int zprop_index_to_string(int prop, uint64_t index, const char **string, zfs_type_t type) { zprop_desc_t *prop_tbl; const zprop_index_t *idx_tbl; int i; if (prop == ZPROP_INVAL || prop == ZPROP_CONT) return (-1); ASSERT(prop < zprop_get_numprops(type)); prop_tbl = zprop_get_proptable(type); if ((idx_tbl = prop_tbl[prop].pd_table) == NULL) return (-1); for (i = 0; idx_tbl[i].pi_name != NULL; i++) { if (idx_tbl[i].pi_value == index) { *string = idx_tbl[i].pi_name; return (0); } } return (-1); }
void zprop_register_impl(int prop, const char *name, zprop_type_t type, uint64_t numdefault, const char *strdefault, zprop_attr_t attr, int objset_types, const char *values, const char *colname, boolean_t rightalign, boolean_t visible, const zprop_index_t *idx_tbl) { zprop_desc_t *prop_tbl = zprop_get_proptable(objset_types); zprop_desc_t *pd; pd = &prop_tbl[prop]; ASSERT(pd->pd_name == NULL || pd->pd_name == name); ASSERT(name != NULL); ASSERT(colname != NULL); pd->pd_name = name; pd->pd_propnum = prop; pd->pd_proptype = type; pd->pd_numdefault = numdefault; pd->pd_strdefault = strdefault; pd->pd_attr = attr; pd->pd_types = objset_types; pd->pd_values = values; pd->pd_colname = colname; pd->pd_rightalign = rightalign; pd->pd_visible = visible; pd->pd_table = idx_tbl; pd->pd_table_size = 0; while (idx_tbl && (idx_tbl++)->pi_name != NULL) pd->pd_table_size++; }
/* * Determines the minimum width for the column, and indicates whether it's fixed * or not. Only string columns are non-fixed. */ size_t zprop_width(int prop, boolean_t *fixed, zfs_type_t type) { zprop_desc_t *prop_tbl, *pd; const zprop_index_t *idx; size_t ret; int i; ASSERT(prop != ZPROP_INVAL && prop != ZPROP_CONT); ASSERT(prop < zprop_get_numprops(type)); prop_tbl = zprop_get_proptable(type); pd = &prop_tbl[prop]; *fixed = B_TRUE; /* * Start with the width of the column name. */ ret = strlen(pd->pd_colname); /* * For fixed-width values, make sure the width is large enough to hold * any possible value. */ switch (pd->pd_proptype) { case PROP_TYPE_NUMBER: /* * The maximum length of a human-readable number is 5 characters * ("20.4M", for example). */ if (ret < 5) ret = 5; /* * 'creation' is handled specially because it's a number * internally, but displayed as a date string. */ if (prop == ZFS_PROP_CREATION) *fixed = B_FALSE; break; case PROP_TYPE_INDEX: idx = prop_tbl[prop].pd_table; for (i = 0; idx[i].pi_name != NULL; i++) { if (strlen(idx[i].pi_name) > ret) ret = strlen(idx[i].pi_name); } break; case PROP_TYPE_STRING: *fixed = B_FALSE; break; } return (ret); }
/* * Returns TRUE if the property applies to any of the given dataset types. */ boolean_t zprop_valid_for_type(int prop, zfs_type_t type) { zprop_desc_t *prop_tbl; if (prop == ZPROP_INVAL || prop == ZPROP_CONT) return (B_FALSE); ASSERT(prop < zprop_get_numprops(type)); prop_tbl = zprop_get_proptable(type); return ((prop_tbl[prop].pd_types & type) != 0); }
const char * zprop_values(int prop, zfs_type_t type) { zprop_desc_t *prop_tbl; ASSERT(prop != ZPROP_INVAL && prop != ZPROP_CONT); ASSERT(prop < zprop_get_numprops(type)); prop_tbl = zprop_get_proptable(type); return (prop_tbl[prop].pd_values); }
int zprop_name_to_prop(const char *propname, zfs_type_t type) { int prop; name_to_prop_cb_t cb_data; cb_data.propname = propname; cb_data.prop_tbl = zprop_get_proptable(type); prop = zprop_iter_common(zprop_name_to_prop_cb, &cb_data, B_TRUE, B_FALSE, type); return (prop == ZPROP_CONT ? ZPROP_INVAL : prop); }
/* * Returns TRUE if the property applies to any of the given dataset types. * * If headcheck is set, the check is being made against the head dataset * type of a snapshot which requires to return B_TRUE when the property * is only valid for snapshots. */ boolean_t zprop_valid_for_type(int prop, zfs_type_t type, boolean_t headcheck) { zprop_desc_t *prop_tbl; if (prop == ZPROP_INVAL || prop == ZPROP_CONT) return (B_FALSE); ASSERT(prop < zprop_get_numprops(type)); prop_tbl = zprop_get_proptable(type); if (headcheck && prop_tbl[prop].pd_types == ZFS_TYPE_SNAPSHOT) return (B_TRUE); return ((prop_tbl[prop].pd_types & type) != 0); }
/* * Return a random valid property value. Used by ztest. */ uint64_t zprop_random_value(int prop, uint64_t seed, zfs_type_t type) { zprop_desc_t *prop_tbl; const zprop_index_t *idx_tbl; ASSERT((uint_t)prop < zprop_get_numprops(type)); prop_tbl = zprop_get_proptable(type); idx_tbl = prop_tbl[prop].pd_table; if (idx_tbl == NULL) return (seed); return (idx_tbl[seed % prop_tbl[prop].pd_table_size].pi_value); }
/* * Iterate over all properties in the given property table, calling back * into the specified function for each property. We will continue to * iterate until we either reach the end or the callback function returns * something other than ZPROP_CONT. */ int zprop_iter_common(zprop_func func, void *cb, boolean_t show_all, boolean_t ordered, zfs_type_t type) { int i, j, num_props, size, prop; zprop_desc_t *prop_tbl; zprop_desc_t **order; prop_tbl = zprop_get_proptable(type); num_props = zprop_get_numprops(type); size = num_props * sizeof (zprop_desc_t *); #if defined(_KERNEL) order = kmem_alloc(size, KM_PUSHPAGE); #else if ((order = malloc(size)) == NULL) return (ZPROP_CONT); #endif for (j = 0; j < num_props; j++) order[j] = &prop_tbl[j]; if (ordered) { #ifndef _KERNEL qsort((void *)order, num_props, sizeof (zprop_desc_t *), zprop_compare); #endif } prop = ZPROP_CONT; for (i = 0; i < num_props; i++) { if ((order[i]->pd_visible || show_all) && (func(order[i]->pd_propnum, cb) != ZPROP_CONT)) { prop = order[i]->pd_propnum; break; } } #if defined(_KERNEL) kmem_free(order, size); #else free(order); #endif return (prop); }