// SPDX-License-Identifier: LGPL-2.1-or-later /* * This file is part of libnvme. * Copyright (c) 2021 SUSE Software Solutions * * Authors: Hannes Reinecke */ #include #include #include #include #include #include #include "cleanup.h" #include "fabrics.h" #include "log.h" #include "private.h" #include "linux.h" #define JSON_UPDATE_INT_OPTION(c, k, a, o) \ if (!strcmp(# a, k ) && !c->a) c->a = json_object_get_int(o); #define JSON_UPDATE_BOOL_OPTION(c, k, a, o) \ if (!strcmp(# a, k ) && !c->a) c->a = json_object_get_boolean(o); static void json_update_attributes(nvme_ctrl_t c, struct json_object *ctrl_obj) { struct nvme_fabrics_config *cfg = nvme_ctrl_get_config(c); json_object_object_foreach(ctrl_obj, key_str, val_obj) { JSON_UPDATE_INT_OPTION(cfg, key_str, nr_io_queues, val_obj); JSON_UPDATE_INT_OPTION(cfg, key_str, nr_write_queues, val_obj); JSON_UPDATE_INT_OPTION(cfg, key_str, nr_poll_queues, val_obj); JSON_UPDATE_INT_OPTION(cfg, key_str, queue_size, val_obj); JSON_UPDATE_INT_OPTION(cfg, key_str, keep_alive_tmo, val_obj); JSON_UPDATE_INT_OPTION(cfg, key_str, reconnect_delay, val_obj); if (!strcmp("ctrl_loss_tmo", key_str) && cfg->ctrl_loss_tmo != NVMF_DEF_CTRL_LOSS_TMO) cfg->ctrl_loss_tmo = json_object_get_int(val_obj); JSON_UPDATE_INT_OPTION(cfg, key_str, fast_io_fail_tmo, val_obj); if (!strcmp("tos", key_str) && cfg->tos != -1) cfg->tos = json_object_get_int(val_obj); JSON_UPDATE_BOOL_OPTION(cfg, key_str, duplicate_connect, val_obj); JSON_UPDATE_BOOL_OPTION(cfg, key_str, disable_sqflow, val_obj); JSON_UPDATE_BOOL_OPTION(cfg, key_str, hdr_digest, val_obj); JSON_UPDATE_BOOL_OPTION(cfg, key_str, data_digest, val_obj); JSON_UPDATE_BOOL_OPTION(cfg, key_str, tls, val_obj); JSON_UPDATE_BOOL_OPTION(cfg, key_str, concat, val_obj); if (!strcmp("persistent", key_str) && !nvme_ctrl_is_persistent(c)) nvme_ctrl_set_persistent(c, true); if (!strcmp("discovery", key_str) && !nvme_ctrl_is_discovery_ctrl(c)) nvme_ctrl_set_discovery_ctrl(c, true); if (!strcmp("keyring", key_str)) nvme_ctrl_set_keyring(c, json_object_get_string(val_obj)); if (!strcmp("tls_key_identity", key_str)) { nvme_ctrl_set_tls_key_identity(c, json_object_get_string(val_obj)); } if (!strcmp("tls_key", key_str)) { nvme_ctrl_set_tls_key(c, json_object_get_string(val_obj)); } } } static void json_parse_port(nvme_subsystem_t s, struct json_object *port_obj) { nvme_ctrl_t c; struct json_object *attr_obj; const char *transport, *traddr = NULL; const char *host_traddr = NULL, *host_iface = NULL, *trsvcid = NULL; attr_obj = json_object_object_get(port_obj, "transport"); if (!attr_obj) return; transport = json_object_get_string(attr_obj); attr_obj = json_object_object_get(port_obj, "traddr"); if (attr_obj) traddr = json_object_get_string(attr_obj); attr_obj = json_object_object_get(port_obj, "host_traddr"); if (attr_obj) host_traddr = json_object_get_string(attr_obj); attr_obj = json_object_object_get(port_obj, "host_iface"); if (attr_obj) host_iface = json_object_get_string(attr_obj); attr_obj = json_object_object_get(port_obj, "trsvcid"); if (attr_obj) trsvcid = json_object_get_string(attr_obj); c = nvme_lookup_ctrl(s, transport, traddr, host_traddr, host_iface, trsvcid, NULL); if (!c) return; json_update_attributes(c, port_obj); attr_obj = json_object_object_get(port_obj, "dhchap_key"); if (attr_obj) nvme_ctrl_set_dhchap_host_key(c, json_object_get_string(attr_obj)); attr_obj = json_object_object_get(port_obj, "dhchap_ctrl_key"); if (attr_obj) nvme_ctrl_set_dhchap_key(c, json_object_get_string(attr_obj)); attr_obj = json_object_object_get(port_obj, "keyring"); if (attr_obj) nvme_ctrl_set_keyring(c, json_object_get_string(attr_obj)); attr_obj = json_object_object_get(port_obj, "tls_key_identity"); if (attr_obj) { nvme_ctrl_set_tls_key_identity(c, json_object_get_string(attr_obj)); } attr_obj = json_object_object_get(port_obj, "tls_key"); if (attr_obj) { nvme_ctrl_set_tls_key(c, json_object_get_string(attr_obj)); } } static void json_parse_subsys(nvme_host_t h, struct json_object *subsys_obj) { struct json_object *nqn_obj, *app_obj, *port_array; nvme_subsystem_t s; const char *nqn; int p; nqn_obj = json_object_object_get(subsys_obj, "nqn"); if (!nqn_obj) return; nqn = json_object_get_string(nqn_obj); s = nvme_lookup_subsystem(h, NULL, nqn); if (!s) return; app_obj = json_object_object_get(subsys_obj, "application"); if (app_obj) nvme_subsystem_set_application(s, json_object_get_string(app_obj)); port_array = json_object_object_get(subsys_obj, "ports"); if (!port_array) return; for (p = 0; p < json_object_array_length(port_array); p++) { struct json_object *port_obj; port_obj = json_object_array_get_idx(port_array, p); if (port_obj) json_parse_port(s, port_obj); } } static void json_parse_host(nvme_root_t r, struct json_object *host_obj) { struct json_object *attr_obj, *subsys_array, *subsys_obj; nvme_host_t h; const char *hostnqn, *hostid = NULL; int s; attr_obj = json_object_object_get(host_obj, "hostnqn"); if (!attr_obj) return; hostnqn = json_object_get_string(attr_obj); attr_obj = json_object_object_get(host_obj, "hostid"); if (attr_obj) hostid = json_object_get_string(attr_obj); h = nvme_lookup_host(r, hostnqn, hostid); attr_obj = json_object_object_get(host_obj, "dhchap_key"); if (attr_obj) nvme_host_set_dhchap_key(h, json_object_get_string(attr_obj)); attr_obj = json_object_object_get(host_obj, "hostsymname"); if (attr_obj) nvme_host_set_hostsymname(h, json_object_get_string(attr_obj)); attr_obj = json_object_object_get(host_obj, "persistent_discovery_ctrl"); if (attr_obj) nvme_host_set_pdc_enabled(h, json_object_get_boolean(attr_obj)); subsys_array = json_object_object_get(host_obj, "subsystems"); if (!subsys_array) return; for (s = 0; s < json_object_array_length(subsys_array); s++) { subsys_obj = json_object_array_get_idx(subsys_array, s); if (subsys_obj) json_parse_subsys(h, subsys_obj); } } static DEFINE_CLEANUP_FUNC(cleanup_tokener, json_tokener *, json_tokener_free) #define _cleanup_tokener_ __cleanup__(cleanup_tokener) static struct json_object *parse_json(nvme_root_t r, int fd) { char buf[JSON_FILE_BUF_SIZE]; struct json_object *obj; char *str = NULL; _cleanup_tokener_ json_tokener *tok = NULL; int ret; _cleanup_free_ void *ptr = NULL; int len = 0; while ((ret = read(fd, buf, JSON_FILE_BUF_SIZE)) > 0) { str = realloc(ptr, len + ret); if (!str) return NULL; memcpy(&str[len], buf, ret); len += ret; ptr = str; } if (ret < 0 || !len) return NULL; tok = json_tokener_new_ex(JSON_TOKENER_DEFAULT_DEPTH); if (!tok) return NULL; /* Enforce correctly formatted JSON */ tok->flags = JSON_TOKENER_STRICT; obj = json_tokener_parse_ex(tok, str, len); if (!obj) nvme_msg(r, LOG_DEBUG, "JSON parsing failed: %s\n", json_util_get_last_err()); return obj; } int json_read_config(nvme_root_t r, const char *config_file) { struct json_object *json_root, *host_obj; int fd, h; fd = open(config_file, O_RDONLY); if (fd < 0) { nvme_msg(r, LOG_DEBUG, "Error opening %s, %s\n", config_file, strerror(errno)); return fd; } json_root = parse_json(r, fd); close(fd); if (!json_root) { errno = EPROTO; return -1; } if (!json_object_is_type(json_root, json_type_array)) { nvme_msg(r, LOG_DEBUG, "Wrong format, expected array\n"); json_object_put(json_root); errno = EPROTO; return -1; } for (h = 0; h < json_object_array_length(json_root); h++) { host_obj = json_object_array_get_idx(json_root, h); if (host_obj) json_parse_host(r, host_obj); } json_object_put(json_root); return 0; } #define JSON_STRING_OPTION(c, p, o) \ if ((c)->o && strcmp((c)->o, "none")) \ json_object_object_add((p), # o , \ json_object_new_string((c)->o)) #define JSON_INT_OPTION(c, p, o, d) \ if ((c)->o != d) \ json_object_object_add((p), # o , \ json_object_new_int((c)->o)) #define JSON_BOOL_OPTION(c, p, o) \ if ((c)->o) \ json_object_object_add((p), # o , \ json_object_new_boolean((c)->o)) static void json_update_port(struct json_object *ctrl_array, nvme_ctrl_t c) { struct nvme_fabrics_config *cfg = nvme_ctrl_get_config(c); struct json_object *port_obj = json_object_new_object(); const char *transport, *value; transport = nvme_ctrl_get_transport(c); if (!strcmp(transport, "pcie")) return; json_object_object_add(port_obj, "transport", json_object_new_string(transport)); value = nvme_ctrl_get_traddr(c); if (value) json_object_object_add(port_obj, "traddr", json_object_new_string(value)); value = nvme_ctrl_get_host_traddr(c); if (value) json_object_object_add(port_obj, "host_traddr", json_object_new_string(value)); value = nvme_ctrl_get_host_iface(c); if (value) json_object_object_add(port_obj, "host_iface", json_object_new_string(value)); value = nvme_ctrl_get_trsvcid(c); if (value) json_object_object_add(port_obj, "trsvcid", json_object_new_string(value)); value = nvme_ctrl_get_dhchap_host_key(c); if (value) json_object_object_add(port_obj, "dhchap_key", json_object_new_string(value)); value = nvme_ctrl_get_dhchap_key(c); if (value) json_object_object_add(port_obj, "dhchap_ctrl_key", json_object_new_string(value)); JSON_BOOL_OPTION(cfg, port_obj, tls); value = nvme_ctrl_get_keyring(c); if (value) json_object_object_add(port_obj, "keyring", json_object_new_string(value)); value = nvme_ctrl_get_tls_key_identity(c); if (value) json_object_object_add(port_obj, "tls_key_identity", json_object_new_string(value)); value = nvme_ctrl_get_tls_key(c); if (value) json_object_object_add(port_obj, "tls_key", json_object_new_string(value)); JSON_INT_OPTION(cfg, port_obj, nr_io_queues, 0); JSON_INT_OPTION(cfg, port_obj, nr_write_queues, 0); JSON_INT_OPTION(cfg, port_obj, nr_poll_queues, 0); JSON_INT_OPTION(cfg, port_obj, queue_size, 0); JSON_INT_OPTION(cfg, port_obj, keep_alive_tmo, 0); JSON_INT_OPTION(cfg, port_obj, reconnect_delay, 0); if (strcmp(transport, "loop")) { JSON_INT_OPTION(cfg, port_obj, ctrl_loss_tmo, NVMF_DEF_CTRL_LOSS_TMO); JSON_INT_OPTION(cfg, port_obj, fast_io_fail_tmo, 0); } JSON_INT_OPTION(cfg, port_obj, tos, -1); JSON_BOOL_OPTION(cfg, port_obj, duplicate_connect); JSON_BOOL_OPTION(cfg, port_obj, disable_sqflow); JSON_BOOL_OPTION(cfg, port_obj, hdr_digest); JSON_BOOL_OPTION(cfg, port_obj, data_digest); JSON_BOOL_OPTION(cfg, port_obj, concat); if (nvme_ctrl_is_persistent(c)) json_object_object_add(port_obj, "persistent", json_object_new_boolean(true)); if (nvme_ctrl_is_discovery_ctrl(c)) json_object_object_add(port_obj, "discovery", json_object_new_boolean(true)); json_object_array_add(ctrl_array, port_obj); } static void json_update_subsys(struct json_object *subsys_array, nvme_subsystem_t s) { nvme_ctrl_t c; const char *subsysnqn = nvme_subsystem_get_nqn(s), *app; struct json_object *subsys_obj = json_object_new_object(); struct json_object *port_array; /* Skip discovery subsystems as the nqn is not unique */ if (!strcmp(subsysnqn, NVME_DISC_SUBSYS_NAME)) return; json_object_object_add(subsys_obj, "nqn", json_object_new_string(subsysnqn)); app = nvme_subsystem_get_application(s); if (app) json_object_object_add(subsys_obj, "application", json_object_new_string(app)); port_array = json_object_new_array(); nvme_subsystem_for_each_ctrl(s, c) { json_update_port(port_array, c); } if (json_object_array_length(port_array)) { json_object_object_add(subsys_obj, "ports", port_array); json_object_array_add(subsys_array, subsys_obj); } else { json_object_put(port_array); json_object_put(subsys_obj); } } int json_update_config(nvme_root_t r, const char *config_file) { nvme_host_t h; struct json_object *json_root, *host_obj; struct json_object *subsys_array; int ret = 0; json_root = json_object_new_array(); nvme_for_each_host(r, h) { nvme_subsystem_t s; const char *hostnqn, *hostid, *dhchap_key, *hostsymname; host_obj = json_object_new_object(); if (!host_obj) continue; hostnqn = nvme_host_get_hostnqn(h); json_object_object_add(host_obj, "hostnqn", json_object_new_string(hostnqn)); hostid = nvme_host_get_hostid(h); if (hostid) json_object_object_add(host_obj, "hostid", json_object_new_string(hostid)); dhchap_key = nvme_host_get_dhchap_key(h); if (dhchap_key) json_object_object_add(host_obj, "dhchap_key", json_object_new_string(dhchap_key)); hostsymname = nvme_host_get_hostsymname(h); if (hostsymname) json_object_object_add(host_obj, "hostsymname", json_object_new_string(hostsymname)); if (h->pdc_enabled_valid) json_object_object_add(host_obj, "persistent_discovery_ctrl", json_object_new_boolean(h->pdc_enabled)); subsys_array = json_object_new_array(); nvme_for_each_subsystem(h, s) { json_update_subsys(subsys_array, s); } if (json_object_array_length(subsys_array)) { json_object_object_add(host_obj, "subsystems", subsys_array); json_object_array_add(json_root, host_obj); } else { json_object_put(subsys_array); json_object_put(host_obj); } } if (!config_file) { ret = json_object_to_fd(1, json_root, JSON_C_TO_STRING_PRETTY | JSON_C_TO_STRING_NOSLASHESCAPE); printf("\n"); } else ret = json_object_to_file_ext(config_file, json_root, JSON_C_TO_STRING_PRETTY | JSON_C_TO_STRING_NOSLASHESCAPE); if (ret < 0) { nvme_msg(r, LOG_ERR, "Failed to write to %s, %s\n", config_file ? "stdout" : config_file, json_util_get_last_err()); ret = -1; errno = EIO; } json_object_put(json_root); return ret; } static void json_dump_ctrl(struct json_object *ctrl_array, nvme_ctrl_t c) { struct nvme_fabrics_config *cfg = nvme_ctrl_get_config(c); struct json_object *ctrl_obj = json_object_new_object(); const char *name, *transport, *value; name = nvme_ctrl_get_name(c); if (name && strlen(name)) json_object_object_add(ctrl_obj, "name", json_object_new_string(name)); transport = nvme_ctrl_get_transport(c); json_object_object_add(ctrl_obj, "transport", json_object_new_string(transport)); value = nvme_ctrl_get_traddr(c); if (value) json_object_object_add(ctrl_obj, "traddr", json_object_new_string(value)); value = nvme_ctrl_get_host_traddr(c); if (value) json_object_object_add(ctrl_obj, "host_traddr", json_object_new_string(value)); value = nvme_ctrl_get_host_iface(c); if (value) json_object_object_add(ctrl_obj, "host_iface", json_object_new_string(value)); value = nvme_ctrl_get_trsvcid(c); if (value) json_object_object_add(ctrl_obj, "trsvcid", json_object_new_string(value)); value = nvme_ctrl_get_dhchap_host_key(c); if (value) json_object_object_add(ctrl_obj, "dhchap_key", json_object_new_string(value)); value = nvme_ctrl_get_dhchap_key(c); if (value) json_object_object_add(ctrl_obj, "dhchap_ctrl_key", json_object_new_string(value)); JSON_INT_OPTION(cfg, ctrl_obj, nr_io_queues, 0); JSON_INT_OPTION(cfg, ctrl_obj, nr_write_queues, 0); JSON_INT_OPTION(cfg, ctrl_obj, nr_poll_queues, 0); JSON_INT_OPTION(cfg, ctrl_obj, queue_size, 0); JSON_INT_OPTION(cfg, ctrl_obj, keep_alive_tmo, 0); JSON_INT_OPTION(cfg, ctrl_obj, reconnect_delay, 0); if (strcmp(transport, "loop")) { JSON_INT_OPTION(cfg, ctrl_obj, ctrl_loss_tmo, NVMF_DEF_CTRL_LOSS_TMO); JSON_INT_OPTION(cfg, ctrl_obj, fast_io_fail_tmo, 0); } JSON_INT_OPTION(cfg, ctrl_obj, tos, -1); JSON_BOOL_OPTION(cfg, ctrl_obj, duplicate_connect); JSON_BOOL_OPTION(cfg, ctrl_obj, disable_sqflow); JSON_BOOL_OPTION(cfg, ctrl_obj, hdr_digest); JSON_BOOL_OPTION(cfg, ctrl_obj, data_digest); if (!strcmp(transport, "tcp")) { JSON_BOOL_OPTION(cfg, ctrl_obj, tls); value = nvme_ctrl_get_keyring(c); if (value) json_object_object_add(ctrl_obj, "keyring", json_object_new_string(value)); value = nvme_ctrl_get_tls_key_identity(c); if (value) json_object_object_add(ctrl_obj, "tls_key_identity", json_object_new_string(value)); value = nvme_ctrl_get_tls_key(c); if (value) json_object_object_add(ctrl_obj, "tls_key", json_object_new_string(value)); } JSON_BOOL_OPTION(cfg, ctrl_obj, concat); if (nvme_ctrl_is_persistent(c)) json_object_object_add(ctrl_obj, "persistent", json_object_new_boolean(true)); if (nvme_ctrl_is_discovery_ctrl(c)) json_object_object_add(ctrl_obj, "discovery", json_object_new_boolean(true)); json_object_array_add(ctrl_array, ctrl_obj); } static void json_dump_subsys(struct json_object *subsys_array, nvme_subsystem_t s) { nvme_ctrl_t c; struct json_object *subsys_obj = json_object_new_object(); struct json_object *ctrl_array; json_object_object_add(subsys_obj, "name", json_object_new_string(nvme_subsystem_get_name(s))); json_object_object_add(subsys_obj, "nqn", json_object_new_string(nvme_subsystem_get_nqn(s))); ctrl_array = json_object_new_array(); nvme_subsystem_for_each_ctrl(s, c) { json_dump_ctrl(ctrl_array, c); } if (json_object_array_length(ctrl_array)) json_object_object_add(subsys_obj, "controllers", ctrl_array); else json_object_put(ctrl_array); json_object_array_add(subsys_array, subsys_obj); } int json_dump_tree(nvme_root_t r) { nvme_host_t h; struct json_object *json_root, *host_obj; struct json_object *host_array, *subsys_array; int ret = 0; json_root = json_object_new_object(); host_array = json_object_new_array(); nvme_for_each_host(r, h) { nvme_subsystem_t s; const char *hostid, *dhchap_key; host_obj = json_object_new_object(); json_object_object_add(host_obj, "hostnqn", json_object_new_string(nvme_host_get_hostnqn(h))); hostid = nvme_host_get_hostid(h); if (hostid) json_object_object_add(host_obj, "hostid", json_object_new_string(hostid)); dhchap_key = nvme_host_get_dhchap_key(h); if (dhchap_key) json_object_object_add(host_obj, "dhchap_key", json_object_new_string(dhchap_key)); if (h->pdc_enabled_valid) json_object_object_add(host_obj, "persistent_discovery_ctrl", json_object_new_boolean(h->pdc_enabled)); subsys_array = json_object_new_array(); nvme_for_each_subsystem(h, s) { json_dump_subsys(subsys_array, s); } if (json_object_array_length(subsys_array)) json_object_object_add(host_obj, "subsystems", subsys_array); else json_object_put(subsys_array); json_object_array_add(host_array, host_obj); } json_object_object_add(json_root, "hosts", host_array); ret = json_object_to_fd(r->log.fd, json_root, JSON_C_TO_STRING_PRETTY | JSON_C_TO_STRING_NOSLASHESCAPE); if (ret < 0) { nvme_msg(r, LOG_ERR, "Failed to write, %s\n", json_util_get_last_err()); ret = -1; errno = EIO; } json_object_put(json_root); return ret; }