* Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved.
* Use is subject to license terms.
*
- * Copyright (c) 2011, 2012, Intel Corporation.
+ * Copyright (c) 2011, 2014, Intel Corporation.
*/
/*
* This file is part of Lustre, http://www.lustre.org/
#define DEBUG_SUBSYSTEM S_LNET
#include <libcfs/libcfs.h>
-#include <lnet/lnet.h>
+#include <lnet/nidstr.h>
#ifndef __KERNEL__
#ifdef HAVE_GETHOSTBYNAME
# include <netdb.h>
#endif
#endif
+/* max value for numeric network address */
+#define MAX_NUMERIC_VALUE 0xffffffff
+
+#define IPSTRING_LENGTH 16
+
/* CAVEAT VENDITOR! Keep the canonical string representation of nets/nids
* consistent in all conversion functions. Some code fragments are copied
* around for the sake of clarity...
}
static int libcfs_lo_str2addr(const char *str, int nob, __u32 *addr);
-static void libcfs_ip_addr2str(__u32 addr, char *str);
+static void libcfs_ip_addr2str(__u32 addr, char *str, size_t size);
static int libcfs_ip_str2addr(const char *str, int nob, __u32 *addr);
-static void libcfs_decnum_addr2str(__u32 addr, char *str);
-static void libcfs_hexnum_addr2str(__u32 addr, char *str);
+static bool cfs_ip_is_contiguous(struct list_head *nidlist);
+static void cfs_ip_min_max(struct list_head *nidlist, __u32 *min, __u32 *max);
+static void libcfs_decnum_addr2str(__u32 addr, char *str, size_t size);
+static void libcfs_hexnum_addr2str(__u32 addr, char *str, size_t size);
static int libcfs_num_str2addr(const char *str, int nob, __u32 *addr);
static int libcfs_num_parse(char *str, int len, struct list_head *list);
static int libcfs_num_match(__u32 addr, struct list_head *list);
+static int libcfs_num_addr_range_print(char *buffer, int count,
+ struct list_head *list);
+static int libcfs_ip_addr_range_print(char *buffer, int count,
+ struct list_head *list);
+static bool cfs_num_is_contiguous(struct list_head *nidlist);
+static void cfs_num_min_max(struct list_head *nidlist, __u32 *min, __u32 *max);
struct netstrfns {
- int nf_type;
+ __u32 nf_type;
char *nf_name;
char *nf_modname;
- void (*nf_addr2str)(__u32 addr, char *str);
+ void (*nf_addr2str)(__u32 addr, char *str, size_t size);
int (*nf_str2addr)(const char *str, int nob, __u32 *addr);
int (*nf_parse_addrlist)(char *str, int len,
struct list_head *list);
+ int (*nf_print_addrlist)(char *buffer, int count,
+ struct list_head *list);
int (*nf_match_addr)(__u32 addr, struct list_head *list);
+ bool (*nf_is_contiguous)(struct list_head *nidlist);
+ void (*nf_min_max)(struct list_head *nidlist, __u32 *min_nid,
+ __u32 *max_nid);
};
static struct netstrfns libcfs_netstrfns[] = {
/* .nf_addr2str */ libcfs_decnum_addr2str,
/* .nf_str2addr */ libcfs_lo_str2addr,
/* .nf_parse_addr*/ libcfs_num_parse,
- /* .nf_match_addr*/ libcfs_num_match},
+ /* .nf_print_addrlist*/ libcfs_num_addr_range_print,
+ /* .nf_match_addr*/ libcfs_num_match,
+ /* .nf_is_contiguous */ cfs_num_is_contiguous,
+ /* .nf_min_max */ cfs_num_min_max},
{/* .nf_type */ SOCKLND,
/* .nf_name */ "tcp",
/* .nf_modname */ "ksocklnd",
/* .nf_addr2str */ libcfs_ip_addr2str,
/* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
{/* .nf_type */ O2IBLND,
/* .nf_name */ "o2ib",
/* .nf_modname */ "ko2iblnd",
/* .nf_addr2str */ libcfs_ip_addr2str,
/* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
{/* .nf_type */ CIBLND,
/* .nf_name */ "cib",
/* .nf_modname */ "kciblnd",
/* .nf_addr2str */ libcfs_ip_addr2str,
/* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
{/* .nf_type */ OPENIBLND,
/* .nf_name */ "openib",
/* .nf_modname */ "kopeniblnd",
/* .nf_addr2str */ libcfs_ip_addr2str,
/* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
{/* .nf_type */ IIBLND,
/* .nf_name */ "iib",
/* .nf_modname */ "kiiblnd",
/* .nf_addr2str */ libcfs_ip_addr2str,
/* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
{/* .nf_type */ VIBLND,
/* .nf_name */ "vib",
/* .nf_modname */ "kviblnd",
/* .nf_addr2str */ libcfs_ip_addr2str,
/* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
{/* .nf_type */ RALND,
/* .nf_name */ "ra",
/* .nf_modname */ "kralnd",
/* .nf_addr2str */ libcfs_ip_addr2str,
/* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
- {/* .nf_type */ QSWLND,
- /* .nf_name */ "elan",
- /* .nf_modname */ "kqswlnd",
- /* .nf_addr2str */ libcfs_decnum_addr2str,
- /* .nf_str2addr */ libcfs_num_str2addr,
- /* .nf_parse_addrlist*/ libcfs_num_parse,
- /* .nf_match_addr*/ libcfs_num_match},
- {/* .nf_type */ GMLND,
- /* .nf_name */ "gm",
- /* .nf_modname */ "kgmlnd",
- /* .nf_addr2str */ libcfs_hexnum_addr2str,
- /* .nf_str2addr */ libcfs_num_str2addr,
- /* .nf_parse_addrlist*/ libcfs_num_parse,
- /* .nf_match_addr*/ libcfs_num_match},
- {/* .nf_type */ MXLND,
- /* .nf_name */ "mx",
- /* .nf_modname */ "kmxlnd",
- /* .nf_addr2str */ libcfs_ip_addr2str,
- /* .nf_str2addr */ libcfs_ip_str2addr,
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
+ {/* .nf_type */ QSWLND,
+ /* .nf_name */ "elan",
+ /* .nf_modname */ "kqswlnd",
+ /* .nf_addr2str */ libcfs_decnum_addr2str,
+ /* .nf_str2addr */ libcfs_num_str2addr,
+ /* .nf_parse_addrlist*/ libcfs_num_parse,
+ /* .nf_print_addrlist*/ libcfs_num_addr_range_print,
+ /* .nf_match_addr*/ libcfs_num_match,
+ /* .nf_is_contiguous */ cfs_num_is_contiguous,
+ /* .nf_min_max */ cfs_num_min_max},
+ {/* .nf_type */ GMLND,
+ /* .nf_name */ "gm",
+ /* .nf_modname */ "kgmlnd",
+ /* .nf_addr2str */ libcfs_hexnum_addr2str,
+ /* .nf_str2addr */ libcfs_num_str2addr,
+ /* .nf_parse_addrlist*/ libcfs_num_parse,
+ /* .nf_print_addrlist*/ libcfs_num_addr_range_print,
+ /* .nf_match_addr*/ libcfs_num_match,
+ /* .nf_is_contiguous */ cfs_num_is_contiguous,
+ /* .nf_min_max */ cfs_num_min_max},
+ {/* .nf_type */ MXLND,
+ /* .nf_name */ "mx",
+ /* .nf_modname */ "kmxlnd",
+ /* .nf_addr2str */ libcfs_ip_addr2str,
+ /* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
- {/* .nf_type */ PTLLND,
- /* .nf_name */ "ptl",
- /* .nf_modname */ "kptllnd",
- /* .nf_addr2str */ libcfs_decnum_addr2str,
- /* .nf_str2addr */ libcfs_num_str2addr,
- /* .nf_parse_addrlist*/ libcfs_num_parse,
- /* .nf_match_addr*/ libcfs_num_match},
- {/* .nf_type */ GNILND,
- /* .nf_name */ "gni",
- /* .nf_modname */ "kgnilnd",
- /* .nf_addr2str */ libcfs_decnum_addr2str,
- /* .nf_str2addr */ libcfs_num_str2addr,
- /* .nf_parse_addrlist*/ libcfs_num_parse,
- /* .nf_match_addr*/ libcfs_num_match},
- {/* .nf_type */ GNIIPLND,
- /* .nf_name */ "gip",
- /* .nf_modname */ "kgnilnd",
- /* .nf_addr2str */ libcfs_ip_addr2str,
- /* .nf_str2addr */ libcfs_ip_str2addr,
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
+ {/* .nf_type */ PTLLND,
+ /* .nf_name */ "ptl",
+ /* .nf_modname */ "kptllnd",
+ /* .nf_addr2str */ libcfs_decnum_addr2str,
+ /* .nf_str2addr */ libcfs_num_str2addr,
+ /* .nf_parse_addrlist*/ libcfs_num_parse,
+ /* .nf_print_addrlist*/ libcfs_num_addr_range_print,
+ /* .nf_match_addr*/ libcfs_num_match,
+ /* .nf_is_contiguous */ cfs_num_is_contiguous,
+ /* .nf_min_max */ cfs_num_min_max},
+ {/* .nf_type */ GNILND,
+ /* .nf_name */ "gni",
+ /* .nf_modname */ "kgnilnd",
+ /* .nf_addr2str */ libcfs_decnum_addr2str,
+ /* .nf_str2addr */ libcfs_num_str2addr,
+ /* .nf_parse_addrlist*/ libcfs_num_parse,
+ /* .nf_print_addrlist*/ libcfs_num_addr_range_print,
+ /* .nf_match_addr*/ libcfs_num_match,
+ /* .nf_is_contiguous */ cfs_num_is_contiguous,
+ /* .nf_min_max */ cfs_num_min_max},
+ {/* .nf_type */ GNIIPLND,
+ /* .nf_name */ "gip",
+ /* .nf_modname */ "kgnilnd",
+ /* .nf_addr2str */ libcfs_ip_addr2str,
+ /* .nf_str2addr */ libcfs_ip_str2addr,
/* .nf_parse_addrlist*/ cfs_ip_addr_parse,
- /* .nf_match_addr*/ cfs_ip_addr_match},
- /* placeholder for net0 alias. It MUST BE THE LAST ENTRY */
- {/* .nf_type */ -1},
+ /* .nf_print_addrlist*/ libcfs_ip_addr_range_print,
+ /* .nf_match_addr*/ cfs_ip_addr_match,
+ /* .nf_is_contiguous */ cfs_ip_is_contiguous,
+ /* .nf_min_max */ cfs_ip_min_max},
+ /* placeholder for net0 alias. It MUST BE THE LAST ENTRY */
+ {/* .nf_type */ -1},
};
-const int libcfs_nnetstrfns = sizeof(libcfs_netstrfns)/sizeof(libcfs_netstrfns[0]);
+static const size_t libcfs_nnetstrfns =
+ sizeof(libcfs_netstrfns)/sizeof(libcfs_netstrfns[0]);
-int
-libcfs_lo_str2addr(const char *str, int nob, __u32 *addr)
+static int libcfs_lo_str2addr(const char *str, int nob, __u32 *addr)
{
- *addr = 0;
- return 1;
+ *addr = 0;
+ return 1;
}
-void
-libcfs_ip_addr2str(__u32 addr, char *str)
+static void
+libcfs_ip_addr2str(__u32 addr, char *str, size_t size)
{
-#if 0 /* never lookup */
-#if !defined(__KERNEL__) && defined HAVE_GETHOSTBYNAME
- __u32 netip = htonl(addr);
- struct hostent *he = gethostbyaddr(&netip, sizeof(netip), AF_INET);
-
- if (he != NULL) {
- snprintf(str, LNET_NIDSTR_SIZE, "%s", he->h_name);
- return;
- }
-#endif
-#endif
- snprintf(str, LNET_NIDSTR_SIZE, "%u.%u.%u.%u",
- (addr >> 24) & 0xff, (addr >> 16) & 0xff,
- (addr >> 8) & 0xff, addr & 0xff);
+ snprintf(str, size, "%u.%u.%u.%u",
+ (addr >> 24) & 0xff, (addr >> 16) & 0xff,
+ (addr >> 8) & 0xff, addr & 0xff);
}
/* CAVEAT EMPTOR XscanfX
* fine, if it doesn't, then the scan ended at the end of the string, which is
* fine too :) */
-int
-libcfs_ip_str2addr(const char *str, int nob, __u32 *addr)
+static int libcfs_ip_str2addr(const char *str, int nob, __u32 *addr)
{
- int a;
- int b;
- int c;
- int d;
- int n = nob; /* XscanfX */
+ unsigned int a;
+ unsigned int b;
+ unsigned int c;
+ unsigned int d;
+ int n = nob; /* XscanfX */
/* numeric IP? */
if (sscanf(str, "%u.%u.%u.%u%n", &a, &b, &c, &d, &n) >= 4 &&
return 0;
}
-void
-libcfs_decnum_addr2str(__u32 addr, char *str)
+static void
+libcfs_decnum_addr2str(__u32 addr, char *str, size_t size)
{
- snprintf(str, LNET_NIDSTR_SIZE, "%u", addr);
+ snprintf(str, size, "%u", addr);
}
-void
-libcfs_hexnum_addr2str(__u32 addr, char *str)
+static void
+libcfs_hexnum_addr2str(__u32 addr, char *str, size_t size)
{
- snprintf(str, LNET_NIDSTR_SIZE, "0x%x", addr);
+ snprintf(str, size, "0x%x", addr);
}
-int
+static int
libcfs_num_str2addr(const char *str, int nob, __u32 *addr)
{
int n;
return 0;
}
-struct netstrfns *
-libcfs_lnd2netstrfns(int lnd)
+static struct netstrfns *
+libcfs_lnd2netstrfns(__u32 lnd)
{
- int i;
+ __u32 i;
- if (lnd >= 0)
- for (i = 0; i < libcfs_nnetstrfns; i++)
- if (lnd == libcfs_netstrfns[i].nf_type)
- return &libcfs_netstrfns[i];
+ for (i = 0; i < libcfs_nnetstrfns; i++)
+ if (lnd == libcfs_netstrfns[i].nf_type)
+ return &libcfs_netstrfns[i];
- return NULL;
+ return NULL;
}
-struct netstrfns *
+static struct netstrfns *
libcfs_namenum2netstrfns(const char *name)
{
struct netstrfns *nf;
return NULL;
}
-struct netstrfns *
+static struct netstrfns *
libcfs_name2netstrfns(const char *name)
{
int i;
return NULL;
}
-int
-libcfs_isknown_lnd(int type)
+int libcfs_isknown_lnd(__u32 lnd)
{
- return libcfs_lnd2netstrfns(type) != NULL;
+ return libcfs_lnd2netstrfns(lnd) != NULL;
}
-char *
-libcfs_lnd2modname(int lnd)
+char *libcfs_lnd2modname(__u32 lnd)
{
- struct netstrfns *nf = libcfs_lnd2netstrfns(lnd);
-
- return (nf == NULL) ? NULL : nf->nf_modname;
-}
+ struct netstrfns *nf = libcfs_lnd2netstrfns(lnd);
-char *
-libcfs_lnd2str(int lnd)
-{
- char *str;
- struct netstrfns *nf = libcfs_lnd2netstrfns(lnd);
-
- if (nf != NULL)
- return nf->nf_name;
-
- str = libcfs_next_nidstring();
- snprintf(str, LNET_NIDSTR_SIZE, "?%u?", lnd);
- return str;
+ return (nf == NULL) ? NULL : nf->nf_modname;
}
int
return -1;
}
-char *
-libcfs_net2str(__u32 net)
+char *libcfs_lnd2str_r(__u32 lnd, char *buf, size_t buf_size)
{
- int lnd = LNET_NETTYP(net);
- int num = LNET_NETNUM(net);
- struct netstrfns *nf = libcfs_lnd2netstrfns(lnd);
- char *str = libcfs_next_nidstring();
+ struct netstrfns *nf;
- if (nf == NULL)
- snprintf(str, LNET_NIDSTR_SIZE, "<%u:%u>", lnd, num);
- else if (num == 0)
- snprintf(str, LNET_NIDSTR_SIZE, "%s", nf->nf_name);
- else
- snprintf(str, LNET_NIDSTR_SIZE, "%s%u", nf->nf_name, num);
+ nf = libcfs_lnd2netstrfns(lnd);
+ if (nf == NULL)
+ snprintf(buf, buf_size, "?%u?", lnd);
+ else
+ snprintf(buf, buf_size, "%s", nf->nf_name);
- return str;
+ return buf;
}
-char *
-libcfs_nid2str(lnet_nid_t nid)
+char *libcfs_net2str_r(__u32 net, char *buf, size_t buf_size)
{
- __u32 addr = LNET_NIDADDR(nid);
- __u32 net = LNET_NIDNET(nid);
- int lnd = LNET_NETTYP(net);
- int nnum = LNET_NETNUM(net);
- struct netstrfns *nf;
- char *str;
- int nob;
+ __u32 nnum = LNET_NETNUM(net);
+ __u32 lnd = LNET_NETTYP(net);
+ struct netstrfns *nf;
+
+ nf = libcfs_lnd2netstrfns(lnd);
+ if (nf == NULL)
+ snprintf(buf, buf_size, "<%u:%u>", lnd, nnum);
+ else if (nnum == 0)
+ snprintf(buf, buf_size, "%s", nf->nf_name);
+ else
+ snprintf(buf, buf_size, "%s%u", nf->nf_name, nnum);
+
+ return buf;
+}
- if (nid == LNET_NID_ANY)
- return "<?>";
+char *libcfs_nid2str_r(lnet_nid_t nid, char *buf, size_t buf_size)
+{
+ __u32 addr = LNET_NIDADDR(nid);
+ __u32 net = LNET_NIDNET(nid);
+ __u32 nnum = LNET_NETNUM(net);
+ __u32 lnd = LNET_NETTYP(net);
+ struct netstrfns *nf;
+
+ if (nid == LNET_NID_ANY) {
+ strncpy(buf, "<?>", buf_size);
+ buf[buf_size - 1] = '\0';
+ return buf;
+ }
- nf = libcfs_lnd2netstrfns(lnd);
- str = libcfs_next_nidstring();
+ nf = libcfs_lnd2netstrfns(lnd);
+ if (nf == NULL) {
+ snprintf(buf, buf_size, "%x@<%u:%u>", addr, lnd, nnum);
+ } else {
+ size_t addr_len;
+
+ nf->nf_addr2str(addr, buf, buf_size);
+ addr_len = strlen(buf);
+ if (nnum == 0)
+ snprintf(buf + addr_len, buf_size - addr_len, "@%s",
+ nf->nf_name);
+ else
+ snprintf(buf + addr_len, buf_size - addr_len, "@%s%u",
+ nf->nf_name, nnum);
+ }
- if (nf == NULL)
- snprintf(str, LNET_NIDSTR_SIZE, "%x@<%u:%u>", addr, lnd, nnum);
- else {
- nf->nf_addr2str(addr, str);
- nob = strlen(str);
- if (nnum == 0)
- snprintf(str + nob, LNET_NIDSTR_SIZE - nob, "@%s",
- nf->nf_name);
- else
- snprintf(str + nob, LNET_NIDSTR_SIZE - nob, "@%s%u",
- nf->nf_name, nnum);
- }
+ return buf;
+}
- return str;
+char *libcfs_lnd2str(__u32 lnd)
+{
+ return libcfs_lnd2str_r(lnd, libcfs_next_nidstring(),
+ LNET_NIDSTR_SIZE);
+}
+
+char *libcfs_net2str(__u32 net)
+{
+ return libcfs_net2str_r(net, libcfs_next_nidstring(),
+ LNET_NIDSTR_SIZE);
+}
+
+char *libcfs_nid2str(lnet_nid_t nid)
+{
+ return libcfs_nid2str_r(nid, libcfs_next_nidstring(),
+ LNET_NIDSTR_SIZE);
}
static struct netstrfns *
libcfs_str2net_internal(const char *str, __u32 *net)
{
struct netstrfns *nf = NULL;
- int nob;
- int netnum;
- int i;
+ int nob;
+ unsigned int netnum;
+ int i;
for (i = 0; i < libcfs_nnetstrfns; i++) {
nf = &libcfs_netstrfns[i];
* Allocates struct addrrange and links to \a nidrange via
* (nidrange::nr_addrranges)
*
- * \retval 1 if \a src parses to '*' | \<ipaddr_range\> | \<cfs_expr_list\>
- * \retval 0 otherwise
+ * \retval 0 if \a src parses to '*' | \<ipaddr_range\> | \<cfs_expr_list\>
+ * \retval -errno otherwise
*/
static int
parse_addrange(const struct cfs_lstr *src, struct nidrange *nidrange)
if (src->ls_len == 1 && src->ls_str[0] == '*') {
nidrange->nr_all = 1;
- return 1;
+ return 0;
}
LIBCFS_ALLOC(addrrange, sizeof(struct addrrange));
if (addrrange == NULL)
- return 0;
+ return -ENOMEM;
list_add_tail(&addrrange->ar_link, &nidrange->nr_addrranges);
INIT_LIST_HEAD(&addrrange->ar_numaddr_ranges);
struct cfs_lstr src;
struct cfs_lstr res;
int rc;
- ENTRY;
src.ls_str = str;
src.ls_len = len;
rc = cfs_gettok(&src, ' ', &res);
if (rc == 0) {
cfs_free_nidlist(nidlist);
- RETURN(0);
+ return 0;
}
rc = parse_nidrange(&res, nidlist);
if (rc == 0) {
cfs_free_nidlist(nidlist);
- RETURN(0);
+ return 0;
}
}
- RETURN(1);
+ return 1;
}
/*
{
struct nidrange *nr;
struct addrrange *ar;
- ENTRY;
list_for_each_entry(nr, nidlist, nr_link) {
if (nr->nr_netstrfns->nf_type != LNET_NETTYP(LNET_NIDNET(nid)))
if (nr->nr_netnum != LNET_NETNUM(LNET_NIDNET(nid)))
continue;
if (nr->nr_all)
- RETURN(1);
+ return 1;
list_for_each_entry(ar, &nr->nr_addrranges, ar_link)
if (nr->nr_netstrfns->nf_match_addr(LNET_NIDADDR(nid),
&ar->ar_numaddr_ranges))
- RETURN(1);
+ return 1;
+ }
+ return 0;
+}
+
+static int
+libcfs_num_addr_range_print(char *buffer, int count, struct list_head *list)
+{
+ int i = 0, j = 0;
+ struct cfs_expr_list *el;
+
+ list_for_each_entry(el, list, el_link) {
+ LASSERT(j++ < 1);
+ i += cfs_expr_list_print(buffer + i, count - i, el);
+ }
+ return i;
+}
+
+static int
+libcfs_ip_addr_range_print(char *buffer, int count, struct list_head *list)
+{
+ int i = 0, j = 0;
+ struct cfs_expr_list *el;
+
+ list_for_each_entry(el, list, el_link) {
+ LASSERT(j++ < 4);
+ if (i != 0)
+ i += cfs_snprintf(buffer + i, count - i, ".");
+ i += cfs_expr_list_print(buffer + i, count - i, el);
+ }
+ return i;
+}
+
+
+/**
+ * Print the network part of the nidrange \a nr into the specified \a buffer.
+ *
+ * \retval number of characters written
+ */
+static int
+cfs_print_network(char *buffer, int count, struct nidrange *nr)
+{
+ struct netstrfns *nf = nr->nr_netstrfns;
+
+ if (nr->nr_netnum == 0)
+ return cfs_snprintf(buffer, count, "@%s", nf->nf_name);
+ else
+ return cfs_snprintf(buffer, count, "@%s%u",
+ nf->nf_name, nr->nr_netnum);
+}
+
+
+/**
+ * Print a list of addrrange (\a addrranges) into the specified \a buffer.
+ * At max \a count characters can be printed into \a buffer.
+ *
+ * \retval number of characters written
+ */
+static int
+cfs_print_addrranges(char *buffer, int count, struct list_head *addrranges,
+ struct nidrange *nr)
+{
+ int i = 0;
+ struct addrrange *ar;
+ struct netstrfns *nf = nr->nr_netstrfns;
+
+ list_for_each_entry(ar, addrranges, ar_link) {
+ if (i != 0)
+ i += cfs_snprintf(buffer + i, count - i, " ");
+ i += nf->nf_print_addrlist(buffer + i, count - i,
+ &ar->ar_numaddr_ranges);
+ i += cfs_print_network(buffer + i, count - i, nr);
+ }
+ return i;
+}
+
+
+/**
+ * Print a list of nidranges (\a nidlist) into the specified \a buffer.
+ * At max \a count characters can be printed into \a buffer.
+ * Nidranges are separated by a space character.
+ *
+ * \retval number of characters written
+ */
+int cfs_print_nidlist(char *buffer, int count, struct list_head *nidlist)
+{
+ int i = 0;
+ struct nidrange *nr;
+
+ if (count <= 0)
+ return 0;
+
+ list_for_each_entry(nr, nidlist, nr_link) {
+ if (i != 0)
+ i += cfs_snprintf(buffer + i, count - i, " ");
+
+ if (nr->nr_all != 0) {
+ LASSERT(list_empty(&nr->nr_addrranges));
+ i += cfs_snprintf(buffer + i, count - i, "*");
+ i += cfs_print_network(buffer + i, count - i, nr);
+ } else {
+ i += cfs_print_addrranges(buffer + i, count - i,
+ &nr->nr_addrranges, nr);
+ }
+ }
+ return i;
+}
+
+/**
+ * Determines minimum and maximum addresses for a single
+ * numeric address range
+ *
+ * \param ar
+ * \param min_nid
+ * \param max_nid
+ */
+static void cfs_ip_ar_min_max(struct addrrange *ar, __u32 *min_nid,
+ __u32 *max_nid)
+{
+ struct cfs_expr_list *el;
+ struct cfs_range_expr *re;
+ __u32 tmp_ip_addr = 0;
+ unsigned int min_ip[4] = {0};
+ unsigned int max_ip[4] = {0};
+ int re_count = 0;
+
+ list_for_each_entry(el, &ar->ar_numaddr_ranges, el_link) {
+ list_for_each_entry(re, &el->el_exprs, re_link) {
+ min_ip[re_count] = re->re_lo;
+ max_ip[re_count] = re->re_hi;
+ re_count++;
+ }
+ }
+
+ tmp_ip_addr = ((min_ip[0] << 24) | (min_ip[1] << 16) |
+ (min_ip[2] << 8) | min_ip[3]);
+
+ if (min_nid != NULL)
+ *min_nid = tmp_ip_addr;
+
+ tmp_ip_addr = ((max_ip[0] << 24) | (max_ip[1] << 16) |
+ (max_ip[2] << 8) | max_ip[3]);
+
+ if (max_nid != NULL)
+ *max_nid = tmp_ip_addr;
+}
+
+/**
+ * Determines minimum and maximum addresses for a single
+ * numeric address range
+ *
+ * \param ar
+ * \param min_nid
+ * \param max_nid
+ */
+static void cfs_num_ar_min_max(struct addrrange *ar, __u32 *min_nid,
+ __u32 *max_nid)
+{
+ struct cfs_expr_list *el;
+ struct cfs_range_expr *re;
+ unsigned int min_addr = 0;
+ unsigned int max_addr = 0;
+
+ list_for_each_entry(el, &ar->ar_numaddr_ranges, el_link) {
+ list_for_each_entry(re, &el->el_exprs, re_link) {
+ if (re->re_lo < min_addr || min_addr == 0)
+ min_addr = re->re_lo;
+ if (re->re_hi > max_addr)
+ max_addr = re->re_hi;
+ }
+ }
+
+ if (min_nid != NULL)
+ *min_nid = min_addr;
+ if (max_nid != NULL)
+ *max_nid = max_addr;
+}
+
+/**
+ * Determines whether an expression list in an nidrange contains exactly
+ * one contiguous address range. Calls the correct netstrfns for the LND
+ *
+ * \param *nidlist
+ *
+ * \retval true if contiguous
+ * \retval false if not contiguous
+ */
+bool cfs_nidrange_is_contiguous(struct list_head *nidlist)
+{
+ struct nidrange *nr;
+ struct netstrfns *nf = NULL;
+ char *lndname = NULL;
+ int netnum = -1;
+
+ list_for_each_entry(nr, nidlist, nr_link) {
+ nf = nr->nr_netstrfns;
+ if (lndname == NULL)
+ lndname = nf->nf_name;
+ if (netnum == -1)
+ netnum = nr->nr_netnum;
+
+ if (strcmp(lndname, nf->nf_name) != 0 ||
+ netnum != nr->nr_netnum)
+ return false;
+ }
+
+ if (nf == NULL)
+ return false;
+
+ if (!nf->nf_is_contiguous(nidlist))
+ return false;
+
+ return true;
+}
+EXPORT_SYMBOL(cfs_nidrange_is_contiguous);
+
+/**
+ * Determines whether an expression list in an num nidrange contains exactly
+ * one contiguous address range.
+ *
+ * \param *nidlist
+ *
+ * \retval true if contiguous
+ * \retval false if not contiguous
+ */
+static bool cfs_num_is_contiguous(struct list_head *nidlist)
+{
+ struct nidrange *nr;
+ struct addrrange *ar;
+ struct cfs_expr_list *el;
+ struct cfs_range_expr *re;
+ int last_hi = 0;
+ __u32 last_end_nid = 0;
+ __u32 current_start_nid = 0;
+ __u32 current_end_nid = 0;
+
+ list_for_each_entry(nr, nidlist, nr_link) {
+ list_for_each_entry(ar, &nr->nr_addrranges, ar_link) {
+ cfs_num_ar_min_max(ar, ¤t_start_nid,
+ ¤t_end_nid);
+ if (last_end_nid != 0 &&
+ (current_start_nid - last_end_nid != 1))
+ return false;
+ last_end_nid = current_end_nid;
+ list_for_each_entry(el, &ar->ar_numaddr_ranges,
+ el_link) {
+ list_for_each_entry(re, &el->el_exprs,
+ re_link) {
+ if (re->re_stride > 1)
+ return false;
+ else if (last_hi != 0 &&
+ re->re_hi - last_hi != 1)
+ return false;
+ last_hi = re->re_hi;
+ }
+ }
+ }
+ }
+
+ return true;
+}
+
+/**
+ * Determines whether an expression list in an ip nidrange contains exactly
+ * one contiguous address range.
+ *
+ * \param *nidlist
+ *
+ * \retval true if contiguous
+ * \retval false if not contiguous
+ */
+static bool cfs_ip_is_contiguous(struct list_head *nidlist)
+{
+ struct nidrange *nr;
+ struct addrrange *ar;
+ struct cfs_expr_list *el;
+ struct cfs_range_expr *re;
+ int expr_count;
+ int last_hi = 255;
+ int last_diff = 0;
+ __u32 last_end_nid = 0;
+ __u32 current_start_nid = 0;
+ __u32 current_end_nid = 0;
+
+ list_for_each_entry(nr, nidlist, nr_link) {
+ list_for_each_entry(ar, &nr->nr_addrranges, ar_link) {
+ last_hi = 255;
+ last_diff = 0;
+ cfs_ip_ar_min_max(ar, ¤t_start_nid,
+ ¤t_end_nid);
+ if (last_end_nid != 0 &&
+ (current_start_nid - last_end_nid != 1))
+ return false;
+ last_end_nid = current_end_nid;
+ list_for_each_entry(el,
+ &ar->ar_numaddr_ranges,
+ el_link) {
+ expr_count = 0;
+ list_for_each_entry(re, &el->el_exprs,
+ re_link) {
+ expr_count++;
+ if (re->re_stride > 1 ||
+ (last_diff > 0 && last_hi != 255) ||
+ (last_diff > 0 && last_hi == 255 &&
+ re->re_lo > 0))
+ return false;
+ last_hi = re->re_hi;
+ last_diff = re->re_hi - re->re_lo;
+ }
+ }
+ }
+ }
+
+ return true;
+}
+
+/**
+ * Takes a linked list of nidrange expressions, determines the minimum
+ * and maximum nid and creates appropriate nid structures
+ *
+ * \param *nidlist
+ * \param *min_nid
+ * \param *max_nid
+ */
+void cfs_nidrange_find_min_max(struct list_head *nidlist, char *min_nid,
+ char *max_nid, size_t nidstr_length)
+{
+ struct nidrange *nr;
+ struct netstrfns *nf = NULL;
+ int netnum = -1;
+ __u32 min_addr;
+ __u32 max_addr;
+ char *lndname = NULL;
+ char min_addr_str[IPSTRING_LENGTH];
+ char max_addr_str[IPSTRING_LENGTH];
+
+ list_for_each_entry(nr, nidlist, nr_link) {
+ nf = nr->nr_netstrfns;
+ lndname = nf->nf_name;
+ if (netnum == -1)
+ netnum = nr->nr_netnum;
+
+ nf->nf_min_max(nidlist, &min_addr, &max_addr);
}
- RETURN(0);
+ nf->nf_addr2str(min_addr, min_addr_str, sizeof(min_addr_str));
+ nf->nf_addr2str(max_addr, max_addr_str, sizeof(max_addr_str));
+
+ snprintf(min_nid, nidstr_length, "%s@%s%d", min_addr_str, lndname,
+ netnum);
+ snprintf(max_nid, nidstr_length, "%s@%s%d", max_addr_str, lndname,
+ netnum);
+}
+EXPORT_SYMBOL(cfs_nidrange_find_min_max);
+
+/**
+ * Determines the min and max NID values for num LNDs
+ *
+ * \param *nidlist
+ * \param *min_nid
+ * \param *max_nid
+ */
+static void cfs_num_min_max(struct list_head *nidlist, __u32 *min_nid,
+ __u32 *max_nid)
+{
+ struct nidrange *nr;
+ struct addrrange *ar;
+ unsigned int tmp_min_addr = 0;
+ unsigned int tmp_max_addr = 0;
+ unsigned int min_addr = 0;
+ unsigned int max_addr = 0;
+
+ list_for_each_entry(nr, nidlist, nr_link) {
+ list_for_each_entry(ar, &nr->nr_addrranges, ar_link) {
+ cfs_num_ar_min_max(ar, &tmp_min_addr,
+ &tmp_max_addr);
+ if (tmp_min_addr < min_addr || min_addr == 0)
+ min_addr = tmp_min_addr;
+ if (tmp_max_addr > max_addr)
+ max_addr = tmp_min_addr;
+ }
+ }
+ *max_nid = max_addr;
+ *min_nid = min_addr;
+}
+
+/**
+ * Takes an nidlist and determines the minimum and maximum
+ * ip addresses.
+ *
+ * \param *nidlist
+ * \param *min_nid
+ * \param *max_nid
+ */
+static void cfs_ip_min_max(struct list_head *nidlist, __u32 *min_nid,
+ __u32 *max_nid)
+{
+ struct nidrange *nr;
+ struct addrrange *ar;
+ __u32 tmp_min_ip_addr = 0;
+ __u32 tmp_max_ip_addr = 0;
+ __u32 min_ip_addr = 0;
+ __u32 max_ip_addr = 0;
+
+ list_for_each_entry(nr, nidlist, nr_link) {
+ list_for_each_entry(ar, &nr->nr_addrranges, ar_link) {
+ cfs_ip_ar_min_max(ar, &tmp_min_ip_addr,
+ &tmp_max_ip_addr);
+ if (tmp_min_ip_addr < min_ip_addr || min_ip_addr == 0)
+ min_ip_addr = tmp_min_ip_addr;
+ if (tmp_max_ip_addr > max_ip_addr)
+ max_ip_addr = tmp_max_ip_addr;
+ }
+ }
+
+ if (min_nid != NULL)
+ *min_nid = min_ip_addr;
+ if (max_nid != NULL)
+ *max_nid = max_ip_addr;
}
#ifdef __KERNEL__
EXPORT_SYMBOL(libcfs_isknown_lnd);
EXPORT_SYMBOL(libcfs_lnd2modname);
EXPORT_SYMBOL(libcfs_lnd2str);
+EXPORT_SYMBOL(libcfs_lnd2str_r);
EXPORT_SYMBOL(libcfs_str2lnd);
EXPORT_SYMBOL(libcfs_net2str);
+EXPORT_SYMBOL(libcfs_net2str_r);
EXPORT_SYMBOL(libcfs_nid2str);
+EXPORT_SYMBOL(libcfs_nid2str_r);
EXPORT_SYMBOL(libcfs_str2net);
EXPORT_SYMBOL(libcfs_str2nid);
EXPORT_SYMBOL(libcfs_id2str);
EXPORT_SYMBOL(libcfs_str2anynid);
EXPORT_SYMBOL(cfs_free_nidlist);
EXPORT_SYMBOL(cfs_parse_nidlist);
+EXPORT_SYMBOL(cfs_print_nidlist);
EXPORT_SYMBOL(cfs_match_nid);
#endif