/*- * BSD LICENSE * * Copyright (c) Intel Corporation. * All rights reserved. * Copyright (c) 2021 Mellanox Technologies LTD. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 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. * * Neither the name of Intel Corporation nor the names of its * contributors may be used to endorse or promote products derived * from this software without specific prior written permission. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS 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 COPYRIGHT * OWNER 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. */ #include "spdk/stdinc.h" #include "spdk_cunit.h" #define UNIT_TEST_NO_VTOPHYS #include "nvme/nvme_pcie.c" #include "nvme/nvme_pcie_common.c" #include "common/lib/nvme/common_stubs.h" pid_t g_spdk_nvme_pid; DEFINE_STUB(spdk_mem_register, int, (void *vaddr, size_t len), 0); DEFINE_STUB(spdk_mem_unregister, int, (void *vaddr, size_t len), 0); DEFINE_STUB(nvme_get_quirks, uint64_t, (const struct spdk_pci_id *id), 0); DEFINE_STUB(nvme_wait_for_completion, int, (struct spdk_nvme_qpair *qpair, struct nvme_completion_poll_status *status), 0); DEFINE_STUB_V(nvme_completion_poll_cb, (void *arg, const struct spdk_nvme_cpl *cpl)); DEFINE_STUB(nvme_ctrlr_submit_admin_request, int, (struct spdk_nvme_ctrlr *ctrlr, struct nvme_request *req), 0); DEFINE_STUB_V(nvme_ctrlr_free_processes, (struct spdk_nvme_ctrlr *ctrlr)); DEFINE_STUB(nvme_ctrlr_proc_get_devhandle, struct spdk_pci_device *, (struct spdk_nvme_ctrlr *ctrlr), NULL); DEFINE_STUB(spdk_pci_device_unmap_bar, int, (struct spdk_pci_device *dev, uint32_t bar, void *addr), 0); DEFINE_STUB(spdk_pci_device_attach, int, (struct spdk_pci_driver *driver, spdk_pci_enum_cb enum_cb, void *enum_ctx, struct spdk_pci_addr *pci_address), 0); DEFINE_STUB(spdk_pci_device_claim, int, (struct spdk_pci_device *dev), 0); DEFINE_STUB_V(spdk_pci_device_unclaim, (struct spdk_pci_device *dev)); DEFINE_STUB_V(spdk_pci_device_detach, (struct spdk_pci_device *device)); DEFINE_STUB(spdk_pci_device_cfg_write16, int, (struct spdk_pci_device *dev, uint16_t value, uint32_t offset), 0); DEFINE_STUB(spdk_pci_device_cfg_read16, int, (struct spdk_pci_device *dev, uint16_t *value, uint32_t offset), 0); DEFINE_STUB(spdk_pci_device_get_id, struct spdk_pci_id, (struct spdk_pci_device *dev), {0}); DEFINE_STUB(spdk_pci_event_listen, int, (void), 0); DEFINE_STUB(spdk_pci_register_error_handler, int, (spdk_pci_error_handler sighandler, void *ctx), 0); DEFINE_STUB_V(spdk_pci_unregister_error_handler, (spdk_pci_error_handler sighandler)); DEFINE_STUB(spdk_pci_enumerate, int, (struct spdk_pci_driver *driver, spdk_pci_enum_cb enum_cb, void *enum_ctx), -1); DEFINE_STUB(nvme_transport_get_name, const char *, (const struct spdk_nvme_transport *transport), NULL); SPDK_LOG_REGISTER_COMPONENT(nvme) struct dev_mem_resource { uint64_t phys_addr; uint64_t len; void *addr; }; struct nvme_pcie_ut_bdev_io { struct iovec iovs[NVME_MAX_SGL_DESCRIPTORS]; int iovpos; }; struct nvme_driver *g_spdk_nvme_driver = NULL; int spdk_pci_device_map_bar(struct spdk_pci_device *dev, uint32_t bar, void **mapped_addr, uint64_t *phys_addr, uint64_t *size) { struct dev_mem_resource *dev_mem_res = (void *)dev; *mapped_addr = dev_mem_res->addr; *phys_addr = dev_mem_res->phys_addr; *size = dev_mem_res->len; return 0; } void nvme_ctrlr_fail(struct spdk_nvme_ctrlr *ctrlr, bool hot_remove) { CU_ASSERT(ctrlr != NULL); if (hot_remove) { ctrlr->is_removed = true; } ctrlr->is_failed = true; } static uint64_t g_vtophys_size = 0; DEFINE_RETURN_MOCK(spdk_vtophys, uint64_t); uint64_t spdk_vtophys(const void *buf, uint64_t *size) { if (size) { *size = g_vtophys_size; } HANDLE_RETURN_MOCK(spdk_vtophys); return (uintptr_t)buf; } DEFINE_STUB(spdk_pci_device_get_addr, struct spdk_pci_addr, (struct spdk_pci_device *dev), {}); DEFINE_STUB(nvme_ctrlr_probe, int, (const struct spdk_nvme_transport_id *trid, struct spdk_nvme_probe_ctx *probe_ctx, void *devhandle), 0); DEFINE_STUB(spdk_pci_device_is_removed, bool, (struct spdk_pci_device *dev), false); DEFINE_STUB(nvme_get_ctrlr_by_trid_unsafe, struct spdk_nvme_ctrlr *, (const struct spdk_nvme_transport_id *trid), NULL); DEFINE_STUB(spdk_nvme_ctrlr_get_regs_csts, union spdk_nvme_csts_register, (struct spdk_nvme_ctrlr *ctrlr), {}); DEFINE_STUB(nvme_ctrlr_get_process, struct spdk_nvme_ctrlr_process *, (struct spdk_nvme_ctrlr *ctrlr, pid_t pid), NULL); DEFINE_STUB(nvme_completion_is_retry, bool, (const struct spdk_nvme_cpl *cpl), false); DEFINE_STUB_V(nvme_ctrlr_process_async_event, (struct spdk_nvme_ctrlr *ctrlr, const struct spdk_nvme_cpl *cpl)); DEFINE_STUB_V(spdk_nvme_qpair_print_command, (struct spdk_nvme_qpair *qpair, struct spdk_nvme_cmd *cmd)); DEFINE_STUB_V(spdk_nvme_qpair_print_completion, (struct spdk_nvme_qpair *qpair, struct spdk_nvme_cpl *cpl)); static void prp_list_prep(struct nvme_tracker *tr, struct nvme_request *req, uint32_t *prp_index) { memset(req, 0, sizeof(*req)); memset(tr, 0, sizeof(*tr)); tr->req = req; tr->prp_sgl_bus_addr = 0xDEADBEEF; if (prp_index) { *prp_index = 0; } } static void test_prp_list_append(void) { struct nvme_request req; struct nvme_tracker tr; struct spdk_nvme_ctrlr ctrlr = {}; uint32_t prp_index; ctrlr.trid.trtype = SPDK_NVME_TRANSPORT_PCIE; /* Non-DWORD-aligned buffer (invalid) */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100001, 0x1000, 0x1000) == -EFAULT); /* 512-byte buffer, 4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, 0x200, 0x1000) == 0); CU_ASSERT(prp_index == 1); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); /* 512-byte buffer, non-4K-aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x108000, 0x200, 0x1000) == 0); CU_ASSERT(prp_index == 1); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x108000); /* 4K buffer, 4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == 1); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); /* 4K buffer, non-4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100800, 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == 2); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100800); CU_ASSERT(req.cmd.dptr.prp.prp2 == 0x101000); /* 8K buffer, 4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, 0x2000, 0x1000) == 0); CU_ASSERT(prp_index == 2); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); CU_ASSERT(req.cmd.dptr.prp.prp2 == 0x101000); /* 8K buffer, non-4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100800, 0x2000, 0x1000) == 0); CU_ASSERT(prp_index == 3); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100800); CU_ASSERT(req.cmd.dptr.prp.prp2 == tr.prp_sgl_bus_addr); CU_ASSERT(tr.u.prp[0] == 0x101000); CU_ASSERT(tr.u.prp[1] == 0x102000); /* 12K buffer, 4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, 0x3000, 0x1000) == 0); CU_ASSERT(prp_index == 3); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); CU_ASSERT(req.cmd.dptr.prp.prp2 == tr.prp_sgl_bus_addr); CU_ASSERT(tr.u.prp[0] == 0x101000); CU_ASSERT(tr.u.prp[1] == 0x102000); /* 12K buffer, non-4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100800, 0x3000, 0x1000) == 0); CU_ASSERT(prp_index == 4); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100800); CU_ASSERT(req.cmd.dptr.prp.prp2 == tr.prp_sgl_bus_addr); CU_ASSERT(tr.u.prp[0] == 0x101000); CU_ASSERT(tr.u.prp[1] == 0x102000); CU_ASSERT(tr.u.prp[2] == 0x103000); /* Two 4K buffers, both 4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == 1); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x900000, 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == 2); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); CU_ASSERT(req.cmd.dptr.prp.prp2 == 0x900000); /* Two 4K buffers, first non-4K aligned, second 4K aligned */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100800, 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == 2); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x900000, 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == 3); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100800); CU_ASSERT(req.cmd.dptr.prp.prp2 == tr.prp_sgl_bus_addr); CU_ASSERT(tr.u.prp[0] == 0x101000); CU_ASSERT(tr.u.prp[1] == 0x900000); /* Two 4K buffers, both non-4K aligned (invalid) */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100800, 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == 2); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x900800, 0x1000, 0x1000) == -EFAULT); CU_ASSERT(prp_index == 2); /* 4K buffer, 4K aligned, but vtophys fails */ MOCK_SET(spdk_vtophys, SPDK_VTOPHYS_ERROR); prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, 0x1000, 0x1000) == -EFAULT); MOCK_CLEAR(spdk_vtophys); /* Largest aligned buffer that can be described in NVME_MAX_PRP_LIST_ENTRIES (plus PRP1) */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, (NVME_MAX_PRP_LIST_ENTRIES + 1) * 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == NVME_MAX_PRP_LIST_ENTRIES + 1); /* Largest non-4K-aligned buffer that can be described in NVME_MAX_PRP_LIST_ENTRIES (plus PRP1) */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100800, NVME_MAX_PRP_LIST_ENTRIES * 0x1000, 0x1000) == 0); CU_ASSERT(prp_index == NVME_MAX_PRP_LIST_ENTRIES + 1); /* Buffer too large to be described in NVME_MAX_PRP_LIST_ENTRIES */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100000, (NVME_MAX_PRP_LIST_ENTRIES + 2) * 0x1000, 0x1000) == -EFAULT); /* Non-4K-aligned buffer too large to be described in NVME_MAX_PRP_LIST_ENTRIES */ prp_list_prep(&tr, &req, &prp_index); CU_ASSERT(nvme_pcie_prp_list_append(&ctrlr, &tr, &prp_index, (void *)0x100800, (NVME_MAX_PRP_LIST_ENTRIES + 1) * 0x1000, 0x1000) == -EFAULT); } struct spdk_event_entry { struct spdk_pci_event event; STAILQ_ENTRY(spdk_event_entry) link; }; static STAILQ_HEAD(, spdk_event_entry) g_events = STAILQ_HEAD_INITIALIZER(g_events); static bool g_device_allowed = false; int spdk_pci_get_event(int fd, struct spdk_pci_event *event) { struct spdk_event_entry *entry; if (STAILQ_EMPTY(&g_events)) { return 0; } entry = STAILQ_FIRST(&g_events); STAILQ_REMOVE_HEAD(&g_events, link); *event = entry->event; return 1; } int spdk_pci_device_allow(struct spdk_pci_addr *pci_addr) { g_device_allowed = true; return 0; } static void test_nvme_pcie_hotplug_monitor(void) { struct nvme_pcie_ctrlr pctrlr = {}; struct spdk_event_entry entry = {}; struct nvme_driver driver; pthread_mutexattr_t attr; struct spdk_nvme_probe_ctx test_nvme_probe_ctx = {}; /* Initiate variables and ctrlr */ driver.initialized = true; driver.hotplug_fd = 123; CU_ASSERT(pthread_mutexattr_init(&attr) == 0); CU_ASSERT(pthread_mutex_init(&pctrlr.ctrlr.ctrlr_lock, &attr) == 0); CU_ASSERT(pthread_mutex_init(&driver.lock, &attr) == 0); TAILQ_INIT(&driver.shared_attached_ctrlrs); g_spdk_nvme_driver = &driver; /* Case 1: SPDK_NVME_UEVENT_ADD/ NVME_VFIO / NVME_UIO */ entry.event.action = SPDK_UEVENT_ADD; spdk_pci_addr_parse(&entry.event.traddr, "0000:05:00.0"); CU_ASSERT(STAILQ_EMPTY(&g_events)); STAILQ_INSERT_TAIL(&g_events, &entry, link); _nvme_pcie_hotplug_monitor(&test_nvme_probe_ctx); CU_ASSERT(STAILQ_EMPTY(&g_events)); CU_ASSERT(g_device_allowed == true); g_device_allowed = false; /* Case 2: SPDK_NVME_UEVENT_REMOVE/ NVME_UIO */ entry.event.action = SPDK_UEVENT_REMOVE; spdk_pci_addr_parse(&entry.event.traddr, "0000:05:00.0"); CU_ASSERT(STAILQ_EMPTY(&g_events)); STAILQ_INSERT_TAIL(&g_events, &entry, link); MOCK_SET(nvme_get_ctrlr_by_trid_unsafe, &pctrlr.ctrlr); _nvme_pcie_hotplug_monitor(&test_nvme_probe_ctx); CU_ASSERT(STAILQ_EMPTY(&g_events)); CU_ASSERT(pctrlr.ctrlr.is_failed == true); CU_ASSERT(pctrlr.ctrlr.is_removed == true); pctrlr.ctrlr.is_failed = false; pctrlr.ctrlr.is_removed = false; MOCK_CLEAR(nvme_get_ctrlr_by_trid_unsafe); /* Case 3: SPDK_NVME_UEVENT_REMOVE/ NVME_VFIO without event */ pctrlr.ctrlr.trid.trtype = SPDK_NVME_TRANSPORT_PCIE; snprintf(pctrlr.ctrlr.trid.traddr, sizeof(pctrlr.ctrlr.trid.traddr), "0000:02:00.0"); pctrlr.ctrlr.remove_cb = NULL; pctrlr.ctrlr.is_failed = false; pctrlr.ctrlr.is_removed = false; TAILQ_INSERT_TAIL(&g_spdk_nvme_driver->shared_attached_ctrlrs, &pctrlr.ctrlr, tailq); /* This should be set in the vfio req notifier cb */ MOCK_SET(spdk_pci_device_is_removed, true); _nvme_pcie_hotplug_monitor(&test_nvme_probe_ctx); CU_ASSERT(STAILQ_EMPTY(&g_events)); CU_ASSERT(pctrlr.ctrlr.is_failed == true); CU_ASSERT(pctrlr.ctrlr.is_removed == true); pctrlr.ctrlr.is_failed = false; pctrlr.ctrlr.is_removed = false; MOCK_CLEAR(spdk_pci_device_is_removed); /* Case 4: Removed device detected in another process */ MOCK_SET(spdk_pci_device_is_removed, false); _nvme_pcie_hotplug_monitor(&test_nvme_probe_ctx); CU_ASSERT(pctrlr.ctrlr.is_failed == false); MOCK_SET(spdk_pci_device_is_removed, true); _nvme_pcie_hotplug_monitor(&test_nvme_probe_ctx); CU_ASSERT(pctrlr.ctrlr.is_failed == true); pthread_mutex_destroy(&driver.lock); pthread_mutex_destroy(&pctrlr.ctrlr.ctrlr_lock); pthread_mutexattr_destroy(&attr); g_spdk_nvme_driver = NULL; } static void test_shadow_doorbell_update(void) { bool ret; /* nvme_pcie_qpair_need_event(uint16_t event_idx, uint16_t new_idx, uint16_t old) */ ret = nvme_pcie_qpair_need_event(10, 15, 14); CU_ASSERT(ret == false); ret = nvme_pcie_qpair_need_event(14, 15, 14); CU_ASSERT(ret == true); } static void test_build_contig_hw_sgl_request(void) { struct spdk_nvme_qpair qpair = {}; struct nvme_request req = {}; struct nvme_tracker tr = {}; struct spdk_nvme_ctrlr ctrlr = {}; int rc; ctrlr.trid.trtype = SPDK_NVME_TRANSPORT_PCIE; qpair.ctrlr = &ctrlr; /* Test 1: Payload covered by a single mapping */ req.payload_size = 100; req.payload = NVME_PAYLOAD_CONTIG(0, 0); g_vtophys_size = 100; MOCK_SET(spdk_vtophys, 0xDEADBEEF); rc = nvme_pcie_qpair_build_contig_hw_sgl_request(&qpair, &req, &tr, 0); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(req.cmd.dptr.sgl1.address == 0xDEADBEEF); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.length == 100); MOCK_CLEAR(spdk_vtophys); g_vtophys_size = 0; memset(&qpair, 0, sizeof(qpair)); memset(&req, 0, sizeof(req)); memset(&tr, 0, sizeof(tr)); /* Test 2: Payload covered by a single mapping, but request is at an offset */ qpair.ctrlr = &ctrlr; req.payload_size = 100; req.payload_offset = 50; req.payload = NVME_PAYLOAD_CONTIG(0, 0); g_vtophys_size = 1000; MOCK_SET(spdk_vtophys, 0xDEADBEEF); rc = nvme_pcie_qpair_build_contig_hw_sgl_request(&qpair, &req, &tr, 0); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(req.cmd.dptr.sgl1.address == 0xDEADBEEF); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.length == 100); MOCK_CLEAR(spdk_vtophys); g_vtophys_size = 0; memset(&qpair, 0, sizeof(qpair)); memset(&req, 0, sizeof(req)); memset(&tr, 0, sizeof(tr)); /* Test 3: Payload spans two mappings */ qpair.ctrlr = &ctrlr; req.payload_size = 100; req.payload = NVME_PAYLOAD_CONTIG(0, 0); g_vtophys_size = 60; tr.prp_sgl_bus_addr = 0xFF0FF; MOCK_SET(spdk_vtophys, 0xDEADBEEF); rc = nvme_pcie_qpair_build_contig_hw_sgl_request(&qpair, &req, &tr, 0); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.type == SPDK_NVME_SGL_TYPE_LAST_SEGMENT); CU_ASSERT(req.cmd.dptr.sgl1.address == tr.prp_sgl_bus_addr); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.length == 2 * sizeof(struct spdk_nvme_sgl_descriptor)); CU_ASSERT(tr.u.sgl[0].unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(tr.u.sgl[0].unkeyed.length == 60); CU_ASSERT(tr.u.sgl[0].address == 0xDEADBEEF); CU_ASSERT(tr.u.sgl[1].unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(tr.u.sgl[1].unkeyed.length == 40); CU_ASSERT(tr.u.sgl[1].address == 0xDEADBEEF); MOCK_CLEAR(spdk_vtophys); g_vtophys_size = 0; memset(&qpair, 0, sizeof(qpair)); memset(&req, 0, sizeof(req)); memset(&tr, 0, sizeof(tr)); } static void test_nvme_pcie_qpair_build_metadata(void) { struct spdk_nvme_qpair qpair = {}; struct nvme_tracker tr = {}; struct nvme_request req = {}; struct spdk_nvme_ctrlr ctrlr = {}; int rc; ctrlr.trid.trtype = SPDK_NVME_TRANSPORT_PCIE; tr.req = &req; qpair.ctrlr = &ctrlr; req.payload.md = (void *)0xDEADBEE0; req.md_offset = 0; req.md_size = 4096; req.cmd.psdt = SPDK_NVME_PSDT_SGL_MPTR_CONTIG; tr.prp_sgl_bus_addr = 0xDBADBEEF; MOCK_SET(spdk_vtophys, 0xDCADBEE0); rc = nvme_pcie_qpair_build_metadata(&qpair, &tr, true, true); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.psdt = SPDK_NVME_PSDT_SGL_MPTR_SGL); CU_ASSERT(tr.meta_sgl.address == 0xDCADBEE0); CU_ASSERT(tr.meta_sgl.unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(tr.meta_sgl.unkeyed.length == 4096); CU_ASSERT(tr.meta_sgl.unkeyed.subtype == 0); CU_ASSERT(req.cmd.mptr == (0xDBADBEEF - sizeof(struct spdk_nvme_sgl_descriptor))); MOCK_CLEAR(spdk_vtophys); /* Build non sgl metadata */ MOCK_SET(spdk_vtophys, 0xDDADBEE0); rc = nvme_pcie_qpair_build_metadata(&qpair, &tr, false, true); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.mptr == 0xDDADBEE0); MOCK_CLEAR(spdk_vtophys); } static int nvme_pcie_ut_next_sge(void *cb_arg, void **address, uint32_t *length) { struct nvme_pcie_ut_bdev_io *bio = cb_arg; struct iovec *iov; SPDK_CU_ASSERT_FATAL(bio->iovpos < NVME_MAX_SGL_DESCRIPTORS); iov = &bio->iovs[bio->iovpos]; *address = iov->iov_base; *length = iov->iov_len; bio->iovpos++; return 0; } static void nvme_pcie_ut_reset_sgl(void *cb_arg, uint32_t offset) { struct nvme_pcie_ut_bdev_io *bio = cb_arg; struct iovec *iov; for (bio->iovpos = 0; bio->iovpos < NVME_MAX_SGL_DESCRIPTORS; bio->iovpos++) { iov = &bio->iovs[bio->iovpos]; /* Offset must be aligned with the start of any SGL entry */ if (offset == 0) { break; } SPDK_CU_ASSERT_FATAL(offset >= iov->iov_len); offset -= iov->iov_len; } SPDK_CU_ASSERT_FATAL(offset == 0); SPDK_CU_ASSERT_FATAL(bio->iovpos < NVME_MAX_SGL_DESCRIPTORS); } static void test_nvme_pcie_qpair_build_prps_sgl_request(void) { struct spdk_nvme_qpair qpair = {}; struct nvme_request req = {}; struct nvme_tracker tr = {}; struct spdk_nvme_ctrlr ctrlr = {}; struct nvme_pcie_ut_bdev_io bio = {}; int rc; tr.req = &req; qpair.ctrlr = &ctrlr; req.payload.contig_or_cb_arg = &bio; req.payload.reset_sgl_fn = nvme_pcie_ut_reset_sgl; req.payload.next_sge_fn = nvme_pcie_ut_next_sge; req.payload_size = 4096; ctrlr.page_size = 4096; bio.iovs[0].iov_base = (void *)0x100000; bio.iovs[0].iov_len = 4096; rc = nvme_pcie_qpair_build_prps_sgl_request(&qpair, &req, &tr, NULL); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); } static void test_nvme_pcie_qpair_build_hw_sgl_request(void) { struct spdk_nvme_qpair qpair = {}; struct nvme_request req = {}; struct nvme_tracker tr = {}; struct nvme_pcie_ut_bdev_io bio = {}; struct spdk_nvme_ctrlr ctrlr = {}; int rc; ctrlr.trid.trtype = SPDK_NVME_TRANSPORT_PCIE; qpair.ctrlr = &ctrlr; req.payload.contig_or_cb_arg = &bio; req.payload.reset_sgl_fn = nvme_pcie_ut_reset_sgl; req.payload.next_sge_fn = nvme_pcie_ut_next_sge; req.cmd.opc = SPDK_NVME_OPC_WRITE; tr.prp_sgl_bus_addr = 0xDAADBEE0; g_vtophys_size = 4096; /* Multiple vectors, 2k + 4k + 2k */ req.payload_size = 8192; bio.iovpos = 3; bio.iovs[0].iov_base = (void *)0xDBADBEE0; bio.iovs[0].iov_len = 2048; bio.iovs[1].iov_base = (void *)0xDCADBEE0; bio.iovs[1].iov_len = 4096; bio.iovs[2].iov_base = (void *)0xDDADBEE0; bio.iovs[2].iov_len = 2048; rc = nvme_pcie_qpair_build_hw_sgl_request(&qpair, &req, &tr, true); CU_ASSERT(rc == 0); CU_ASSERT(tr.u.sgl[0].unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(tr.u.sgl[0].unkeyed.length == 2048); CU_ASSERT(tr.u.sgl[0].address == 0xDBADBEE0); CU_ASSERT(tr.u.sgl[0].unkeyed.subtype == 0); CU_ASSERT(tr.u.sgl[1].unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(tr.u.sgl[1].unkeyed.length == 4096); CU_ASSERT(tr.u.sgl[1].address == 0xDCADBEE0); CU_ASSERT(tr.u.sgl[2].unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(tr.u.sgl[2].unkeyed.length == 2048); CU_ASSERT(tr.u.sgl[2].unkeyed.length == 2048); CU_ASSERT(tr.u.sgl[2].address == 0xDDADBEE0); CU_ASSERT(req.cmd.psdt == SPDK_NVME_PSDT_SGL_MPTR_CONTIG); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.subtype == 0); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.type == SPDK_NVME_SGL_TYPE_LAST_SEGMENT); CU_ASSERT(req.cmd.dptr.sgl1.address == 0xDAADBEE0); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.length == 48); /* Single vector */ memset(&tr, 0, sizeof(tr)); memset(&bio, 0, sizeof(bio)); memset(&req, 0, sizeof(req)); req.payload.contig_or_cb_arg = &bio; req.payload.reset_sgl_fn = nvme_pcie_ut_reset_sgl; req.payload.next_sge_fn = nvme_pcie_ut_next_sge; req.cmd.opc = SPDK_NVME_OPC_WRITE; req.payload_size = 4096; bio.iovpos = 1; bio.iovs[0].iov_base = (void *)0xDBADBEE0; bio.iovs[0].iov_len = 4096; rc = nvme_pcie_qpair_build_hw_sgl_request(&qpair, &req, &tr, true); CU_ASSERT(rc == 0); CU_ASSERT(tr.u.sgl[0].unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(tr.u.sgl[0].unkeyed.length == 4096); CU_ASSERT(tr.u.sgl[0].address == 0xDBADBEE0); CU_ASSERT(tr.u.sgl[0].unkeyed.subtype == 0); CU_ASSERT(req.cmd.psdt == SPDK_NVME_PSDT_SGL_MPTR_CONTIG); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.subtype == 0); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.type == SPDK_NVME_SGL_TYPE_DATA_BLOCK); CU_ASSERT(req.cmd.dptr.sgl1.address == 0xDBADBEE0); CU_ASSERT(req.cmd.dptr.sgl1.unkeyed.length == 4096); } static void test_nvme_pcie_qpair_build_contig_request(void) { struct nvme_pcie_qpair pqpair = {}; struct nvme_request req = {}; struct nvme_tracker tr = {}; struct spdk_nvme_ctrlr ctrlr = {}; int rc; pqpair.qpair.ctrlr = &ctrlr; ctrlr.page_size = 0x1000; /* 1 prp, 4k-aligned */ prp_list_prep(&tr, &req, NULL); req.payload_size = 0x1000; req.payload.contig_or_cb_arg = (void *)0x100000; rc = nvme_pcie_qpair_build_contig_request(&pqpair.qpair, &req, &tr, true); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); /* 2 prps, non-4K-aligned */ prp_list_prep(&tr, &req, NULL); req.payload_size = 0x1000; req.payload_offset = 0x800; req.payload.contig_or_cb_arg = (void *)0x100000; rc = nvme_pcie_qpair_build_contig_request(&pqpair.qpair, &req, &tr, true); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100800); CU_ASSERT(req.cmd.dptr.prp.prp2 == 0x101000); /* 3 prps, 4k-aligned */ prp_list_prep(&tr, &req, NULL); req.payload_size = 0x3000; req.payload.contig_or_cb_arg = (void *)0x100000; rc = nvme_pcie_qpair_build_contig_request(&pqpair.qpair, &req, &tr, true); CU_ASSERT(rc == 0); CU_ASSERT(req.cmd.dptr.prp.prp1 == 0x100000); CU_ASSERT(req.cmd.dptr.prp.prp2 == tr.prp_sgl_bus_addr); CU_ASSERT(tr.u.prp[0] == 0x101000); CU_ASSERT(tr.u.prp[1] == 0x102000); /* address not dword aligned */ prp_list_prep(&tr, &req, NULL); req.payload_size = 0x3000; req.payload.contig_or_cb_arg = (void *)0x100001; req.qpair = &pqpair.qpair; TAILQ_INIT(&pqpair.outstanding_tr); TAILQ_INSERT_TAIL(&pqpair.outstanding_tr, &tr, tq_list); rc = nvme_pcie_qpair_build_contig_request(&pqpair.qpair, &req, &tr, true); CU_ASSERT(rc == -EFAULT); } static void test_nvme_pcie_ctrlr_regs_get_set(void) { struct nvme_pcie_ctrlr pctrlr = {}; volatile struct spdk_nvme_registers regs = {}; uint32_t value_4; uint64_t value_8; int rc; pctrlr.regs = ®s; rc = nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, 8, 4); CU_ASSERT(rc == 0); rc = nvme_pcie_ctrlr_get_reg_4(&pctrlr.ctrlr, 8, &value_4); CU_ASSERT(rc == 0); CU_ASSERT(value_4 == 4); rc = nvme_pcie_ctrlr_set_reg_8(&pctrlr.ctrlr, 0, 0x100000000); CU_ASSERT(rc == 0); rc = nvme_pcie_ctrlr_get_reg_8(&pctrlr.ctrlr, 0, &value_8); CU_ASSERT(rc == 0); CU_ASSERT(value_8 == 0x100000000); } static void test_nvme_pcie_ctrlr_map_unmap_cmb(void) { struct nvme_pcie_ctrlr pctrlr = {}; volatile struct spdk_nvme_registers regs = {}; union spdk_nvme_cmbsz_register cmbsz = {}; union spdk_nvme_cmbloc_register cmbloc = {}; struct dev_mem_resource cmd_res = {}; int rc; pctrlr.regs = ®s; pctrlr.devhandle = (void *)&cmd_res; cmd_res.addr = (void *)0x7f7c0080d000; cmd_res.len = 0x800000; cmd_res.phys_addr = 0xFC800000; /* Configure cmb size with unit size 4k, offset 100, unsupported SQ */ cmbsz.bits.sz = 512; cmbsz.bits.szu = 0; cmbsz.bits.sqs = 0; cmbloc.bits.bir = 0; cmbloc.bits.ofst = 100; nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, cmbsz.raw), cmbsz.raw); nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, cmbloc.raw), cmbloc.raw); nvme_pcie_ctrlr_map_cmb(&pctrlr); CU_ASSERT(pctrlr.cmb.bar_va == (void *)0x7f7c0080d000); CU_ASSERT(pctrlr.cmb.bar_pa == 0xFC800000); CU_ASSERT(pctrlr.cmb.size == 512 * 4096); CU_ASSERT(pctrlr.cmb.current_offset == 4096 * 100); CU_ASSERT(pctrlr.ctrlr.opts.use_cmb_sqs == false); rc = nvme_pcie_ctrlr_unmap_cmb(&pctrlr); CU_ASSERT(rc == 0); /* Invalid mapping information */ memset(&pctrlr.cmb, 0, sizeof(pctrlr.cmb)); nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, cmbsz.raw), 0); nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, cmbloc.raw), 0); nvme_pcie_ctrlr_map_cmb(&pctrlr); CU_ASSERT(pctrlr.cmb.bar_va == NULL); CU_ASSERT(pctrlr.cmb.bar_pa == 0); CU_ASSERT(pctrlr.cmb.size == 0); CU_ASSERT(pctrlr.cmb.current_offset == 0); CU_ASSERT(pctrlr.ctrlr.opts.use_cmb_sqs == false); } static void prepare_map_io_cmd(struct nvme_pcie_ctrlr *pctrlr) { union spdk_nvme_cmbsz_register cmbsz = {}; union spdk_nvme_cmbloc_register cmbloc = {}; cmbsz.bits.sz = 512; cmbsz.bits.wds = 1; cmbsz.bits.rds = 1; nvme_pcie_ctrlr_set_reg_4(&pctrlr->ctrlr, offsetof(struct spdk_nvme_registers, cmbsz.raw), cmbsz.raw); nvme_pcie_ctrlr_set_reg_4(&pctrlr->ctrlr, offsetof(struct spdk_nvme_registers, cmbloc.raw), cmbloc.raw); pctrlr->cmb.bar_va = (void *)0x7F7C0080D000; pctrlr->cmb.bar_pa = 0xFC800000; pctrlr->cmb.current_offset = 1ULL << 22; pctrlr->cmb.size = (1ULL << 22) * 512; pctrlr->cmb.mem_register_addr = NULL; pctrlr->ctrlr.opts.use_cmb_sqs = false; } static void test_nvme_pcie_ctrlr_map_io_cmb(void) { struct nvme_pcie_ctrlr pctrlr = {}; volatile struct spdk_nvme_registers regs = {}; union spdk_nvme_cmbsz_register cmbsz = {}; void *mem_reg_addr = NULL; size_t size; int rc; pctrlr.regs = ®s; prepare_map_io_cmd(&pctrlr); mem_reg_addr = nvme_pcie_ctrlr_map_io_cmb(&pctrlr.ctrlr, &size); /* Ceil the current cmb vaddr and cmb size to 2MB_aligned */ CU_ASSERT(mem_reg_addr == (void *)0x7F7C00E00000); CU_ASSERT(size == 0x7FE00000); rc = nvme_pcie_ctrlr_unmap_io_cmb(&pctrlr.ctrlr); CU_ASSERT(rc == 0); CU_ASSERT(pctrlr.cmb.mem_register_addr == NULL); CU_ASSERT(pctrlr.cmb.mem_register_size == 0); /* cmb mem_register_addr not NULL */ prepare_map_io_cmd(&pctrlr); pctrlr.cmb.mem_register_addr = (void *)0xDEADBEEF; pctrlr.cmb.mem_register_size = 1024; mem_reg_addr = nvme_pcie_ctrlr_map_io_cmb(&pctrlr.ctrlr, &size); CU_ASSERT(size == 1024); CU_ASSERT(mem_reg_addr == (void *)0xDEADBEEF); /* cmb.bar_va is NULL */ prepare_map_io_cmd(&pctrlr); pctrlr.cmb.bar_va = NULL; mem_reg_addr = nvme_pcie_ctrlr_map_io_cmb(&pctrlr.ctrlr, &size); CU_ASSERT(mem_reg_addr == NULL); CU_ASSERT(size == 0); /* submission queue already used */ prepare_map_io_cmd(&pctrlr); pctrlr.ctrlr.opts.use_cmb_sqs = true; mem_reg_addr = nvme_pcie_ctrlr_map_io_cmb(&pctrlr.ctrlr, &size); CU_ASSERT(mem_reg_addr == NULL); CU_ASSERT(size == 0); pctrlr.ctrlr.opts.use_cmb_sqs = false; /* Only SQS is supported */ prepare_map_io_cmd(&pctrlr); cmbsz.bits.wds = 0; cmbsz.bits.rds = 0; nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, cmbsz.raw), cmbsz.raw); mem_reg_addr = nvme_pcie_ctrlr_map_io_cmb(&pctrlr.ctrlr, &size); CU_ASSERT(mem_reg_addr == NULL); CU_ASSERT(size == 0); /* CMB size is less than 4MB */ prepare_map_io_cmd(&pctrlr); pctrlr.cmb.size = 1ULL << 16; mem_reg_addr = nvme_pcie_ctrlr_map_io_cmb(&pctrlr.ctrlr, &size); CU_ASSERT(mem_reg_addr == NULL); CU_ASSERT(size == 0); } static void test_nvme_pcie_ctrlr_map_unmap_pmr(void) { struct nvme_pcie_ctrlr pctrlr = {}; volatile struct spdk_nvme_registers regs = {}; union spdk_nvme_pmrcap_register pmrcap = {}; struct dev_mem_resource cmd_res = {}; int rc; pctrlr.regs = ®s; pctrlr.devhandle = (void *)&cmd_res; regs.cap.bits.pmrs = 1; cmd_res.addr = (void *)0x7F7C0080d000; cmd_res.len = 0x800000; cmd_res.phys_addr = 0xFC800000; pmrcap.bits.bir = 2; pmrcap.bits.cmss = 1; nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, pmrcap.raw), pmrcap.raw); nvme_pcie_ctrlr_map_pmr(&pctrlr); CU_ASSERT(pctrlr.regs->pmrmscu == 0); /* Controller memory space enable, bit 1 */ CU_ASSERT(pctrlr.regs->pmrmscl.raw == 0xFC800002); CU_ASSERT(pctrlr.regs->pmrsts.raw == 0); CU_ASSERT(pctrlr.pmr.bar_va == (void *)0x7F7C0080d000); CU_ASSERT(pctrlr.pmr.bar_pa == 0xFC800000); CU_ASSERT(pctrlr.pmr.size == 0x800000); rc = nvme_pcie_ctrlr_unmap_pmr(&pctrlr); CU_ASSERT(rc == 0); CU_ASSERT(pctrlr.regs->pmrmscu == 0); CU_ASSERT(pctrlr.regs->pmrmscl.raw == 0); /* pmrcap value invalid */ memset(&pctrlr, 0, sizeof(pctrlr)); memset((void *)®s, 0, sizeof(regs)); memset(&cmd_res, 0, sizeof(cmd_res)); pctrlr.regs = ®s; pctrlr.devhandle = (void *)&cmd_res; regs.cap.bits.pmrs = 1; cmd_res.addr = (void *)0x7F7C0080d000; cmd_res.len = 0x800000; cmd_res.phys_addr = 0xFC800000; pmrcap.raw = 0; nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, pmrcap.raw), pmrcap.raw); nvme_pcie_ctrlr_map_pmr(&pctrlr); CU_ASSERT(pctrlr.pmr.bar_va == NULL); CU_ASSERT(pctrlr.pmr.bar_pa == 0); CU_ASSERT(pctrlr.pmr.size == 0); } static void test_nvme_pcie_ctrlr_config_pmr(void) { struct nvme_pcie_ctrlr pctrlr = {}; union spdk_nvme_pmrcap_register pmrcap = {}; union spdk_nvme_pmrsts_register pmrsts = {}; union spdk_nvme_cap_register cap = {}; union spdk_nvme_pmrctl_register pmrctl = {}; volatile struct spdk_nvme_registers regs = {}; int rc; /* pmrctl enable */ pctrlr.regs = ®s; pmrcap.bits.pmrtu = 0; pmrcap.bits.pmrto = 1; pmrsts.bits.nrdy = false; pmrctl.bits.en = 0; cap.bits.pmrs = 1; rc = nvme_pcie_ctrlr_set_pmrctl(&pctrlr, &pmrctl); SPDK_CU_ASSERT_FATAL(rc == 0); rc = nvme_pcie_ctrlr_set_reg_8(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, cap.raw), cap.raw); SPDK_CU_ASSERT_FATAL(rc == 0); rc = nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, pmrcap.raw), pmrcap.raw); SPDK_CU_ASSERT_FATAL(rc == 0); rc = nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, pmrsts.raw), pmrsts.raw); SPDK_CU_ASSERT_FATAL(rc == 0); rc = nvme_pcie_ctrlr_config_pmr(&pctrlr.ctrlr, true); CU_ASSERT(rc == 0); rc = nvme_pcie_ctrlr_get_pmrctl(&pctrlr, &pmrctl); CU_ASSERT(rc == 0); CU_ASSERT(pmrctl.bits.en == true); /* pmrctl disable */ pmrsts.bits.nrdy = true; rc = nvme_pcie_ctrlr_set_reg_4(&pctrlr.ctrlr, offsetof(struct spdk_nvme_registers, pmrsts.raw), pmrsts.raw); SPDK_CU_ASSERT_FATAL(rc == 0); rc = nvme_pcie_ctrlr_set_pmrctl(&pctrlr, &pmrctl); SPDK_CU_ASSERT_FATAL(rc == 0); rc = nvme_pcie_ctrlr_config_pmr(&pctrlr.ctrlr, false); CU_ASSERT(rc == 0); rc = nvme_pcie_ctrlr_get_pmrctl(&pctrlr, &pmrctl); CU_ASSERT(rc == 0); CU_ASSERT(pmrctl.bits.en == false); /* configuration exist */ rc = nvme_pcie_ctrlr_config_pmr(&pctrlr.ctrlr, false); CU_ASSERT(rc == -EINVAL); } int main(int argc, char **argv) { CU_pSuite suite = NULL; unsigned int num_failures; CU_set_error_action(CUEA_ABORT); CU_initialize_registry(); suite = CU_add_suite("nvme_pcie", NULL, NULL); CU_ADD_TEST(suite, test_prp_list_append); CU_ADD_TEST(suite, test_nvme_pcie_hotplug_monitor); CU_ADD_TEST(suite, test_shadow_doorbell_update); CU_ADD_TEST(suite, test_build_contig_hw_sgl_request); CU_ADD_TEST(suite, test_nvme_pcie_qpair_build_metadata); CU_ADD_TEST(suite, test_nvme_pcie_qpair_build_prps_sgl_request); CU_ADD_TEST(suite, test_nvme_pcie_qpair_build_hw_sgl_request); CU_ADD_TEST(suite, test_nvme_pcie_qpair_build_contig_request); CU_ADD_TEST(suite, test_nvme_pcie_ctrlr_regs_get_set); CU_ADD_TEST(suite, test_nvme_pcie_ctrlr_map_unmap_cmb); CU_ADD_TEST(suite, test_nvme_pcie_ctrlr_map_io_cmb); CU_ADD_TEST(suite, test_nvme_pcie_ctrlr_map_unmap_pmr); CU_ADD_TEST(suite, test_nvme_pcie_ctrlr_config_pmr); CU_basic_set_mode(CU_BRM_VERBOSE); CU_basic_run_tests(); num_failures = CU_get_number_of_failures(); CU_cleanup_registry(); return num_failures; }