/* Copyright (c) 2012-2014 DataLab, s.l. This file is part of GlusterFS. This file is licensed to you under your choice of the GNU Lesser General Public License, version 3 or any later version (LGPLv3 or later), or the GNU General Public License, version 2 (GPLv2), in all cases as published by the Free Software Foundation. */ #include #include "libxlator.h" #include "byte-order.h" #include "ec-data.h" #include "ec-helpers.h" #include "ec-common.h" #include "ec-combine.h" #define EC_QUOTA_PREFIX "trusted.glusterfs.quota." struct _ec_dict_info; typedef struct _ec_dict_info ec_dict_info_t; struct _ec_dict_combine; typedef struct _ec_dict_combine ec_dict_combine_t; struct _ec_dict_info { dict_t * dict; int32_t count; }; struct _ec_dict_combine { ec_cbk_data_t * cbk; int32_t which; }; void ec_iatt_time_merge(uint32_t * dst_sec, uint32_t * dst_nsec, uint32_t src_sec, uint32_t src_nsec) { if ((*dst_sec < src_sec) || ((*dst_sec == src_sec) && (*dst_nsec < src_nsec))) { *dst_sec = src_sec; *dst_nsec = src_nsec; } } int32_t ec_iatt_combine(struct iatt * dst, struct iatt * src, int32_t count) { int32_t i; for (i = 0; i < count; i++) { if ((dst->ia_ino != src->ia_ino) || (dst->ia_uid != src->ia_uid) || (dst->ia_gid != src->ia_gid) || (((dst->ia_type == IA_IFBLK) || (dst->ia_type == IA_IFCHR)) && (dst->ia_rdev != src->ia_rdev)) || ((dst->ia_type == IA_IFREG) && (dst->ia_size != src->ia_size)) || (st_mode_from_ia(dst->ia_prot, dst->ia_type) != st_mode_from_ia(src->ia_prot, src->ia_type)) || (uuid_compare(dst->ia_gfid, src->ia_gfid) != 0)) { gf_log(THIS->name, GF_LOG_WARNING, "Failed to combine iatt (inode: %lu-%lu, links: %u-%u, " "uid: %u-%u, gid: %u-%u, rdev: %lu-%lu, size: %lu-%lu, " "mode: %o-%o)", dst->ia_ino, src->ia_ino, dst->ia_nlink, src->ia_nlink, dst->ia_uid, src->ia_uid, dst->ia_gid, src->ia_gid, dst->ia_rdev, src->ia_rdev, dst->ia_size, src->ia_size, st_mode_from_ia(dst->ia_prot, dst->ia_type), st_mode_from_ia(src->ia_prot, dst->ia_type)); return 0; } } while (count-- > 0) { dst->ia_blocks += src->ia_blocks; if (dst->ia_blksize < src->ia_blksize) { dst->ia_blksize = src->ia_blksize; } ec_iatt_time_merge(&dst->ia_atime, &dst->ia_atime_nsec, src->ia_atime, src->ia_atime_nsec); ec_iatt_time_merge(&dst->ia_mtime, &dst->ia_mtime_nsec, src->ia_mtime, src->ia_mtime_nsec); ec_iatt_time_merge(&dst->ia_ctime, &dst->ia_ctime_nsec, src->ia_ctime, src->ia_ctime_nsec); } return 1; } void ec_iatt_rebuild(ec_t * ec, struct iatt * iatt, int32_t count, int32_t answers) { uint64_t blocks; while (count-- > 0) { blocks = iatt[count].ia_blocks * ec->fragments + answers - 1; blocks /= answers; iatt[count].ia_blocks = blocks; } } int32_t ec_dict_data_compare(dict_t * dict, char * key, data_t * value, void * arg) { ec_dict_info_t * info = arg; data_t * data; data = dict_get(info->dict, key); if (data == NULL) { gf_log("ec", GF_LOG_DEBUG, "key '%s' found only on one dict", key); return -1; } info->count--; if ((strcmp(key, GF_CONTENT_KEY) == 0) || (strcmp(key, GF_XATTR_PATHINFO_KEY) == 0) || (strcmp(key, GF_XATTR_USER_PATHINFO_KEY) == 0) || (strcmp(key, GF_XATTR_LOCKINFO_KEY) == 0) || (strcmp(key, GLUSTERFS_OPEN_FD_COUNT) == 0) || (strncmp(key, GF_XATTR_CLRLK_CMD, strlen(GF_XATTR_CLRLK_CMD)) == 0) || (strncmp(key, EC_QUOTA_PREFIX, strlen(EC_QUOTA_PREFIX)) == 0) || (fnmatch(GF_XATTR_STIME_PATTERN, key, 0) == 0) || (fnmatch(MARKER_XATTR_PREFIX ".*." XTIME, key, 0) == 0) || (XATTR_IS_NODE_UUID(key))) { return 0; } if ((data->len != value->len) || (memcmp(data->data, value->data, data->len) != 0)) { gf_log("ec", GF_LOG_DEBUG, "key '%s' is different (size: %u, %u)", key, data->len, value->len); return -1; } return 0; } int32_t ec_dict_data_show(dict_t * dict, char * key, data_t * value, void * arg) { if (dict_get(arg, key) == NULL) { gf_log("ec", GF_LOG_DEBUG, "key '%s' found only on one dict", key); } return 0; } int32_t ec_dict_compare(dict_t * dict1, dict_t * dict2) { ec_dict_info_t info; dict_t * dict; if (dict1 != NULL) { info.dict = dict1; info.count = dict1->count; dict = dict2; } else if (dict2 != NULL) { info.dict = dict2; info.count = dict2->count; dict = dict1; } else { return 1; } if (dict != NULL) { if (dict_foreach(dict, ec_dict_data_compare, &info) != 0) { return 0; } } if (info.count != 0) { dict_foreach(info.dict, ec_dict_data_show, dict); } return (info.count == 0); } int32_t ec_dict_list(data_t ** list, int32_t * count, ec_cbk_data_t * cbk, int32_t which, char * key) { ec_cbk_data_t * ans; dict_t * dict; int32_t i, max; max = *count; i = 0; for (ans = cbk; ans != NULL; ans = ans->next) { if (i >= max) { gf_log(cbk->fop->xl->name, GF_LOG_ERROR, "Unexpected number of " "dictionaries"); return 0; } dict = (which == EC_COMBINE_XDATA) ? ans->xdata : ans->dict; list[i] = dict_get(dict, key); if (list[i] == NULL) { gf_log(cbk->fop->xl->name, GF_LOG_ERROR, "Unexpected missing " "dictionary entry"); return 0; } i++; } *count = i; return 1; } char * ec_concat_prepare(xlator_t * xl, char ** sep, char ** post, const char * fmt, va_list args) { char * str, * tmp; int32_t len; len = gf_vasprintf(&str, fmt, args); if (len < 0) { return NULL; } tmp = strchr(str, '{'); if (tmp == NULL) { goto out; } *tmp++ = 0; *sep = tmp; tmp = strchr(tmp, '}'); if (tmp == NULL) { goto out; } *tmp++ = 0; *post = tmp; return str; out: gf_log(xl->name, GF_LOG_ERROR, "Invalid concat format"); GF_FREE(str); return NULL; } int32_t ec_dict_data_concat(const char * fmt, ec_cbk_data_t * cbk, int32_t which, char * key, ...) { data_t * data[cbk->count]; char * str = NULL, * pre = NULL, * sep, * post; dict_t * dict; va_list args; int32_t i, num, len, prelen, postlen, seplen, tmp; int32_t ret = -1; num = cbk->count; if (!ec_dict_list(data, &num, cbk, which, key)) { return -1; } va_start(args, key); pre = ec_concat_prepare(cbk->fop->xl, &sep, &post, fmt, args); va_end(args); if (pre == NULL) { return -1; } prelen = strlen(pre); seplen = strlen(sep); postlen = strlen(post); len = prelen + (num - 1) * seplen + postlen + 1; for (i = 0; i < num; i++) { len += data[i]->len - 1; } str = GF_MALLOC(len, gf_common_mt_char); if (str == NULL) { goto out; } memcpy(str, pre, prelen); len = prelen; for (i = 0; i < num; i++) { if (i > 0) { memcpy(str + len, sep, seplen); len += seplen; } tmp = data[i]->len - 1; memcpy(str + len, data[i]->data, tmp); len += tmp; } memcpy(str + len, post, postlen + 1); dict = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; if (dict_set_dynstr(dict, key, str) != 0) { goto out; } str = NULL; ret = 0; out: GF_FREE(str); GF_FREE(pre); return ret; } int32_t ec_dict_data_merge(ec_cbk_data_t * cbk, int32_t which, char * key) { data_t * data[cbk->count]; dict_t * dict, * lockinfo, * tmp; char * ptr = NULL; int32_t i, num, len; int32_t ret = -1; num = cbk->count; if (!ec_dict_list(data, &num, cbk, which, key)) { return -1; } lockinfo = dict_new(); if (lockinfo == NULL) { return -1; } if (dict_unserialize(data[0]->data, data[0]->len, &lockinfo) != 0) { goto out; } for (i = 1; i < num; i++) { tmp = dict_new(); if (tmp == NULL) { goto out; } if ((dict_unserialize(data[i]->data, data[i]->len, &tmp) != 0) || (dict_copy(tmp, lockinfo) == NULL)) { dict_unref(tmp); goto out; } dict_unref(tmp); } len = dict_serialized_length(lockinfo); if (len < 0) { goto out; } ptr = GF_MALLOC(len, gf_common_mt_char); if (ptr == NULL) { goto out; } if (dict_serialize(lockinfo, ptr) != 0) { goto out; } dict = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; if (dict_set_dynptr(dict, key, ptr, len) != 0) { goto out; } ptr = NULL; ret = 0; out: GF_FREE(ptr); dict_unref(lockinfo); return ret; } int32_t ec_dict_data_uuid(ec_cbk_data_t * cbk, int32_t which, char * key) { ec_cbk_data_t * ans, * min; dict_t * src, * dst; data_t * data; min = cbk; for (ans = cbk->next; ans != NULL; ans = ans->next) { if (ans->idx < min->idx) { min = ans; } } if (min != cbk) { src = (which == EC_COMBINE_XDATA) ? min->xdata : min->dict; dst = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; data = dict_get(src, key); if (data == NULL) { return -1; } if (dict_set(dst, key, data) != 0) { return -1; } } return 0; } int32_t ec_dict_data_max32(ec_cbk_data_t *cbk, int32_t which, char *key) { data_t * data[cbk->count]; dict_t * dict; int32_t i, num; uint32_t max, tmp; num = cbk->count; if (!ec_dict_list(data, &num, cbk, which, key)) { return -1; } if (num <= 1) { return 0; } max = data_to_uint32(data[0]); for (i = 1; i < num; i++) { tmp = data_to_uint32(data[i]); if (max < tmp) { max = tmp; } } dict = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; if (dict_set_uint32(dict, key, max) != 0) { return -1; } return 0; } int32_t ec_dict_data_max64(ec_cbk_data_t *cbk, int32_t which, char *key) { data_t *data[cbk->count]; dict_t *dict; int32_t i, num; uint64_t max, tmp; num = cbk->count; if (!ec_dict_list(data, &num, cbk, which, key)) { return -1; } if (num <= 1) { return 0; } max = data_to_uint64(data[0]); for (i = 1; i < num; i++) { tmp = data_to_uint64(data[i]); if (max < tmp) { max = tmp; } } dict = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; if (dict_set_uint64(dict, key, max) != 0) { return -1; } return 0; } int32_t ec_dict_data_quota(ec_cbk_data_t *cbk, int32_t which, char *key) { data_t *data[cbk->count]; dict_t *dict; ec_t *ec; int32_t i, num; uint64_t max, tmp; num = cbk->count; if (!ec_dict_list(data, &num, cbk, which, key)) { return -1; } if (num == 0) { return 0; } /* Quota size xattr is managed outside of the control of the ec xlator. * This means that it might not be updated at the same time on all * bricks and we can receive slightly different values. If that's the * case, we take the maximum of all received values. */ max = ntoh64(*(uint64_t *)data_to_ptr(data[0])); for (i = 1; i < num; i++) { tmp = ntoh64(*(uint64_t *)data_to_ptr(data[i])); if (max < tmp) { max = tmp; } } ec = cbk->fop->xl->private; max *= ec->fragments; dict = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; if (ec_dict_set_number(dict, key, max) != 0) { return -1; } return 0; } int32_t ec_dict_data_stime(ec_cbk_data_t * cbk, int32_t which, char * key) { data_t * data[cbk->count]; dict_t * dict; int32_t i, num; num = cbk->count; if (!ec_dict_list(data, &num, cbk, which, key)) { return -1; } dict = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; for (i = 1; i < num; i++) { if (gf_get_max_stime(cbk->fop->xl, dict, key, data[i]) != 0) { gf_log(cbk->fop->xl->name, GF_LOG_ERROR, "STIME combination " "failed"); return -1; } } return 0; } int32_t ec_dict_data_combine(dict_t * dict, char * key, data_t * value, void * arg) { ec_dict_combine_t * data = arg; if ((strcmp(key, GF_XATTR_PATHINFO_KEY) == 0) || (strcmp(key, GF_XATTR_USER_PATHINFO_KEY) == 0)) { return ec_dict_data_concat("( { })", data->cbk, data->which, key, data->cbk->fop->xl->name); } if (strncmp(key, GF_XATTR_CLRLK_CMD, strlen(GF_XATTR_CLRLK_CMD)) == 0) { return ec_dict_data_concat("{\n}", data->cbk, data->which, key); } if (strncmp(key, GF_XATTR_LOCKINFO_KEY, strlen(GF_XATTR_LOCKINFO_KEY)) == 0) { return ec_dict_data_merge(data->cbk, data->which, key); } if (strcmp(key, GLUSTERFS_OPEN_FD_COUNT) == 0) { return ec_dict_data_max32(data->cbk, data->which, key); } if (strcmp(key, QUOTA_SIZE_KEY) == 0) { return ec_dict_data_quota(data->cbk, data->which, key); } /* Ignore all other quota attributes */ if (strncmp(key, EC_QUOTA_PREFIX, strlen(EC_QUOTA_PREFIX)) == 0) { return 0; } if (XATTR_IS_NODE_UUID(key)) { return ec_dict_data_uuid(data->cbk, data->which, key); } if (fnmatch(GF_XATTR_STIME_PATTERN, key, FNM_NOESCAPE) == 0) { return ec_dict_data_stime(data->cbk, data->which, key); } if (fnmatch(MARKER_XATTR_PREFIX ".*." XTIME, key, FNM_NOESCAPE) == 0) { return ec_dict_data_max64(data->cbk, data->which, key); } return 0; } int32_t ec_dict_combine(ec_cbk_data_t * cbk, int32_t which) { dict_t * dict; ec_dict_combine_t data; data.cbk = cbk; data.which = which; dict = (which == EC_COMBINE_XDATA) ? cbk->xdata : cbk->dict; if ((dict != NULL) && (dict_foreach(dict, ec_dict_data_combine, &data) != 0)) { gf_log(cbk->fop->xl->name, GF_LOG_ERROR, "Dictionary combination " "failed"); return 0; } return 1; } int32_t ec_vector_compare(struct iovec * dst_vector, int32_t dst_count, struct iovec * src_vector, int32_t src_count) { int32_t dst_size = 0, src_size = 0; if (dst_count > 0) { dst_size = iov_length(dst_vector, dst_count); } if (src_count > 0) { src_size = iov_length(src_vector, src_count); } return (dst_size == src_size); } int32_t ec_flock_compare(struct gf_flock * dst, struct gf_flock * src) { if ((dst->l_type != src->l_type) || (dst->l_whence != src->l_whence) || (dst->l_start != src->l_start) || (dst->l_len != src->l_len) || (dst->l_pid != src->l_pid) || !is_same_lkowner(&dst->l_owner, &src->l_owner)) { return 0; } return 1; } void ec_statvfs_combine(struct statvfs * dst, struct statvfs * src) { if (dst->f_bsize < src->f_bsize) { dst->f_bsize = src->f_bsize; } if (dst->f_frsize < src->f_frsize) { dst->f_blocks *= dst->f_frsize; dst->f_blocks /= src->f_frsize; dst->f_bfree *= dst->f_frsize; dst->f_bfree /= src->f_frsize; dst->f_bavail *= dst->f_frsize; dst->f_bavail /= src->f_frsize; dst->f_frsize = src->f_frsize; } else if (dst->f_frsize > src->f_frsize) { src->f_blocks *= src->f_frsize; src->f_blocks /= dst->f_frsize; src->f_bfree *= src->f_frsize; src->f_bfree /= dst->f_frsize; src->f_bavail *= src->f_frsize; src->f_bavail /= dst->f_frsize; } if (dst->f_blocks > src->f_blocks) { dst->f_blocks = src->f_blocks; } if (dst->f_bfree > src->f_bfree) { dst->f_bfree = src->f_bfree; } if (dst->f_bavail > src->f_bavail) { dst->f_bavail = src->f_bavail; } if (dst->f_files < src->f_files) { dst->f_files = src->f_files; } if (dst->f_ffree > src->f_ffree) { dst->f_ffree = src->f_ffree; } if (dst->f_favail > src->f_favail) { dst->f_favail = src->f_favail; } if (dst->f_namemax > src->f_namemax) { dst->f_namemax = src->f_namemax; } if (dst->f_flag != src->f_flag) { gf_log(THIS->name, GF_LOG_DEBUG, "Mismatching file system flags " "(%lX, %lX)", dst->f_flag, src->f_flag); } dst->f_flag &= src->f_flag; } int32_t ec_combine_check(ec_cbk_data_t * dst, ec_cbk_data_t * src, ec_combine_f combine) { ec_fop_data_t * fop = dst->fop; if (dst->op_ret != src->op_ret) { gf_log(fop->xl->name, GF_LOG_DEBUG, "Mismatching return code in " "answers of '%s': %d <-> %d", ec_fop_name(fop->id), dst->op_ret, src->op_ret); return 0; } if (dst->op_ret < 0) { if (dst->op_errno != src->op_errno) { gf_log(fop->xl->name, GF_LOG_DEBUG, "Mismatching errno code in " "answers of '%s': %d <-> %d", ec_fop_name(fop->id), dst->op_errno, src->op_errno); return 0; } } if (!ec_dict_compare(dst->xdata, src->xdata)) { gf_log(fop->xl->name, GF_LOG_WARNING, "Mismatching xdata in answers " "of '%s'", ec_fop_name(fop->id)); return 0; } if ((dst->op_ret >= 0) && (combine != NULL)) { return combine(fop, dst, src); } return 1; } void ec_combine(ec_cbk_data_t * cbk, ec_combine_f combine) { ec_fop_data_t * fop = cbk->fop; ec_cbk_data_t * ans = NULL, * tmp = NULL; struct list_head * item = NULL; int32_t needed = 0, resume = 0; char str[32]; LOCK(&fop->lock); item = fop->cbk_list.prev; list_for_each_entry(ans, &fop->cbk_list, list) { if (ec_combine_check(cbk, ans, combine)) { cbk->count += ans->count; cbk->mask |= ans->mask; item = ans->list.prev; while (item != &fop->cbk_list) { tmp = list_entry(item, ec_cbk_data_t, list); if (tmp->count >= cbk->count) { break; } item = item->prev; } list_del(&ans->list); cbk->next = ans; break; } } list_add(&cbk->list, item); ec_trace("ANSWER", fop, "combine=%s[%d]", ec_bin(str, sizeof(str), cbk->mask, 0), cbk->count); if ((cbk->count == fop->expected) && (fop->answer == NULL)) { fop->answer = cbk; resume = 1; } ans = list_entry(fop->cbk_list.next, ec_cbk_data_t, list); needed = fop->minimum - ans->count - fop->winds + 1; UNLOCK(&fop->lock); if (needed > 0) { ec_dispatch_next(fop, cbk->idx); } else if (resume) { ec_update_bad(fop, cbk->mask); ec_resume(fop, 0); } }