at least forwards it to lower layers). * Clears os_err field prior to active call (whose result may set it * again). */ int do_scsi_pt(struct sg_pt_base * vp, int fd, int time_secs, int verbose) { struct sg_pt_solaris_scsi * ptp = &vp->impl; FILE * ferr = sg_warnings_strm ? sg_warnings_strm : stderr; ptp->os_err = 0; if (ptp->in_err) { if (verbose) fprintf(ferr, "Replicated or unused set_scsi_pt... functions\n"); return SCSI_PT_DO_BAD_PARAMS; } if (fd < 0) { if (ptp->dev_fd < 0) { if (verbose) fprintf(ferr, "%s: No device file descriptor given\n", __func__); return SCSI_PT_DO_BAD_PARAMS; } } else { if (ptp->dev_fd >= 0) { if (fd != ptp->dev_fd) { if (verbose) fprintf(ferr, "%s: file descriptor given to create and " "this differ\n", __func__); return SCSI_PT_DO_BAD_PARAMS; } } else ptp->dev_fd = fd; } if (NULL == ptp->uscsi.uscsi_cdb) { if (verbose) fprintf(ferr, "%s: No SCSI command (cdb) given\n", __func__); return SCSI_PT_DO_BAD_PARAMS; } if (time_secs > 0) ptp->uscsi.uscsi_timeout = time_secs; if (ioctl(ptp->dev_fd, USCSICMD, &ptp->uscsi)) { ptp->os_err = errno; if ((EIO == ptp->os_err) && ptp->uscsi.uscsi_status) { ptp->os_err = 0; return 0; } if (verbose) fprintf(ferr, "%s: ioctl(USCSICMD) failed with os_err (errno) " "= %d\n", __func__, ptp->os_err); return -ptp->os_err; } return 0; } int get_scsi_pt_result_category(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; int scsi_st = ptp->uscsi.uscsi_status; if (ptp->os_err) return SCSI_PT_RESULT_OS_ERR; else if ((SAM_STAT_CHECK_CONDITION == scsi_st) || (SAM_STAT_COMMAND_TERMINATED == scsi_st)) return SCSI_PT_RESULT_SENSE; else if (scsi_st) return SCSI_PT_RESULT_STATUS; else return SCSI_PT_RESULT_GOOD; } uint32_t get_pt_result(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return (uint32_t)ptp->uscsi.uscsi_status; } int get_scsi_pt_resid(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return ptp->uscsi.uscsi_resid; } void get_pt_req_lengths(const struct sg_pt_base * vp, int * req_dinp, int * req_doutp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; int dxfer_len = ptp->uscsi.uscsi_buflen; int flags = ptp->uscsi.uscsi_flags; if (req_dinp) { if ((dxfer_len > 0) && (USCSI_READ & flags)) *req_dinp = dxfer_len; else *req_dinp = 0; } if (req_doutp) { if ((dxfer_len > 0) && (USCSI_WRITE & flags)) *req_doutp = dxfer_len; else *req_doutp = 0; } } void get_pt_actual_lengths(const struct sg_pt_base * vp, int * act_dinp, int * act_doutp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; int dxfer_len = ptp->uscsi.uscsi_buflen; int flags = ptp->uscsi.uscsi_flags; if (act_dinp) { if ((dxfer_len > 0) && (USCSI_READ & flags)) *act_dinp = dxfer_len - ptp->uscsi.uscsi_resid; else *act_dinp = 0; } if (act_doutp) { if ((dxfer_len > 0) && (USCSI_WRITE & flags)) *act_doutp = dxfer_len - ptp->uscsi.uscsi_resid; else *act_doutp = 0; } } int get_scsi_pt_status_response(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return ptp->uscsi.uscsi_status; } int get_scsi_pt_sense_len(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; int res; if (ptp->max_sense_len > 0) { res = ptp->max_sense_len - ptp->uscsi.uscsi_rqresid; return (res > 0) ? res : 0; } return 0; } uint8_t * get_scsi_pt_sense_buf(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return (uint8_t *)ptp->uscsi.uscsi_rqbuf; } int get_scsi_pt_duration_ms(const struct sg_pt_base * vp) { // const struct sg_pt_solaris_scsi * ptp = &vp->impl; vp = vp; /* ignore and suppress warning */ return -1; /* not available */ } /* If not available return 0 otherwise return number of nanoseconds that the * lower layers (and hardware) took to execute the command just completed. */ uint64_t get_pt_duration_ns(const struct sg_pt_base * vp __attribute__ ((unused))) { return 0; } int get_scsi_pt_transport_err(const struct sg_pt_base * vp) { // const struct sg_pt_solaris_scsi * ptp = &vp->impl; if (vp) { ; } /* ignore and suppress warning */ return 0; } void set_scsi_pt_transport_err(struct sg_pt_base * vp, int err) { // const struct sg_pt_solaris_scsi * ptp = &vp->impl; if (vp) { ; } /* ignore and suppress warning */ if (err) { ; } /* ignore and suppress warning */ } int get_scsi_pt_os_err(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return ptp->os_err; } bool pt_device_is_nvme(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return ptp ? ptp->is_nvme : false; } char * get_scsi_pt_transport_err_str(const struct sg_pt_base * vp, int max_b_len, char * b) { // const struct sg_pt_solaris_scsi * ptp = &vp->impl; vp = vp; /* ignore and suppress warning */ if (max_b_len > 0) b[0] = '\0'; return b; } char * get_scsi_pt_os_err_str(const struct sg_pt_base * vp, int max_b_len, char * b) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; const char * cp; cp = safe_strerror(ptp->os_err); strncpy(b, cp, max_b_len); if ((int)strlen(cp) >= max_b_len) b[max_b_len - 1] = '\0'; return b; } int do_nvm_pt(struct sg_pt_base * vp, int submq, int timeout_secs, int verbose) { if (vp) { } if (submq) { } if (timeout_secs) { } if (verbose) { } return SCSI_PT_DO_NOT_SUPPORTED; } int check_pt_file_handle(int device_fd, const char * device_name, int vb) { if (device_fd) {} if (device_name) {} if (vb) {} return 0; } /* Valid file handles (which is the return value) are >= 0 . Returns -1 * if there is no valid file handle. */ int get_pt_file_handle(const struct sg_pt_base * vp) { const struct sg_pt_solaris_scsi * ptp = &vp->impl; return ptp->dev_fd; } /* If a NVMe block device (which includes the NSID) handle is associated * with 'vp', then its NSID is returned (values range from 0x1 to * 0xffffffe). Otherwise 0 is returned. */ uint32_t get_pt_nvme_nsid(const struct sg_pt_base * vp) { if (vp) { } return 0; } /* Forget any previous dev_han and install the one given. May attempt to * find file type (e.g. if pass-though) from OS so there could be an error. * Returns 0 for success or the same value as get_scsi_pt_os_err() * will return. dev_han should be >= 0 for a valid file handle or -1 . */ int set_pt_file_handle(struct sg_pt_base * vp, int dev_han, int vb) { struct sg_pt_solaris_scsi * ptp = &vp->impl; if (vb) {} ptp->dev_fd = (dev_han < 0) ? -1 : dev_han; ptp->in_err = 0; ptp->os_err = 0; ptp->is_nvme = false; return 0; }