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3182 lines (2716 loc) · 80.4 KB
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// SPDX-License-Identifier: LGPL-2.1-or-later
/*
* This file is part of libnvme.
* Copyright (c) 2020 Western Digital Corporation or its affiliates.
*
* Authors: Keith Busch <[email protected]>
* Chaitanya Kulkarni <[email protected]>
*/
#include <dirent.h>
#include <errno.h>
#include <fcntl.h>
#include <fnmatch.h>
#include <inttypes.h>
#include <limits.h>
#include <stdbool.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <unistd.h>
#include <arpa/inet.h>
#include <net/if.h>
#include <netdb.h>
#include <sys/param.h>
#include <sys/stat.h>
#include <sys/types.h>
#include <ccan/array_size/array_size.h>
#include <ccan/endian/endian.h>
#include <ccan/list/list.h>
#include <ccan/str/str.h>
#include <libnvme.h>
#include "cleanup.h"
#include "cleanup-linux.h"
#include "private.h"
#include "private-fabrics.h"
#include "compiler-attributes.h"
const char *nvmf_dev = "/dev/nvme-fabrics";
static inline void free_uri(struct libnvmf_uri **uri)
{
libnvmf_uri_free(*uri);
}
#define __cleanup_uri __cleanup(free_uri)
/**
* strchomp() - Strip trailing spaces
* @str: String to strip
* @max: Maximum length of string
*/
static void strchomp(char *str, int max)
{
int i;
for (i = max - 1; i >= 0 && str[i] == ' '; i--) {
str[i] = '\0';
}
}
const char *arg_str(const char * const *strings,
size_t array_size, size_t idx)
{
if (idx < array_size && strings[idx])
return strings[idx];
return "unrecognized";
}
const char * const trtypes[] = {
[NVMF_TRTYPE_RDMA] = "rdma",
[NVMF_TRTYPE_FC] = "fc",
[NVMF_TRTYPE_TCP] = "tcp",
[NVMF_TRTYPE_LOOP] = "loop",
};
__public const char *libnvmf_trtype_str(__u8 trtype)
{
return arg_str(trtypes, ARRAY_SIZE(trtypes), trtype);
}
static const char * const adrfams[] = {
[NVMF_ADDR_FAMILY_PCI] = "pci",
[NVMF_ADDR_FAMILY_IP4] = "ipv4",
[NVMF_ADDR_FAMILY_IP6] = "ipv6",
[NVMF_ADDR_FAMILY_IB] = "infiniband",
[NVMF_ADDR_FAMILY_FC] = "fibre-channel",
};
__public const char *libnvmf_adrfam_str(__u8 adrfam)
{
return arg_str(adrfams, ARRAY_SIZE(adrfams), adrfam);
}
static const char * const subtypes[] = {
[NVME_NQN_DISC] = "discovery subsystem referral",
[NVME_NQN_NVME] = "nvme subsystem",
[NVME_NQN_CURR] = "current discovery subsystem",
};
__public const char *libnvmf_subtype_str(__u8 subtype)
{
return arg_str(subtypes, ARRAY_SIZE(subtypes), subtype);
}
static const char * const treqs[] = {
[NVMF_TREQ_NOT_SPECIFIED] = "not specified",
[NVMF_TREQ_REQUIRED] = "required",
[NVMF_TREQ_NOT_REQUIRED] = "not required",
[NVMF_TREQ_NOT_SPECIFIED |
NVMF_TREQ_DISABLE_SQFLOW] = "not specified, "
"sq flow control disable supported",
[NVMF_TREQ_REQUIRED |
NVMF_TREQ_DISABLE_SQFLOW] = "required, "
"sq flow control disable supported",
[NVMF_TREQ_NOT_REQUIRED |
NVMF_TREQ_DISABLE_SQFLOW] = "not required, "
"sq flow control disable supported",
};
__public const char *libnvmf_treq_str(__u8 treq)
{
return arg_str(treqs, ARRAY_SIZE(treqs), treq);
}
static const char * const eflags_strings[] = {
[NVMF_DISC_EFLAGS_NONE] = "none",
[NVMF_DISC_EFLAGS_EPCSD] = "explicit discovery connections",
[NVMF_DISC_EFLAGS_DUPRETINFO] = "duplicate discovery information",
[NVMF_DISC_EFLAGS_EPCSD |
NVMF_DISC_EFLAGS_DUPRETINFO] = "explicit discovery connections, "
"duplicate discovery information",
[NVMF_DISC_EFLAGS_NCC] = "no cdc connectivity",
[NVMF_DISC_EFLAGS_EPCSD |
NVMF_DISC_EFLAGS_NCC] = "explicit discovery connections, "
"no cdc connectivity",
[NVMF_DISC_EFLAGS_DUPRETINFO |
NVMF_DISC_EFLAGS_NCC] = "duplicate discovery information, "
"no cdc connectivity",
[NVMF_DISC_EFLAGS_EPCSD |
NVMF_DISC_EFLAGS_DUPRETINFO |
NVMF_DISC_EFLAGS_NCC] = "explicit discovery connections, "
"duplicate discovery information, "
"no cdc connectivity",
};
__public const char *libnvmf_eflags_str(__u16 eflags)
{
return arg_str(eflags_strings, ARRAY_SIZE(eflags_strings), eflags);
}
static const char * const sectypes[] = {
[NVMF_TCP_SECTYPE_NONE] = "none",
[NVMF_TCP_SECTYPE_TLS] = "tls",
[NVMF_TCP_SECTYPE_TLS13] = "tls13",
};
__public const char *libnvmf_sectype_str(__u8 sectype)
{
return arg_str(sectypes, ARRAY_SIZE(sectypes), sectype);
}
static const char * const prtypes[] = {
[NVMF_RDMA_PRTYPE_NOT_SPECIFIED] = "not specified",
[NVMF_RDMA_PRTYPE_IB] = "infiniband",
[NVMF_RDMA_PRTYPE_ROCE] = "roce",
[NVMF_RDMA_PRTYPE_ROCEV2] = "roce-v2",
[NVMF_RDMA_PRTYPE_IWARP] = "iwarp",
};
__public const char *libnvmf_prtype_str(__u8 prtype)
{
return arg_str(prtypes, ARRAY_SIZE(prtypes), prtype);
}
static const char * const qptypes[] = {
[NVMF_RDMA_QPTYPE_CONNECTED] = "connected",
[NVMF_RDMA_QPTYPE_DATAGRAM] = "datagram",
};
__public const char *libnvmf_qptype_str(__u8 qptype)
{
return arg_str(qptypes, ARRAY_SIZE(qptypes), qptype);
}
static const char * const cms[] = {
[NVMF_RDMA_CMS_RDMA_CM] = "rdma-cm",
};
__public const char *libnvmf_cms_str(__u8 cm)
{
return arg_str(cms, ARRAY_SIZE(cms), cm);
}
void libnvmf_default_config(struct libnvme_fabrics_config *cfg)
{
cfg->tos = -1;
cfg->ctrl_loss_tmo = NVMF_DEF_CTRL_LOSS_TMO;
}
__public int libnvmf_context_create(struct libnvme_global_ctx *ctx,
bool (*decide_retry)(struct libnvmf_context *fctx, int err,
void *user_data),
void (*connected)(struct libnvmf_context *fctx,
struct libnvme_ctrl *c, void *user_data),
void (*already_connected)(struct libnvmf_context *fctx,
struct libnvme_host *host, const char *subsysnqn,
const char *transport, const char *traddr,
const char *trsvcid, void *user_data),
void *user_data, struct libnvmf_context **fctxp)
{
struct libnvmf_context *fctx;
fctx = calloc(1, sizeof(*fctx));
if (!fctx)
return -ENOMEM;
fctx->ctx = ctx;
libnvmf_default_config(&fctx->cfg);
fctx->decide_retry = decide_retry;
fctx->connected = connected;
fctx->already_connected = already_connected;
fctx->user_data = user_data;
*fctxp = fctx;
return 0;
}
__public void libnvmf_context_free(struct libnvmf_context *fctx)
{
if (!fctx)
return;
free(fctx->tls_key);
free(fctx);
}
__public int libnvmf_context_set_discovery_cbs(struct libnvmf_context *fctx,
void (*discovery_log)(struct libnvmf_context *fctx,
bool connect,
struct nvmf_discovery_log *log,
uint64_t numrec, void *user_data),
int (*parser_init)(struct libnvmf_context *fctx,
void *user_data),
void (*parser_cleanup)(struct libnvmf_context *fctx,
void *user_data),
int (*parser_next_line)(struct libnvmf_context *fctx,
void *user_data))
{
fctx->discovery_log = discovery_log;
fctx->parser_init = parser_init;
fctx->parser_cleanup = parser_cleanup;
fctx->parser_next_line = parser_next_line;
return 0;
}
__public int libnvmf_context_set_discovery_defaults(struct libnvmf_context *fctx,
int max_discovery_retries, int keep_alive_timeout)
{
fctx->default_max_discovery_retries = max_discovery_retries;
fctx->default_keep_alive_timeout = keep_alive_timeout;
return 0;
}
__public int libnvmf_context_set_fabrics_config(struct libnvmf_context *fctx,
struct libnvme_fabrics_config *cfg)
{
fctx->cfg.queue_size = cfg->queue_size;
fctx->cfg.nr_io_queues = cfg->nr_io_queues;
fctx->cfg.reconnect_delay = cfg->reconnect_delay;
fctx->cfg.ctrl_loss_tmo = cfg->ctrl_loss_tmo;
fctx->cfg.fast_io_fail_tmo = cfg->fast_io_fail_tmo;
fctx->cfg.keep_alive_tmo = cfg->keep_alive_tmo;
fctx->cfg.nr_write_queues = cfg->nr_write_queues;
fctx->cfg.nr_poll_queues = cfg->nr_poll_queues;
fctx->cfg.tos = cfg->tos;
fctx->cfg.keyring_id = cfg->keyring_id;
fctx->cfg.tls_key_id = cfg->tls_key_id;
fctx->cfg.tls_configured_key_id = cfg->tls_configured_key_id;
fctx->cfg.duplicate_connect = cfg->duplicate_connect;
fctx->cfg.disable_sqflow = cfg->disable_sqflow;
fctx->cfg.hdr_digest = cfg->hdr_digest;
fctx->cfg.data_digest = cfg->data_digest;
fctx->cfg.tls = cfg->tls;
fctx->cfg.concat = cfg->concat;
return 0;
}
__public int libnvmf_context_set_connection(struct libnvmf_context *fctx,
const char *subsysnqn, const char *transport,
const char *traddr, const char *trsvcid,
const char *host_traddr, const char *host_iface)
{
fctx->subsysnqn = subsysnqn;
fctx->transport = transport;
fctx->traddr = traddr;
fctx->trsvcid = trsvcid;
fctx->host_traddr = host_traddr;
fctx->host_iface = host_iface;
return 0;
}
static const char *hostid_from_hostnqn(const char *hostnqn)
{
const char *match;
if (!hostnqn)
return NULL;
match = strstr(hostnqn, "uuid:");
if (!match)
return NULL;
return match + strlen("uuid:");
}
__public int libnvmf_context_set_hostnqn(struct libnvmf_context *fctx,
const char *hostnqn, const char *hostid)
{
fctx->hostnqn = hostnqn;
if (!hostid)
hostid = hostid_from_hostnqn(hostnqn);
fctx->hostid = hostid;
return 0;
}
__public int libnvmf_context_set_crypto(struct libnvmf_context *fctx,
const char *hostkey, const char *ctrlkey,
const char *keyring, const char *tls_key,
const char *tls_key_identity)
{
int err;
fctx->hostkey = hostkey;
fctx->ctrlkey = ctrlkey;
fctx->keyring = keyring;
fctx->tls_key_identity = tls_key_identity;
if (!tls_key)
return 0;
if (!strncmp(tls_key, "pin:", 4)) {
__cleanup_free unsigned char *raw_secret = NULL;
__cleanup_free char *encoded_key = NULL;
int key_len = 32;
err = libnvme_create_raw_secret(fctx->ctx, tls_key,
key_len, &raw_secret);
if (err)
return err;
err = libnvme_export_tls_key(fctx->ctx, raw_secret,
key_len, &encoded_key);
if (err)
return err;
fctx->tls_key = encoded_key;
encoded_key = NULL;
return 0;
}
fctx->tls_key = strdup(tls_key);
return 0;
}
__public int libnvmf_context_set_persistent(struct libnvmf_context *fctx, bool persistent)
{
fctx->persistent = persistent;
return 0;
}
__public int libnvmf_context_set_device(struct libnvmf_context *fctx, const char *device)
{
fctx->device = device;
return 0;
}
__public struct libnvme_fabrics_config *libnvmf_context_get_fabrics_config(
struct libnvmf_context *fctx)
{
return &fctx->cfg;
}
__public struct libnvme_fabrics_config *libnvmf_ctrl_get_fabrics_config(
libnvme_ctrl_t c)
{
return &c->cfg;
}
/*
* Derived from Linux's supported options (the opt_tokens table)
* when the mechanism to report supported options was added (f18ee3d988157).
* Not all of these options may actually be supported,
* but we retain the old behavior of passing all that might be.
*/
static const struct libnvme_fabric_options default_supported_options = {
.ctrl_loss_tmo = true,
.data_digest = true,
.disable_sqflow = true,
.discovery = true,
.duplicate_connect = true,
.fast_io_fail_tmo = true,
.hdr_digest = true,
.host_iface = true,
.host_traddr = true,
.hostid = true,
.hostnqn = true,
.keep_alive_tmo = true,
.nqn = true,
.nr_io_queues = true,
.nr_poll_queues = true,
.nr_write_queues = true,
.queue_size = true,
.reconnect_delay = true,
.tos = true,
.traddr = true,
.transport = true,
.trsvcid = true,
};
#define MERGE_CFG_OPTION(c, n, o, d) \
if ((c)->o == d) (c)->o = (n)->o
static void merge_config(libnvme_ctrl_t c,
const struct libnvme_fabrics_config *cfg)
{
struct libnvme_fabrics_config *ctrl_cfg =
libnvmf_ctrl_get_fabrics_config(c);
MERGE_CFG_OPTION(ctrl_cfg, cfg, nr_io_queues, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, nr_write_queues, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, nr_poll_queues, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, queue_size, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, keep_alive_tmo, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, reconnect_delay, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, ctrl_loss_tmo,
NVMF_DEF_CTRL_LOSS_TMO);
MERGE_CFG_OPTION(ctrl_cfg, cfg, fast_io_fail_tmo, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, tos, -1);
MERGE_CFG_OPTION(ctrl_cfg, cfg, keyring_id, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, tls_key_id, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, tls_configured_key_id, 0);
MERGE_CFG_OPTION(ctrl_cfg, cfg, duplicate_connect, false);
MERGE_CFG_OPTION(ctrl_cfg, cfg, disable_sqflow, false);
MERGE_CFG_OPTION(ctrl_cfg, cfg, hdr_digest, false);
MERGE_CFG_OPTION(ctrl_cfg, cfg, data_digest, false);
MERGE_CFG_OPTION(ctrl_cfg, cfg, tls, false);
MERGE_CFG_OPTION(ctrl_cfg, cfg, concat, false);
}
#define UPDATE_CFG_OPTION(c, n, o, d) \
if ((n)->o != d) (c)->o = (n)->o
static void update_config(libnvme_ctrl_t c,
const struct libnvme_fabrics_config *cfg)
{
struct libnvme_fabrics_config *ctrl_cfg =
libnvmf_ctrl_get_fabrics_config(c);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, nr_io_queues, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, nr_write_queues, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, nr_poll_queues, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, queue_size, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, keep_alive_tmo, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, reconnect_delay, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, ctrl_loss_tmo,
NVMF_DEF_CTRL_LOSS_TMO);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, fast_io_fail_tmo, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, tos, -1);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, keyring_id , 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, tls_key_id, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, tls_configured_key_id, 0);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, duplicate_connect, false);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, disable_sqflow, false);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, hdr_digest, false);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, data_digest, false);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, tls, false);
UPDATE_CFG_OPTION(ctrl_cfg, cfg, concat, false);
}
static int __add_bool_argument(char **argstr, char *tok, bool arg)
{
char *nstr;
if (!arg)
return 0;
if (asprintf(&nstr, "%s,%s", *argstr, tok) < 0) {
return -ENOMEM;
}
free(*argstr);
*argstr = nstr;
return 0;
}
static int __add_hex_argument(char **argstr, char *tok, int arg, bool allow_zero)
{
char *nstr;
if (arg < 0 || (!arg && !allow_zero))
return 0;
if (asprintf(&nstr, "%s,%s=0x%08x", *argstr, tok, arg) < 0) {
return -ENOMEM;
}
free(*argstr);
*argstr = nstr;
return 0;
}
static int __add_int_argument(char **argstr, char *tok, int arg, bool allow_zero)
{
char *nstr;
if (arg < 0 || (!arg && !allow_zero))
return 0;
if (asprintf(&nstr, "%s,%s=%d", *argstr, tok, arg) < 0) {
return -ENOMEM;
}
free(*argstr);
*argstr = nstr;
return 0;
}
static int __add_int_or_minus_one_argument(char **argstr, char *tok, int arg)
{
char *nstr;
if (arg < -1)
return 0;
if (asprintf(&nstr, "%s,%s=%d", *argstr, tok, arg) < 0) {
return -ENOMEM;
}
free(*argstr);
*argstr = nstr;
return 0;
}
static int __add_argument(char **argstr, const char *tok, const char *arg)
{
char *nstr;
if (!arg || arg[0] == '\0' || !strcmp(arg, "none"))
return 0;
if (asprintf(&nstr, "%s,%s=%s", *argstr, tok, arg) < 0) {
return -ENOMEM;
}
free(*argstr);
*argstr = nstr;
return 0;
}
static int __nvmf_supported_options(struct libnvme_global_ctx *ctx);
#define nvmf_check_option(ctx, tok) \
({ \
!__nvmf_supported_options(ctx) && ctx->options->tok; \
})
#define add_bool_argument(ctx, argstr, tok, arg) \
({ \
int ret; \
if (nvmf_check_option(ctx, tok)) { \
ret = __add_bool_argument(argstr, \
stringify(tok), \
arg); \
} else { \
libnvme_msg(ctx, LIBNVME_LOG_DEBUG, \
"option \"%s\" ignored\n", \
stringify(tok)); \
ret = 0; \
} \
ret; \
})
#define add_hex_argument(ctx, argstr, tok, arg, allow_zero) \
({ \
int ret; \
if (nvmf_check_option(ctx, tok)) { \
ret = __add_hex_argument(argstr, \
stringify(tok), \
arg, \
allow_zero); \
} else { \
libnvme_msg(ctx, LIBNVME_LOG_DEBUG, \
"option \"%s\" ignored\n", \
stringify(tok)); \
ret = 0; \
} \
ret; \
})
#define add_int_argument(ctx, argstr, tok, arg, allow_zero) \
({ \
int ret; \
if (nvmf_check_option(ctx, tok)) { \
ret = __add_int_argument(argstr, \
stringify(tok), \
arg, \
allow_zero); \
} else { \
libnvme_msg(ctx, LIBNVME_LOG_DEBUG, \
"option \"%s\" ignored\n", \
stringify(tok)); \
ret = 0; \
} \
ret; \
})
#define add_int_or_minus_one_argument(ctx, argstr, tok, arg) \
({ \
int ret; \
if (nvmf_check_option(ctx, tok)) { \
ret = __add_int_or_minus_one_argument(argstr, \
stringify(tok), \
arg); \
} else { \
libnvme_msg(ctx, LIBNVME_LOG_DEBUG, \
"option \"%s\" ignored\n", \
stringify(tok)); \
ret = 0; \
} \
ret; \
})
#define add_argument(ctx, argstr, tok, arg) \
({ \
int ret; \
if (nvmf_check_option(ctx, tok)) { \
ret = __add_argument(argstr, \
stringify(tok), \
arg); \
} else { \
libnvme_msg(ctx, LIBNVME_LOG_WARN, \
"option \"%s\" ignored\n", \
stringify(tok)); \
ret = 0; \
} \
ret; \
})
static int inet4_pton(const char *src, uint16_t port,
struct sockaddr_storage *addr)
{
struct sockaddr_in *addr4 = (struct sockaddr_in *)addr;
if (strlen(src) > INET_ADDRSTRLEN)
return -EINVAL;
if (inet_pton(AF_INET, src, &addr4->sin_addr.s_addr) <= 0)
return -EINVAL;
addr4->sin_family = AF_INET;
addr4->sin_port = htons(port);
return 0;
}
static int inet6_pton(struct libnvme_global_ctx *ctx, const char *src, uint16_t port,
struct sockaddr_storage *addr)
{
struct sockaddr_in6 *addr6 = (struct sockaddr_in6 *)addr;
const char *scope = NULL;
char *p;
if (strlen(src) > INET6_ADDRSTRLEN)
return -EINVAL;
__cleanup_free char *tmp = strdup(src);
if (!tmp) {
libnvme_msg(ctx, LIBNVME_LOG_ERR, "cannot copy: %s\n", src);
return -ENOMEM;
}
p = strchr(tmp, '%');
if (p) {
*p = '\0';
scope = src + (p - tmp) + 1;
}
if (inet_pton(AF_INET6, tmp, &addr6->sin6_addr) != 1)
return -EINVAL;
if (IN6_IS_ADDR_LINKLOCAL(&addr6->sin6_addr) && scope) {
addr6->sin6_scope_id = if_nametoindex(scope);
if (addr6->sin6_scope_id == 0) {
libnvme_msg(ctx, LIBNVME_LOG_ERR,
"can't find iface index for: %s (%m)\n", scope);
return -EINVAL;
}
}
addr6->sin6_family = AF_INET6;
addr6->sin6_port = htons(port);
return 0;
}
/**
* inet_pton_with_scope - convert an IPv4/IPv6 to socket address
* @ctx: Global context
* @af: address family, AF_INET, AF_INET6 or AF_UNSPEC for either
* @src: the start of the address string
* @trsvcid: transport service identifier
* @addr: output socket address
*
* Return 0 on success, errno otherwise.
*/
static int inet_pton_with_scope(struct libnvme_global_ctx *ctx, int af,
const char *src, const char * trsvcid,
struct sockaddr_storage *addr)
{
int ret = -EINVAL;
uint16_t port = 0;
if (trsvcid) {
unsigned long long tmp = strtoull(trsvcid, NULL, 0);
port = (uint16_t)tmp;
if (tmp != port) {
libnvme_msg(ctx, LIBNVME_LOG_ERR, "trsvcid out of range: %s\n",
trsvcid);
return -ERANGE;
}
} else {
port = 0;
}
switch (af) {
case AF_INET:
ret = inet4_pton(src, port, addr);
break;
case AF_INET6:
ret = inet6_pton(ctx, src, port, addr);
break;
case AF_UNSPEC:
ret = inet4_pton(src, port, addr);
if (ret)
ret = inet6_pton(ctx, src, port, addr);
break;
default:
libnvme_msg(ctx, LIBNVME_LOG_ERR, "unexpected address family %d\n", af);
}
return ret;
}
bool traddr_is_hostname(struct libnvme_global_ctx *ctx,
const char *transport, const char *traddr)
{
struct sockaddr_storage addr;
if (!traddr || !transport)
return false;
if (!strcmp(traddr, "none"))
return false;
if (strcmp(transport, "tcp") && strcmp(transport, "rdma"))
return false;
if (inet_pton_with_scope(ctx, AF_UNSPEC,
traddr, NULL, &addr) == 0) /* scope-aware */
return false;
return true;
}
static int build_options(libnvme_host_t h, libnvme_ctrl_t c, char **argstr)
{
struct libnvme_fabrics_config *cfg = libnvmf_ctrl_get_fabrics_config(c);
const char *transport = libnvme_ctrl_get_transport(c);
const char *hostnqn, *hostid, *hostkey, *ctrlkey = NULL;
bool discover = false, discovery_nqn = false;
struct libnvme_global_ctx *ctx = h->ctx;
long keyring_id = 0;
long key_id = 0;
int ret;
if (!transport) {
libnvme_msg(ctx, LIBNVME_LOG_ERR, "need a transport (-t) argument\n");
return -ENVME_CONNECT_TARG;
}
if (strncmp(transport, "loop", 4)) {
if (!libnvme_ctrl_get_traddr(c)) {
libnvme_msg(h->ctx, LIBNVME_LOG_ERR, "need a address (-a) argument\n");
return -ENVME_CONNECT_AARG;
}
}
/* always specify nqn as first arg - this will init the string */
if (asprintf(argstr, "nqn=%s",
libnvme_ctrl_get_subsysnqn(c)) < 0) {
return -ENOMEM;
}
if (!strcmp(libnvme_ctrl_get_subsysnqn(c), NVME_DISC_SUBSYS_NAME)) {
libnvme_ctrl_set_discovery_ctrl(c, true);
libnvme_ctrl_set_unique_discovery_ctrl(c, false);
discovery_nqn = true;
}
if (libnvme_ctrl_get_discovery_ctrl(c))
discover = true;
hostnqn = libnvme_host_get_hostnqn(h);
hostid = libnvme_host_get_hostid(h);
hostkey = libnvme_host_get_dhchap_host_key(h);
if (!hostkey)
hostkey = libnvme_ctrl_get_dhchap_host_key(c);
if (hostkey)
ctrlkey = libnvme_ctrl_get_dhchap_ctrl_key(c);
if (cfg->tls && cfg->concat) {
libnvme_msg(h->ctx, LIBNVME_LOG_ERR, "cannot specify --tls and --concat together\n");
return -ENVME_CONNECT_INVAL;
}
if (cfg->concat && !hostkey) {
libnvme_msg(h->ctx, LIBNVME_LOG_ERR, "required argument [--dhchap-secret | -S] not specified with --concat\n");
return -ENVME_CONNECT_INVAL;
}
if (cfg->tls) {
ret = __libnvme_import_keys_from_config(h, c,
&keyring_id, &key_id);
if (ret)
return ret;
if (key_id == 0) {
if (cfg->tls_configured_key_id)
key_id = cfg->tls_configured_key_id;
else
key_id = cfg->tls_key_id;
}
}
if (add_argument(ctx, argstr, transport, transport) ||
add_argument(ctx, argstr, traddr,
libnvme_ctrl_get_traddr(c)) ||
add_argument(ctx, argstr, host_traddr,
libnvme_ctrl_get_host_traddr(c)) ||
add_argument(ctx, argstr, host_iface,
libnvme_ctrl_get_host_iface(c)) ||
add_argument(ctx, argstr, trsvcid,
libnvme_ctrl_get_trsvcid(c)) ||
(hostnqn && add_argument(ctx, argstr, hostnqn, hostnqn)) ||
(hostid && add_argument(ctx, argstr, hostid, hostid)) ||
(discover && !discovery_nqn &&
add_bool_argument(ctx, argstr, discovery, true)) ||
(hostkey &&
add_argument(ctx, argstr, dhchap_secret, hostkey)) ||
(ctrlkey &&
add_argument(ctx, argstr, dhchap_ctrl_secret, ctrlkey)) ||
(!discover &&
add_int_argument(ctx, argstr, nr_io_queues,
cfg->nr_io_queues, false)) ||
(!discover &&
add_int_argument(ctx, argstr, nr_write_queues,
cfg->nr_write_queues, false)) ||
(!discover &&
add_int_argument(ctx, argstr, nr_poll_queues,
cfg->nr_poll_queues, false)) ||
(!discover &&
add_int_argument(ctx, argstr, queue_size,
cfg->queue_size, false)) ||
add_int_argument(ctx, argstr, keep_alive_tmo,
cfg->keep_alive_tmo, false) ||
add_int_argument(ctx, argstr, reconnect_delay,
cfg->reconnect_delay, false) ||
(strcmp(transport, "loop") &&
add_int_or_minus_one_argument(ctx, argstr, ctrl_loss_tmo,
cfg->ctrl_loss_tmo)) ||
(strcmp(transport, "loop") &&
add_int_argument(ctx, argstr, fast_io_fail_tmo,
cfg->fast_io_fail_tmo, false)) ||
(strcmp(transport, "loop") &&
add_int_argument(ctx, argstr, tos, cfg->tos, true)) ||
add_hex_argument(ctx, argstr, keyring, keyring_id, false) ||
(!strcmp(transport, "tcp") &&
add_hex_argument(ctx, argstr, tls_key, key_id, false)) ||
add_bool_argument(ctx, argstr, duplicate_connect,
cfg->duplicate_connect) ||
add_bool_argument(ctx, argstr, disable_sqflow,
cfg->disable_sqflow) ||
(!strcmp(transport, "tcp") &&
add_bool_argument(ctx, argstr, hdr_digest, cfg->hdr_digest)) ||
(!strcmp(transport, "tcp") &&
add_bool_argument(ctx, argstr, data_digest, cfg->data_digest)) ||
(!strcmp(transport, "tcp") &&
add_bool_argument(ctx, argstr, tls, cfg->tls)) ||
(!strcmp(transport, "tcp") &&
add_bool_argument(ctx, argstr, concat, cfg->concat))) {
free(*argstr);
return -1;
}
return 0;
}
#define parse_option(ctx, v, name) \
if (!strcmp(v, stringify(name))) { \
ctx->options->name = true; \
continue; \
}
static int __nvmf_supported_options(struct libnvme_global_ctx *ctx)
{
char buf[0x1000], *options, *p, *v;
__cleanup_fd int fd = -1;
ssize_t len;
if (ctx->options)
return 0;
ctx->options = calloc(1, sizeof(*ctx->options));
if (!ctx->options)
return -ENOMEM;
fd = open(nvmf_dev, O_RDONLY);
if (fd < 0) {
libnvme_msg(ctx, LIBNVME_LOG_ERR, "Failed to open %s: %s\n",
nvmf_dev, libnvme_strerror(errno));
return -ENVME_CONNECT_OPEN;
}
memset(buf, 0x0, sizeof(buf));
len = read(fd, buf, sizeof(buf) - 1);
if (len < 0) {
if (errno == EINVAL) {
/*
* Older Linux kernels don't allow reading from nvmf_dev
* to get supported options, so use a default set
*/
libnvme_msg(ctx, LIBNVME_LOG_DEBUG,
"Cannot read %s, using default options\n",
nvmf_dev);
*ctx->options = default_supported_options;
return 0;
}
libnvme_msg(ctx, LIBNVME_LOG_ERR, "Failed to read from %s: %s\n",
nvmf_dev, libnvme_strerror(errno));
return -ENVME_CONNECT_READ;
}
buf[len] = '\0';
options = buf;
libnvme_msg(ctx, LIBNVME_LOG_DEBUG, "kernel supports: ");
while ((p = strsep(&options, ",\n")) != NULL) {
if (!*p)
continue;
v = strsep(&p, "= ");
if (!v)
continue;
libnvme_msg(ctx, LIBNVME_LOG_DEBUG, "%s ", v);
parse_option(ctx, v, cntlid);
parse_option(ctx, v, concat);
parse_option(ctx, v, ctrl_loss_tmo);
parse_option(ctx, v, data_digest);
parse_option(ctx, v, dhchap_ctrl_secret);
parse_option(ctx, v, dhchap_secret);
parse_option(ctx, v, disable_sqflow);
parse_option(ctx, v, discovery);
parse_option(ctx, v, duplicate_connect);
parse_option(ctx, v, fast_io_fail_tmo);
parse_option(ctx, v, hdr_digest);
parse_option(ctx, v, host_iface);
parse_option(ctx, v, host_traddr);
parse_option(ctx, v, hostid);
parse_option(ctx, v, hostnqn);
parse_option(ctx, v, instance);
parse_option(ctx, v, keep_alive_tmo);
parse_option(ctx, v, keyring);
parse_option(ctx, v, nqn);
parse_option(ctx, v, nr_io_queues);
parse_option(ctx, v, nr_poll_queues);
parse_option(ctx, v, nr_write_queues);
parse_option(ctx, v, queue_size);
parse_option(ctx, v, reconnect_delay);
parse_option(ctx, v, tls);
parse_option(ctx, v, tls_key);
parse_option(ctx, v, tos);
parse_option(ctx, v, traddr);
parse_option(ctx, v, transport);
parse_option(ctx, v, trsvcid);
}