/*
* types.c
*
* BabelTrace - Converter
*
* Types registry.
*
* Copyright 2010-2011 EfficiOS Inc. and Linux Foundation
*
* Author: Mathieu Desnoyers <mathieu.desnoyers@efficios.com>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
* SOFTWARE.
*/
#include <babeltrace/format.h>
#include <babeltrace/babeltrace-internal.h>
#include <babeltrace/types.h>
#include <limits.h>
#include <glib.h>
#include <errno.h>
static
GQuark prefix_quark(const char *prefix, GQuark quark)
{
GQuark nq;
GString *str;
char *quark_str;
str = g_string_new(prefix);
g_string_append(str, g_quark_to_string(quark));
quark_str = g_string_free(str, FALSE);
nq = g_quark_from_string(quark_str);
g_free(quark_str);
return nq;
}
static
struct bt_declaration *
bt_lookup_declaration_scope(GQuark declaration_name,
struct declaration_scope *scope)
{
return g_hash_table_lookup(scope->typedef_declarations,
(gconstpointer) (unsigned long) declaration_name);
}
struct bt_declaration *bt_lookup_declaration(GQuark declaration_name,
struct declaration_scope *scope)
{
struct bt_declaration *declaration;
while (scope) {
declaration = bt_lookup_declaration_scope(declaration_name,
scope);
if (declaration)
return declaration;
scope = scope->parent_scope;
}
return NULL;
}
int bt_register_declaration(GQuark name, struct bt_declaration *declaration,
struct declaration_scope *scope)
{
if (!name)
return -EPERM;
/* Only lookup in local scope */
if (bt_lookup_declaration_scope(name, scope))
return -EEXIST;
g_hash_table_insert(scope->typedef_declarations,
(gpointer) (unsigned long) name,
declaration);
bt_declaration_ref(declaration);
return 0;
}
static
struct bt_definition *
lookup_field_definition_scope(GQuark field_name,
struct definition_scope *scope)
{
return g_hash_table_lookup(scope->definitions,
(gconstpointer) (unsigned long) field_name);
}
/*
* Returns the index at which the paths differ.
* If the value returned equals len, it means the paths are identical
* from index 0 to len-1.
*/
static int compare_paths(GArray *a, GArray *b, int len)
{
int i;
assert(len <= a->len);
assert(len <= b->len);
for (i = 0; i < len; i++) {
GQuark qa, qb;
qa = g_array_index(a, GQuark, i);
qb = g_array_index(b, GQuark, i);
if (qa != qb)
return i;
}
return i;
}
static int is_path_child_of(GArray *path, GArray *maybe_parent)
{
int ret;
if (babeltrace_debug) {
int i, need_dot = 0;
printf_debug("Is path \"");
for (i = 0; i < path->len; need_dot = 1, i++)
printf("%s%s", need_dot ? "." : "",
g_quark_to_string(g_array_index(path, GQuark, i)));
need_dot = 0;
printf("\" child of \"");
for (i = 0; i < maybe_parent->len; need_dot = 1, i++)
printf("%s%s", need_dot ? "." : "",
g_quark_to_string(g_array_index(maybe_parent, GQuark, i)));
printf("\" ? ");
}
if (path->len <= maybe_parent->len) {
ret = 0;
goto end;
}
if (compare_paths(path, maybe_parent, maybe_parent->len)
== maybe_parent->len)
ret = 1;
else
ret = 0;
end:
if (babeltrace_debug)
printf("%s\n", ret ? "Yes" : "No");
return ret;
}
static struct definition_scope *
get_definition_scope(const struct bt_definition *definition)
{
return definition->scope;
}
/*
* OK, here is the fun. We want to lookup a field that is:
* - either in the same dynamic scope:
* - either in the current scope, but prior to the current field.
* - or in a parent scope (or parent of parent ...) still in a field
* prior to the current field position within the parents.
* - or in a different dynamic scope:
* - either in a upper dynamic scope (walk down a targeted scope from
* the dynamic scope root)
* - or in a lower dynamic scope (failure)
* The dynamic scope roots are linked together, so we can access the
* parent dynamic scope from the child dynamic scope by walking up to
* the parent.
* If we cannot find such a field that is prior to our current path, we
* return NULL.
*
* cur_path: the path leading to the variant definition.
* lookup_path: the path leading to the enum we want to look for.
* scope: the definition scope containing the variant definition.
*/
struct bt_definition *
bt_lookup_path_definition(GArray *cur_path,
GArray *lookup_path,
struct definition_scope *scope)
{
struct bt_definition *definition, *lookup_definition;
GQuark last;
int index;
/* Going up in the hierarchy. Check where we come from. */
assert(is_path_child_of(cur_path, scope->scope_path));
assert(cur_path->len - scope->scope_path->len == 1);
/*
* First, check if the target name is size one, present in
* our parent path, located prior to us.
*/
if (lookup_path->len == 1) {
last = g_array_index(lookup_path, GQuark, 0);
lookup_definition = lookup_field_definition_scope(last, scope);
last = g_array_index(cur_path, GQuark, cur_path->len - 1);
definition = lookup_field_definition_scope(last, scope);
assert(definition);
if (lookup_definition && lookup_definition->index < definition->index)
return lookup_definition;
else
return NULL;
}
while (scope) {
if (is_path_child_of(cur_path, scope->scope_path) &&
cur_path->len - scope->scope_path->len == 1) {
last = g_array_index(cur_path, GQuark, cur_path->len - 1);
definition = lookup_field_definition_scope(last, scope);
assert(definition);
index = definition->index;
} else {
/*
* Getting to a dynamic scope parent. We are
* guaranteed that the parent is entirely
* located before the child.
*/
index = -1;
}
lookup:
if (is_path_child_of(lookup_path, scope->scope_path)) {
/* Means we can lookup the field in this scope */
last = g_array_index(lookup_path, GQuark,
scope->scope_path->len);
lookup_definition = lookup_field_definition_scope(last, scope);
if (!lookup_definition || ((index != -1) && lookup_definition->index >= index))
return NULL;
/* Found it! And it is prior to the current field. */
if (lookup_path->len - scope->scope_path->len == 1) {
/* Direct child */
return lookup_definition;
} else {
scope = get_definition_scope(lookup_definition);
/* Check if the definition has a sub-scope */
if (!scope)
return NULL;
/*
* Don't compare index anymore, because we are
* going within a scope that has been validated
* to be entirely prior to the current scope.
*/
cur_path = NULL;
index = -1;
goto lookup;
}
} else {
/* lookup_path is within an upper scope */
cur_path = scope->scope_path;
scope = scope->parent_scope;
}
}
return NULL;
}
int bt_register_field_definition(GQuark field_name, struct bt_definition *definition,
struct definition_scope *scope)
{
if (!scope || !field_name)
return -EPERM;
/* Only lookup in local scope */
if (lookup_field_definition_scope(field_name, scope))
return -EEXIST;
g_hash_table_insert(scope->definitions,
(gpointer) (unsigned long) field_name,
definition);
/* Don't keep reference on definition */
return 0;
}
void bt_declaration_ref(struct bt_declaration *declaration)
{
declaration->ref++;
}
void bt_declaration_unref(struct bt_declaration *declaration)
{
if (!declaration)
return;
if (!--declaration->ref)
declaration->declaration_free(declaration);
}
void bt_definition_ref(struct bt_definition *definition)
{
definition->ref++;
}
void bt_definition_unref(struct bt_definition *definition)
{
if (!definition)
return;
if (!--definition->ref)
definition->declaration->definition_free(definition);
}
struct declaration_scope *
bt_new_declaration_scope(struct declaration_scope *parent_scope)
{
struct declaration_scope *scope = g_new(struct declaration_scope, 1);
scope->typedef_declarations = g_hash_table_new_full(g_direct_hash,
g_direct_equal, NULL,
(GDestroyNotify) bt_declaration_unref);
scope->struct_declarations = g_hash_table_new_full(g_direct_hash,
g_direct_equal, NULL,
(GDestroyNotify) bt_declaration_unref);
scope->variant_declarations = g_hash_table_new_full(g_direct_hash,
g_direct_equal, NULL,
(GDestroyNotify) bt_declaration_unref);
scope->enum_declarations = g_hash_table_new_full(g_direct_hash,
g_direct_equal, NULL,
(GDestroyNotify) bt_declaration_unref);
scope->parent_scope = parent_scope;
return scope;
}
void bt_free_declaration_scope(struct declaration_scope *scope)
{
g_hash_table_destroy(scope->enum_declarations);
g_hash_table_destroy(scope->variant_declarations);
g_hash_table_destroy(scope->struct_declarations);
g_hash_table_destroy(scope->typedef_declarations);
g_free(scope);
}
static
struct declaration_struct *bt_lookup_struct_declaration_scope(GQuark struct_name,
struct declaration_scope *scope)
{
return g_hash_table_lookup(scope->struct_declarations,
(gconstpointer) (unsigned long) struct_name);
}
struct declaration_struct *bt_lookup_struct_declaration(GQuark struct_name,
struct declaration_scope *scope)
{
struct declaration_struct *declaration;
while (scope) {
declaration = bt_lookup_struct_declaration_scope(struct_name, scope);
if (declaration)
return declaration;
scope = scope->parent_scope;
}
return NULL;
}
int bt_register_struct_declaration(GQuark struct_name,
struct declaration_struct *struct_declaration,
struct declaration_scope *scope)
{
GQuark prefix_name;
int ret;
if (!struct_name)
return -EPERM;
/* Only lookup in local scope */
if (bt_lookup_struct_declaration_scope(struct_name, scope))
return -EEXIST;
g_hash_table_insert(scope->struct_declarations,
(gpointer) (unsigned long) struct_name,
struct_declaration);
bt_declaration_ref(&struct_declaration->p);
/* Also add in typedef/typealias scopes */
prefix_name = prefix_quark("struct ", struct_name);
ret = bt_register_declaration(prefix_name, &struct_declaration->p, scope);
assert(!ret);
return 0;
}
static
struct declaration_untagged_variant *
bt_lookup_variant_declaration_scope(GQuark variant_name,
struct declaration_scope *scope)
{
return g_hash_table_lookup(scope->variant_declarations,
(gconstpointer) (unsigned long) variant_name);
}
struct declaration_untagged_variant *
bt_lookup_variant_declaration(GQuark variant_name,
struct declaration_scope *scope)
{
struct declaration_untagged_variant *declaration;
while (scope) {
declaration = bt_lookup_variant_declaration_scope(variant_name, scope);
if (declaration)
return declaration;
scope = scope->parent_scope;
}
return NULL;
}
int bt_register_variant_declaration(GQuark variant_name,
struct declaration_untagged_variant *untagged_variant_declaration,
struct declaration_scope *scope)
{
GQuark prefix_name;
int ret;
if (!variant_name)
return -EPERM;
/* Only lookup in local scope */
if (bt_lookup_variant_declaration_scope(variant_name, scope))
return -EEXIST;
g_hash_table_insert(scope->variant_declarations,
(gpointer) (unsigned long) variant_name,
untagged_variant_declaration);
bt_declaration_ref(&untagged_variant_declaration->p);
/* Also add in typedef/typealias scopes */
prefix_name = prefix_quark("variant ", variant_name);
ret = bt_register_declaration(prefix_name,
&untagged_variant_declaration->p, scope);
assert(!ret);
return 0;
}
static
struct declaration_enum *
bt_lookup_enum_declaration_scope(GQuark enum_name,
struct declaration_scope *scope)
{
return g_hash_table_lookup(scope->enum_declarations,
(gconstpointer) (unsigned long) enum_name);
}
struct declaration_enum *
bt_lookup_enum_declaration(GQuark enum_name,
struct declaration_scope *scope)
{
struct declaration_enum *declaration;
while (scope) {
declaration = bt_lookup_enum_declaration_scope(enum_name, scope);
if (declaration)
return declaration;
scope = scope->parent_scope;
}
return NULL;
}
int bt_register_enum_declaration(GQuark enum_name,
struct declaration_enum *enum_declaration,
struct declaration_scope *scope)
{
GQuark prefix_name;
int ret;
if (!enum_name)
return -EPERM;
/* Only lookup in local scope */
if (bt_lookup_enum_declaration_scope(enum_name, scope))
return -EEXIST;
g_hash_table_insert(scope->enum_declarations,
(gpointer) (unsigned long) enum_name,
enum_declaration);
bt_declaration_ref(&enum_declaration->p);
/* Also add in typedef/typealias scopes */
prefix_name = prefix_quark("enum ", enum_name);
ret = bt_register_declaration(prefix_name, &enum_declaration->p, scope);
assert(!ret);
return 0;
}
static struct definition_scope *
_bt_new_definition_scope(struct definition_scope *parent_scope,
int scope_path_len)
{
struct definition_scope *scope = g_new(struct definition_scope, 1);
scope->definitions = g_hash_table_new(g_direct_hash,
g_direct_equal);
scope->parent_scope = parent_scope;
scope->scope_path = g_array_sized_new(FALSE, TRUE, sizeof(GQuark),
scope_path_len);
g_array_set_size(scope->scope_path, scope_path_len);
return scope;
}
GQuark bt_new_definition_path(struct definition_scope *parent_scope,
GQuark field_name, const char *root_name)
{
GQuark path;
GString *str;
gchar *c_str;
int need_dot = 0;
str = g_string_new("");
if (root_name) {
g_string_append(str, root_name);
need_dot = 1;
} else if (parent_scope) {
int i;
for (i = 0; i < parent_scope->scope_path->len; i++) {
GQuark q = g_array_index(parent_scope->scope_path,
GQuark, i);
if (!q)
continue;
if (need_dot)
g_string_append(str, ".");
g_string_append(str, g_quark_to_string(q));
need_dot = 1;
}
}
if (field_name) {
if (need_dot)
g_string_append(str, ".");
g_string_append(str, g_quark_to_string(field_name));
}
c_str = g_string_free(str, FALSE);
if (c_str[0] == '\0')
return 0;
path = g_quark_from_string(c_str);
printf_debug("new definition path: %s\n", c_str);
g_free(c_str);
return path;
}
struct definition_scope *
bt_new_definition_scope(struct definition_scope *parent_scope,
GQuark field_name, const char *root_name)
{
struct definition_scope *scope;
if (root_name) {
scope = _bt_new_definition_scope(parent_scope, 0);
bt_append_scope_path(root_name, scope->scope_path);
} else {
int scope_path_len = 1;
assert(parent_scope);
scope_path_len += parent_scope->scope_path->len;
scope = _bt_new_definition_scope(parent_scope, scope_path_len);
memcpy(scope->scope_path->data, parent_scope->scope_path->data,
sizeof(GQuark) * (scope_path_len - 1));
g_array_index(scope->scope_path, GQuark, scope_path_len - 1) =
field_name;
}
if (babeltrace_debug) {
int i, need_dot = 0;
printf_debug("new definition scope: ");
for (i = 0; i < scope->scope_path->len; need_dot = 1, i++)
printf("%s%s", need_dot ? "." : "",
g_quark_to_string(g_array_index(scope->scope_path, GQuark, i)));
printf("\n");
}
return scope;
}
/*
* in: path (dot separated), out: q (GArray of GQuark)
*/
void bt_append_scope_path(const char *path, GArray *q)
{
const char *ptrbegin, *ptrend = path;
GQuark quark;
for (;;) {
char *str;
size_t len;
ptrbegin = ptrend;
ptrend = strchr(ptrbegin, '.');
if (!ptrend)
break;
len = ptrend - ptrbegin;
/* Don't accept two consecutive dots */
assert(len != 0);
str = g_new(char, len + 1); /* include \0 */
memcpy(str, ptrbegin, len);
str[len] = '\0';
quark = g_quark_from_string(str);
g_array_append_val(q, quark);
g_free(str);
ptrend++; /* skip current dot */
}
/* last. Check for trailing dot (and discard). */
if (ptrbegin[0] != '\0') {
quark = g_quark_from_string(ptrbegin);
g_array_append_val(q, quark);
}
}
void bt_free_definition_scope(struct definition_scope *scope)
{
g_array_free(scope->scope_path, TRUE);
g_hash_table_destroy(scope->definitions);
g_free(scope);
}
struct bt_definition *bt_lookup_definition(const struct bt_definition *definition,
const char *field_name)
{
struct definition_scope *scope = get_definition_scope(definition);
if (!scope)
return NULL;
return lookup_field_definition_scope(g_quark_from_string(field_name),
scope);
}
struct definition_integer *bt_lookup_integer(const struct bt_definition *definition,
const char *field_name,
int signedness)
{
struct bt_definition *lookup;
struct definition_integer *lookup_integer;
lookup = bt_lookup_definition(definition, field_name);
if (!lookup)
return NULL;
if (lookup->declaration->id != CTF_TYPE_INTEGER)
return NULL;
lookup_integer = container_of(lookup, struct definition_integer, p);
if (lookup_integer->declaration->signedness != signedness)
return NULL;
return lookup_integer;
}
struct definition_enum *bt_lookup_enum(const struct bt_definition *definition,
const char *field_name,
int signedness)
{
struct bt_definition *lookup;
struct definition_enum *lookup_enum;
lookup = bt_lookup_definition(definition, field_name);
if (!lookup)
return NULL;
if (lookup->declaration->id != CTF_TYPE_ENUM)
return NULL;
lookup_enum = container_of(lookup, struct definition_enum, p);
if (lookup_enum->integer->declaration->signedness != signedness)
return NULL;
return lookup_enum;
}
struct bt_definition *bt_lookup_variant(const struct bt_definition *definition,
const char *field_name)
{
struct bt_definition *lookup;
struct definition_variant *bt_lookup_variant;
lookup = bt_lookup_definition(definition, field_name);
if (!lookup)
return NULL;
if (lookup->declaration->id != CTF_TYPE_VARIANT)
return NULL;
bt_lookup_variant = container_of(lookup, struct definition_variant, p);
lookup = bt_variant_get_current_field(bt_lookup_variant);
assert(lookup);
return lookup;
}