// SPDX-License-Identifier: GPL-2.0 /* * Fault injection ublk target. Hack this up however you like for * testing specific behaviors of ublk_drv. Currently is a null target * with a configurable delay before completing each I/O. This delay can * be used to test ublk_drv's handling of I/O outstanding to the ublk * server when it dies. */ #include "kublk.h" struct fi_opts { long long delay_ns; bool die_during_fetch; }; static int ublk_fault_inject_tgt_init(const struct dev_ctx *ctx, struct ublk_dev *dev) { const struct ublksrv_ctrl_dev_info *info = &dev->dev_info; unsigned long dev_size = 250UL << 30; struct fi_opts *opts = NULL; if (ctx->auto_zc_fallback) { ublk_err("%s: not support auto_zc_fallback\n", __func__); return -EINVAL; } dev->tgt.dev_size = dev_size; dev->tgt.params = (struct ublk_params) { .types = UBLK_PARAM_TYPE_BASIC, .basic = { .logical_bs_shift = 9, .physical_bs_shift = 12, .io_opt_shift = 12, .io_min_shift = 9, .max_sectors = info->max_io_buf_bytes >> 9, .dev_sectors = dev_size >> 9, }, }; ublk_set_integrity_params(ctx, &dev->tgt.params); opts = calloc(1, sizeof(*opts)); if (!opts) { ublk_err("%s: couldn't allocate memory for opts\n", __func__); return -ENOMEM; } opts->delay_ns = ctx->fault_inject.delay_us * 1000; opts->die_during_fetch = ctx->fault_inject.die_during_fetch; dev->private_data = opts; return 0; } static void ublk_fault_inject_pre_fetch_io(struct ublk_thread *t, struct ublk_queue *q, int tag, bool batch) { struct fi_opts *opts = q->dev->private_data; if (!opts->die_during_fetch) return; /* * Each queue fetches its IOs in increasing order of tags, so * dying just before we're about to fetch tag 1 (regardless of * what queue we're on) guarantees that we've fetched a nonempty * proper subset of the tags on that queue. */ if (tag == 1) { /* * Ensure our commands are actually live in the kernel * before we die. */ io_uring_submit(&t->ring); raise(SIGKILL); } } static int ublk_fault_inject_queue_io(struct ublk_thread *t, struct ublk_queue *q, int tag) { const struct ublksrv_io_desc *iod = ublk_get_iod(q, tag); struct io_uring_sqe *sqe; struct fi_opts *opts = q->dev->private_data; struct __kernel_timespec ts = { .tv_nsec = opts->delay_ns, }; ublk_io_alloc_sqes(t, &sqe, 1); io_uring_prep_timeout(sqe, &ts, 1, 0); sqe->user_data = build_user_data(tag, ublksrv_get_op(iod), 0, q->q_id, 1); ublk_queued_tgt_io(t, q, tag, 1); return 0; } static void ublk_fault_inject_tgt_io_done(struct ublk_thread *t, struct ublk_queue *q, const struct io_uring_cqe *cqe) { unsigned tag = user_data_to_tag(cqe->user_data); const struct ublksrv_io_desc *iod = ublk_get_iod(q, tag); if (cqe->res != -ETIME) ublk_err("%s: unexpected cqe res %d\n", __func__, cqe->res); if (ublk_completed_tgt_io(t, q, tag)) ublk_complete_io(t, q, tag, iod->nr_sectors << 9); else ublk_err("%s: io not complete after 1 cqe\n", __func__); } static void ublk_fault_inject_cmd_line(struct dev_ctx *ctx, int argc, char *argv[]) { static const struct option longopts[] = { { "delay_us", 1, NULL, 0 }, { "die_during_fetch", 1, NULL, 0 }, { 0, 0, 0, 0 } }; int option_idx, opt; ctx->fault_inject.delay_us = 0; ctx->fault_inject.die_during_fetch = false; while ((opt = getopt_long(argc, argv, "", longopts, &option_idx)) != -1) { switch (opt) { case 0: if (!strcmp(longopts[option_idx].name, "delay_us")) ctx->fault_inject.delay_us = strtoll(optarg, NULL, 10); if (!strcmp(longopts[option_idx].name, "die_during_fetch")) ctx->fault_inject.die_during_fetch = strtoll(optarg, NULL, 10); } } } static void ublk_fault_inject_usage(const struct ublk_tgt_ops *ops) { printf("\tfault_inject: [--delay_us us (default 0)] [--die_during_fetch 1]\n"); } const struct ublk_tgt_ops fault_inject_tgt_ops = { .name = "fault_inject", .init_tgt = ublk_fault_inject_tgt_init, .pre_fetch_io = ublk_fault_inject_pre_fetch_io, .queue_io = ublk_fault_inject_queue_io, .tgt_io_done = ublk_fault_inject_tgt_io_done, .parse_cmd_line = ublk_fault_inject_cmd_line, .usage = ublk_fault_inject_usage, };