diff options
Diffstat (limited to 'drivers/staging/lustre/lnet/lnet/nidstrings.c')
-rw-r--r-- | drivers/staging/lustre/lnet/lnet/nidstrings.c | 1260 |
1 files changed, 1260 insertions, 0 deletions
diff --git a/drivers/staging/lustre/lnet/lnet/nidstrings.c b/drivers/staging/lustre/lnet/lnet/nidstrings.c new file mode 100644 index 000000000000..80f585afa259 --- /dev/null +++ b/drivers/staging/lustre/lnet/lnet/nidstrings.c @@ -0,0 +1,1260 @@ +/* + * GPL HEADER START + * + * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. + * + * This program is free software; you can redistribute it and/or modify + * it under the terms of the GNU General Public License version 2 only, + * as published by the Free Software Foundation. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * General Public License version 2 for more details (a copy is included + * in the LICENSE file that accompanied this code). + * + * You should have received a copy of the GNU General Public License + * version 2 along with this program; If not, see + * http://www.sun.com/software/products/lustre/docs/GPLv2.pdf + * + * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, + * CA 95054 USA or visit www.sun.com if you need additional information or + * have any questions. + * + * GPL HEADER END + */ +/* + * Copyright (c) 2008, 2010, Oracle and/or its affiliates. All rights reserved. + * Use is subject to license terms. + * + * Copyright (c) 2011, 2012, Intel Corporation. + */ +/* + * This file is part of Lustre, http://www.lustre.org/ + * Lustre is a trademark of Sun Microsystems, Inc. + * + * lnet/lnet/nidstrings.c + * + * Author: Phil Schwan <phil@clusterfs.com> + */ + +#define DEBUG_SUBSYSTEM S_LNET + +#include "../../include/linux/libcfs/libcfs.h" +#include "../../include/linux/lnet/lnet.h" + +/* 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... + */ + +/* CAVEAT EMPTOR! Racey temporary buffer allocation! + * Choose the number of nidstrings to support the MAXIMUM expected number of + * concurrent users. If there are more, the returned string will be volatile. + * NB this number must allow for a process to be descheduled for a timeslice + * between getting its string and using it. + */ + +static char libcfs_nidstrings[LNET_NIDSTR_COUNT][LNET_NIDSTR_SIZE]; +static int libcfs_nidstring_idx; + +static DEFINE_SPINLOCK(libcfs_nidstring_lock); + +static struct netstrfns *libcfs_namenum2netstrfns(const char *name); + +char * +libcfs_next_nidstring(void) +{ + char *str; + unsigned long flags; + + spin_lock_irqsave(&libcfs_nidstring_lock, flags); + + str = libcfs_nidstrings[libcfs_nidstring_idx++]; + if (libcfs_nidstring_idx == ARRAY_SIZE(libcfs_nidstrings)) + libcfs_nidstring_idx = 0; + + spin_unlock_irqrestore(&libcfs_nidstring_lock, flags); + return str; +} +EXPORT_SYMBOL(libcfs_next_nidstring); + +/** + * Nid range list syntax. + * \verbatim + * + * <nidlist> :== <nidrange> [ ' ' <nidrange> ] + * <nidrange> :== <addrrange> '@' <net> + * <addrrange> :== '*' | + * <ipaddr_range> | + * <cfs_expr_list> + * <ipaddr_range> :== <cfs_expr_list>.<cfs_expr_list>.<cfs_expr_list>. + * <cfs_expr_list> + * <cfs_expr_list> :== <number> | + * <expr_list> + * <expr_list> :== '[' <range_expr> [ ',' <range_expr>] ']' + * <range_expr> :== <number> | + * <number> '-' <number> | + * <number> '-' <number> '/' <number> + * <net> :== <netname> | <netname><number> + * <netname> :== "lo" | "tcp" | "o2ib" | "cib" | "openib" | "iib" | + * "vib" | "ra" | "elan" | "mx" | "ptl" + * \endverbatim + */ + +/** + * Structure to represent \<nidrange\> token of the syntax. + * + * One of this is created for each \<net\> parsed. + */ +struct nidrange { + /** + * Link to list of this structures which is built on nid range + * list parsing. + */ + struct list_head nr_link; + /** + * List head for addrrange::ar_link. + */ + struct list_head nr_addrranges; + /** + * Flag indicating that *@<net> is found. + */ + int nr_all; + /** + * Pointer to corresponding element of libcfs_netstrfns. + */ + struct netstrfns *nr_netstrfns; + /** + * Number of network. E.g. 5 if \<net\> is "elan5". + */ + int nr_netnum; +}; + +/** + * Structure to represent \<addrrange\> token of the syntax. + */ +struct addrrange { + /** + * Link to nidrange::nr_addrranges. + */ + struct list_head ar_link; + /** + * List head for cfs_expr_list::el_list. + */ + struct list_head ar_numaddr_ranges; +}; + +/** + * Parses \<addrrange\> token on the syntax. + * + * Allocates struct addrrange and links to \a nidrange via + * (nidrange::nr_addrranges) + * + * \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) +{ + struct addrrange *addrrange; + + if (src->ls_len == 1 && src->ls_str[0] == '*') { + nidrange->nr_all = 1; + return 0; + } + + LIBCFS_ALLOC(addrrange, sizeof(struct addrrange)); + if (addrrange == NULL) + return -ENOMEM; + list_add_tail(&addrrange->ar_link, &nidrange->nr_addrranges); + INIT_LIST_HEAD(&addrrange->ar_numaddr_ranges); + + return nidrange->nr_netstrfns->nf_parse_addrlist(src->ls_str, + src->ls_len, + &addrrange->ar_numaddr_ranges); +} + +/** + * Finds or creates struct nidrange. + * + * Checks if \a src is a valid network name, looks for corresponding + * nidrange on the ist of nidranges (\a nidlist), creates new struct + * nidrange if it is not found. + * + * \retval pointer to struct nidrange matching network specified via \a src + * \retval NULL if \a src does not match any network + */ +static struct nidrange * +add_nidrange(const struct cfs_lstr *src, + struct list_head *nidlist) +{ + struct netstrfns *nf; + struct nidrange *nr; + int endlen; + unsigned netnum; + + if (src->ls_len >= LNET_NIDSTR_SIZE) + return NULL; + + nf = libcfs_namenum2netstrfns(src->ls_str); + if (nf == NULL) + return NULL; + endlen = src->ls_len - strlen(nf->nf_name); + if (endlen == 0) + /* network name only, e.g. "elan" or "tcp" */ + netnum = 0; + else { + /* e.g. "elan25" or "tcp23", refuse to parse if + * network name is not appended with decimal or + * hexadecimal number */ + if (!cfs_str2num_check(src->ls_str + strlen(nf->nf_name), + endlen, &netnum, 0, MAX_NUMERIC_VALUE)) + return NULL; + } + + list_for_each_entry(nr, nidlist, nr_link) { + if (nr->nr_netstrfns != nf) + continue; + if (nr->nr_netnum != netnum) + continue; + return nr; + } + + LIBCFS_ALLOC(nr, sizeof(struct nidrange)); + if (nr == NULL) + return NULL; + list_add_tail(&nr->nr_link, nidlist); + INIT_LIST_HEAD(&nr->nr_addrranges); + nr->nr_netstrfns = nf; + nr->nr_all = 0; + nr->nr_netnum = netnum; + + return nr; +} + +/** + * Parses \<nidrange\> token of the syntax. + * + * \retval 1 if \a src parses to \<addrrange\> '@' \<net\> + * \retval 0 otherwise + */ +static int +parse_nidrange(struct cfs_lstr *src, struct list_head *nidlist) +{ + struct cfs_lstr addrrange; + struct cfs_lstr net; + struct cfs_lstr tmp; + struct nidrange *nr; + + tmp = *src; + if (cfs_gettok(src, '@', &addrrange) == 0) + goto failed; + + if (cfs_gettok(src, '@', &net) == 0 || src->ls_str != NULL) + goto failed; + + nr = add_nidrange(&net, nidlist); + if (nr == NULL) + goto failed; + + if (parse_addrange(&addrrange, nr) != 0) + goto failed; + + return 1; +failed: + CWARN("can't parse nidrange: \"%.*s\"\n", tmp.ls_len, tmp.ls_str); + return 0; +} + +/** + * Frees addrrange structures of \a list. + * + * For each struct addrrange structure found on \a list it frees + * cfs_expr_list list attached to it and frees the addrrange itself. + * + * \retval none + */ +static void +free_addrranges(struct list_head *list) +{ + while (!list_empty(list)) { + struct addrrange *ar; + + ar = list_entry(list->next, struct addrrange, ar_link); + + cfs_expr_list_free_list(&ar->ar_numaddr_ranges); + list_del(&ar->ar_link); + LIBCFS_FREE(ar, sizeof(struct addrrange)); + } +} + +/** + * Frees nidrange strutures of \a list. + * + * For each struct nidrange structure found on \a list it frees + * addrrange list attached to it and frees the nidrange itself. + * + * \retval none + */ +void +cfs_free_nidlist(struct list_head *list) +{ + struct list_head *pos, *next; + struct nidrange *nr; + + list_for_each_safe(pos, next, list) { + nr = list_entry(pos, struct nidrange, nr_link); + free_addrranges(&nr->nr_addrranges); + list_del(pos); + LIBCFS_FREE(nr, sizeof(struct nidrange)); + } +} +EXPORT_SYMBOL(cfs_free_nidlist); + +/** + * Parses nid range list. + * + * Parses with rigorous syntax and overflow checking \a str into + * \<nidrange\> [ ' ' \<nidrange\> ], compiles \a str into set of + * structures and links that structure to \a nidlist. The resulting + * list can be used to match a NID againts set of NIDS defined by \a + * str. + * \see cfs_match_nid + * + * \retval 1 on success + * \retval 0 otherwise + */ +int +cfs_parse_nidlist(char *str, int len, struct list_head *nidlist) +{ + struct cfs_lstr src; + struct cfs_lstr res; + int rc; + + src.ls_str = str; + src.ls_len = len; + INIT_LIST_HEAD(nidlist); + while (src.ls_str) { + rc = cfs_gettok(&src, ' ', &res); + if (rc == 0) { + cfs_free_nidlist(nidlist); + return 0; + } + rc = parse_nidrange(&res, nidlist); + if (rc == 0) { + cfs_free_nidlist(nidlist); + return 0; + } + } + return 1; +} +EXPORT_SYMBOL(cfs_parse_nidlist); + +/** + * Matches a nid (\a nid) against the compiled list of nidranges (\a nidlist). + * + * \see cfs_parse_nidlist() + * + * \retval 1 on match + * \retval 0 otherwises + */ +int cfs_match_nid(lnet_nid_t nid, struct list_head *nidlist) +{ + struct nidrange *nr; + struct addrrange *ar; + + list_for_each_entry(nr, nidlist, nr_link) { + if (nr->nr_netstrfns->nf_type != LNET_NETTYP(LNET_NIDNET(nid))) + continue; + if (nr->nr_netnum != LNET_NETNUM(LNET_NIDNET(nid))) + continue; + if (nr->nr_all) + 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 0; +} +EXPORT_SYMBOL(cfs_match_nid); + +/** + * 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 scnprintf(buffer, count, "@%s", nf->nf_name); + else + return scnprintf(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 += scnprintf(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 += scnprintf(buffer + i, count - i, " "); + + if (nr->nr_all != 0) { + LASSERT(list_empty(&nr->nr_addrranges)); + i += scnprintf(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; +} +EXPORT_SYMBOL(cfs_print_nidlist); + +/** + * 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); + } + 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; +} + +static int +libcfs_lo_str2addr(const char *str, int nob, __u32 *addr) +{ + *addr = 0; + return 1; +} + +static void +libcfs_ip_addr2str(__u32 addr, char *str, size_t size) +{ + snprintf(str, size, "%u.%u.%u.%u", + (addr >> 24) & 0xff, (addr >> 16) & 0xff, + (addr >> 8) & 0xff, addr & 0xff); +} + +/* CAVEAT EMPTOR XscanfX + * I use "%n" at the end of a sscanf format to detect trailing junk. However + * sscanf may return immediately if it sees the terminating '0' in a string, so + * I initialise the %n variable to the expected length. If sscanf sets it; + * fine, if it doesn't, then the scan ended at the end of the string, which is + * fine too :) */ +static int +libcfs_ip_str2addr(const char *str, int nob, __u32 *addr) +{ + 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 && + n == nob && + (a & ~0xff) == 0 && (b & ~0xff) == 0 && + (c & ~0xff) == 0 && (d & ~0xff) == 0) { + *addr = ((a<<24)|(b<<16)|(c<<8)|d); + return 1; + } + + return 0; +} + +/* Used by lnet/config.c so it can't be static */ +int +cfs_ip_addr_parse(char *str, int len, struct list_head *list) +{ + struct cfs_expr_list *el; + struct cfs_lstr src; + int rc; + int i; + + src.ls_str = str; + src.ls_len = len; + i = 0; + + while (src.ls_str != NULL) { + struct cfs_lstr res; + + if (!cfs_gettok(&src, '.', &res)) { + rc = -EINVAL; + goto out; + } + + rc = cfs_expr_list_parse(res.ls_str, res.ls_len, 0, 255, &el); + if (rc != 0) + goto out; + + list_add_tail(&el->el_link, list); + i++; + } + + if (i == 4) + return 0; + + rc = -EINVAL; +out: + cfs_expr_list_free_list(list); + + return rc; +} + +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 += scnprintf(buffer + i, count - i, "."); + i += cfs_expr_list_print(buffer + i, count - i, el); + } + return i; +} + +/** + * Matches address (\a addr) against address set encoded in \a list. + * + * \retval 1 if \a addr matches + * \retval 0 otherwise + */ +int +cfs_ip_addr_match(__u32 addr, struct list_head *list) +{ + struct cfs_expr_list *el; + int i = 0; + + list_for_each_entry_reverse(el, list, el_link) { + if (!cfs_expr_list_match(addr & 0xff, el)) + return 0; + addr >>= 8; + i++; + } + + return i == 4; +} + +static void +libcfs_decnum_addr2str(__u32 addr, char *str, size_t size) +{ + snprintf(str, size, "%u", addr); +} + +static int +libcfs_num_str2addr(const char *str, int nob, __u32 *addr) +{ + int n; + + n = nob; + if (sscanf(str, "0x%x%n", addr, &n) >= 1 && n == nob) + return 1; + + n = nob; + if (sscanf(str, "0X%x%n", addr, &n) >= 1 && n == nob) + return 1; + + n = nob; + if (sscanf(str, "%u%n", addr, &n) >= 1 && n == nob) + return 1; + + return 0; +} + +/** + * Nf_parse_addrlist method for networks using numeric addresses. + * + * Examples of such networks are gm and elan. + * + * \retval 0 if \a str parsed to numeric address + * \retval errno otherwise + */ +static int +libcfs_num_parse(char *str, int len, struct list_head *list) +{ + struct cfs_expr_list *el; + int rc; + + rc = cfs_expr_list_parse(str, len, 0, MAX_NUMERIC_VALUE, &el); + if (rc == 0) + list_add_tail(&el->el_link, list); + + return rc; +} + +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; +} + +/* + * Nf_match_addr method for networks using numeric addresses + * + * \retval 1 on match + * \retval 0 otherwise + */ +static int +libcfs_num_match(__u32 addr, struct list_head *numaddr) +{ + struct cfs_expr_list *el; + + LASSERT(!list_empty(numaddr)); + el = list_entry(numaddr->next, struct cfs_expr_list, el_link); + + return cfs_expr_list_match(addr, el); +} + +static struct netstrfns libcfs_netstrfns[] = { + { .nf_type = LOLND, + .nf_name = "lo", + .nf_modname = "klolnd", + .nf_addr2str = libcfs_decnum_addr2str, + .nf_str2addr = libcfs_lo_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 = 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_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_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 = 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_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 }, +}; + +static const size_t libcfs_nnetstrfns = ARRAY_SIZE(libcfs_netstrfns); + +static struct netstrfns * +libcfs_lnd2netstrfns(__u32 lnd) +{ + int i; + + for (i = 0; i < libcfs_nnetstrfns; i++) + if (lnd == libcfs_netstrfns[i].nf_type) + return &libcfs_netstrfns[i]; + + return NULL; +} + +static struct netstrfns * +libcfs_namenum2netstrfns(const char *name) +{ + struct netstrfns *nf; + int i; + + for (i = 0; i < libcfs_nnetstrfns; i++) { + nf = &libcfs_netstrfns[i]; + if (!strncmp(name, nf->nf_name, strlen(nf->nf_name))) + return nf; + } + return NULL; +} + +static struct netstrfns * +libcfs_name2netstrfns(const char *name) +{ + int i; + + for (i = 0; i < libcfs_nnetstrfns; i++) + if (!strcmp(libcfs_netstrfns[i].nf_name, name)) + return &libcfs_netstrfns[i]; + + return NULL; +} + +int +libcfs_isknown_lnd(__u32 lnd) +{ + return libcfs_lnd2netstrfns(lnd) != NULL; +} +EXPORT_SYMBOL(libcfs_isknown_lnd); + +char * +libcfs_lnd2modname(__u32 lnd) +{ + struct netstrfns *nf = libcfs_lnd2netstrfns(lnd); + + return (nf == NULL) ? NULL : nf->nf_modname; +} +EXPORT_SYMBOL(libcfs_lnd2modname); + +int +libcfs_str2lnd(const char *str) +{ + struct netstrfns *nf = libcfs_name2netstrfns(str); + + if (nf != NULL) + return nf->nf_type; + + return -1; +} +EXPORT_SYMBOL(libcfs_str2lnd); + +char * +libcfs_lnd2str_r(__u32 lnd, char *buf, size_t buf_size) +{ + struct netstrfns *nf; + + nf = libcfs_lnd2netstrfns(lnd); + if (nf == NULL) + snprintf(buf, buf_size, "?%u?", lnd); + else + snprintf(buf, buf_size, "%s", nf->nf_name); + + return buf; +} +EXPORT_SYMBOL(libcfs_lnd2str_r); + +char * +libcfs_net2str_r(__u32 net, char *buf, size_t buf_size) +{ + __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; +} +EXPORT_SYMBOL(libcfs_net2str_r); + +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); + 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); + } + + return buf; +} +EXPORT_SYMBOL(libcfs_nid2str_r); + +static struct netstrfns * +libcfs_str2net_internal(const char *str, __u32 *net) +{ + struct netstrfns *uninitialized_var(nf); + int nob; + unsigned int netnum; + int i; + + for (i = 0; i < libcfs_nnetstrfns; i++) { + nf = &libcfs_netstrfns[i]; + if (!strncmp(str, nf->nf_name, strlen(nf->nf_name))) + break; + } + + if (i == libcfs_nnetstrfns) + return NULL; + + nob = strlen(nf->nf_name); + + if (strlen(str) == (unsigned int)nob) { + netnum = 0; + } else { + if (nf->nf_type == LOLND) /* net number not allowed */ + return NULL; + + str += nob; + i = strlen(str); + if (sscanf(str, "%u%n", &netnum, &i) < 1 || + i != (int)strlen(str)) + return NULL; + } + + *net = LNET_MKNET(nf->nf_type, netnum); + return nf; +} + +__u32 +libcfs_str2net(const char *str) +{ + __u32 net; + + if (libcfs_str2net_internal(str, &net) != NULL) + return net; + + return LNET_NIDNET(LNET_NID_ANY); +} +EXPORT_SYMBOL(libcfs_str2net); + +lnet_nid_t +libcfs_str2nid(const char *str) +{ + const char *sep = strchr(str, '@'); + struct netstrfns *nf; + __u32 net; + __u32 addr; + + if (sep != NULL) { + nf = libcfs_str2net_internal(sep + 1, &net); + if (nf == NULL) + return LNET_NID_ANY; + } else { + sep = str + strlen(str); + net = LNET_MKNET(SOCKLND, 0); + nf = libcfs_lnd2netstrfns(SOCKLND); + LASSERT(nf != NULL); + } + + if (!nf->nf_str2addr(str, (int)(sep - str), &addr)) + return LNET_NID_ANY; + + return LNET_MKNID(net, addr); +} +EXPORT_SYMBOL(libcfs_str2nid); + +char * +libcfs_id2str(lnet_process_id_t id) +{ + char *str = libcfs_next_nidstring(); + + if (id.pid == LNET_PID_ANY) { + snprintf(str, LNET_NIDSTR_SIZE, + "LNET_PID_ANY-%s", libcfs_nid2str(id.nid)); + return str; + } + + snprintf(str, LNET_NIDSTR_SIZE, "%s%u-%s", + ((id.pid & LNET_PID_USERFLAG) != 0) ? "U" : "", + (id.pid & ~LNET_PID_USERFLAG), libcfs_nid2str(id.nid)); + return str; +} +EXPORT_SYMBOL(libcfs_id2str); + +int +libcfs_str2anynid(lnet_nid_t *nidp, const char *str) +{ + if (!strcmp(str, "*")) { + *nidp = LNET_NID_ANY; + return 1; + } + + *nidp = libcfs_str2nid(str); + return *nidp != LNET_NID_ANY; +} +EXPORT_SYMBOL(libcfs_str2anynid); |