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#include "session_record.h"
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "session_state.h"
#include "utlist.h"
#include "LocalStorageProtocol.pb-c.h"
#include "signal_protocol_internal.h"
#define ARCHIVED_STATES_MAX_LENGTH 40
struct session_record_state_node
{
session_state *state;
struct session_record_state_node *prev, *next;
};
struct session_record
{
signal_type_base base;
session_state *state;
session_record_state_node *previous_states_head;
int is_fresh;
signal_context *global_context;
};
static void session_record_free_previous_states(session_record *record);
int session_record_create(session_record **record, session_state *state, signal_context *global_context)
{
session_record *result = malloc(sizeof(session_record));
if(!result) {
return SG_ERR_NOMEM;
}
memset(result, 0, sizeof(session_record));
SIGNAL_INIT(result, session_record_destroy);
if(!state) {
int ret = session_state_create(&result->state, global_context);
if(ret < 0) {
SIGNAL_UNREF(result);
return ret;
}
result->is_fresh = 1;
}
else {
SIGNAL_REF(state);
result->state = state;
result->is_fresh = 0;
}
result->global_context = global_context;
*record = result;
return 0;
}
int session_record_serialize(signal_buffer **buffer, const session_record *record)
{
int result = 0;
size_t result_size = 0;
unsigned int i = 0;
Textsecure__RecordStructure record_structure = TEXTSECURE__RECORD_STRUCTURE__INIT;
session_record_state_node *cur_node = 0;
signal_buffer *result_buf = 0;
size_t len = 0;
uint8_t *data = 0;
if(!record) {
result = SG_ERR_INVAL;
goto complete;
}
if(record->state) {
record_structure.currentsession = malloc(sizeof(Textsecure__SessionStructure));
if(!record_structure.currentsession) {
result = SG_ERR_NOMEM;
goto complete;
}
textsecure__session_structure__init(record_structure.currentsession);
result = session_state_serialize_prepare(record->state, record_structure.currentsession);
if(result < 0) {
goto complete;
}
}
if(record->previous_states_head) {
size_t count;
DL_COUNT(record->previous_states_head, cur_node, count);
if(count > SIZE_MAX / sizeof(Textsecure__SessionStructure *)) {
result = SG_ERR_NOMEM;
goto complete;
}
record_structure.previoussessions = malloc(sizeof(Textsecure__SessionStructure *) * count);
if(!record_structure.previoussessions) {
result = SG_ERR_NOMEM;
goto complete;
}
i = 0;
DL_FOREACH(record->previous_states_head, cur_node) {
record_structure.previoussessions[i] = malloc(sizeof(Textsecure__SessionStructure));
if(!record_structure.previoussessions[i]) {
result = SG_ERR_NOMEM;
break;
}
textsecure__session_structure__init(record_structure.previoussessions[i]);
result = session_state_serialize_prepare(cur_node->state, record_structure.previoussessions[i]);
if(result < 0) {
break;
}
i++;
}
record_structure.n_previoussessions = i;
if(result < 0) {
goto complete;
}
}
len = textsecure__record_structure__get_packed_size(&record_structure);
result_buf = signal_buffer_alloc(len);
if(!result_buf) {
result = SG_ERR_NOMEM;
goto complete;
}
data = signal_buffer_data(result_buf);
result_size = textsecure__record_structure__pack(&record_structure, data);
if(result_size != len) {
signal_buffer_free(result_buf);
result = SG_ERR_INVALID_PROTO_BUF;
result_buf = 0;
goto complete;
}
complete:
if(record_structure.currentsession) {
session_state_serialize_prepare_free(record_structure.currentsession);
}
if(record_structure.previoussessions) {
for(i = 0; i < record_structure.n_previoussessions; i++) {
if(record_structure.previoussessions[i]) {
session_state_serialize_prepare_free(record_structure.previoussessions[i]);
}
}
free(record_structure.previoussessions);
}
if(result >= 0) {
*buffer = result_buf;
}
return result;
}
int session_record_deserialize(session_record **record, const uint8_t *data, size_t len, signal_context *global_context)
{
int result = 0;
session_record *result_record = 0;
session_state *current_state = 0;
session_record_state_node *previous_states_head = 0;
Textsecure__RecordStructure *record_structure = 0;
record_structure = textsecure__record_structure__unpack(0, len, data);
if(!record_structure) {
result = SG_ERR_INVALID_PROTO_BUF;
goto complete;
}
if(record_structure->currentsession) {
result = session_state_deserialize_protobuf(¤t_state, record_structure->currentsession, global_context);
if(result < 0) {
goto complete;
}
}
result = session_record_create(&result_record, current_state, global_context);
if(result < 0) {
goto complete;
}
SIGNAL_UNREF(current_state);
current_state = 0;
result_record->is_fresh = 0;
if(record_structure->n_previoussessions > 0) {
unsigned int i;
for(i = 0; i < record_structure->n_previoussessions; i++) {
Textsecure__SessionStructure *session_structure =
record_structure->previoussessions[i];
session_record_state_node *node = malloc(sizeof(session_record_state_node));
if(!node) {
result = SG_ERR_NOMEM;
goto complete;
}
result = session_state_deserialize_protobuf(&node->state, session_structure, global_context);
if(result < 0) {
free(node);
goto complete;
}
DL_APPEND(previous_states_head, node);
}
}
result_record->previous_states_head = previous_states_head;
previous_states_head = 0;
complete:
if(record_structure) {
textsecure__record_structure__free_unpacked(record_structure, 0);
}
if(current_state) {
SIGNAL_UNREF(current_state);
}
if(previous_states_head) {
session_record_state_node *cur_node;
session_record_state_node *tmp_node;
DL_FOREACH_SAFE(previous_states_head, cur_node, tmp_node) {
DL_DELETE(previous_states_head, cur_node);
free(cur_node);
}
}
if(result_record) {
if(result < 0) {
SIGNAL_UNREF(result_record);
}
else {
*record = result_record;
}
}
return result;
}
int session_record_copy(session_record **record, session_record *other_record, signal_context *global_context)
{
int result = 0;
signal_buffer *buffer = 0;
size_t len = 0;
uint8_t *data = 0;
assert(other_record);
assert(global_context);
result = session_record_serialize(&buffer, other_record);
if(result < 0) {
goto complete;
}
data = signal_buffer_data(buffer);
len = signal_buffer_len(buffer);
result = session_record_deserialize(record, data, len, global_context);
if(result < 0) {
goto complete;
}
complete:
if(buffer) {
signal_buffer_free(buffer);
}
return result;
}
int session_record_has_session_state(session_record *record, uint32_t version, const ec_public_key *alice_base_key)
{
session_record_state_node *cur_node = 0;
assert(record);
assert(record->state);
if(session_state_get_session_version(record->state) == version &&
ec_public_key_compare(
session_state_get_alice_base_key(record->state),
alice_base_key) == 0) {
return 1;
}
DL_FOREACH(record->previous_states_head, cur_node) {
if(session_state_get_session_version(cur_node->state) == version &&
ec_public_key_compare(
session_state_get_alice_base_key(cur_node->state),
alice_base_key) == 0) {
return 1;
}
}
return 0;
}
session_state *session_record_get_state(session_record *record)
{
return record->state;
}
void session_record_set_state(session_record *record, session_state *state)
{
assert(record);
assert(state);
if(record->state) {
SIGNAL_UNREF(record->state);
}
SIGNAL_REF(state);
record->state = state;
}
session_record_state_node *session_record_get_previous_states_head(const session_record *record)
{
assert(record);
return record->previous_states_head;
}
session_state *session_record_get_previous_states_element(const session_record_state_node *node)
{
assert(node);
return node->state;
}
session_record_state_node *session_record_get_previous_states_next(const session_record_state_node *node)
{
assert(node);
return node->next;
}
session_record_state_node *session_record_get_previous_states_remove(session_record *record, session_record_state_node *node)
{
session_record_state_node *next_node = 0;
assert(record);
assert(node);
next_node = node->next;
DL_DELETE(record->previous_states_head, node);
SIGNAL_UNREF(node->state);
free(node);
return next_node;
}
int session_record_is_fresh(session_record *record)
{
assert(record);
return record->is_fresh;
}
int session_record_archive_current_state(session_record *record)
{
int result = 0;
session_state *new_state = 0;
assert(record);
result = session_state_create(&new_state, record->global_context);
if(result < 0) {
goto complete;
}
result = session_record_promote_state(record, new_state);
complete:
SIGNAL_UNREF(new_state);
return result;
}
int session_record_promote_state(session_record *record, session_state *promoted_state)
{
int count = 0;
session_record_state_node *cur_node = 0;
session_record_state_node *tmp_node = 0;
assert(record);
assert(promoted_state);
// Move the previously current state to the list of previous states
if(record->state) {
session_record_state_node *node = malloc(sizeof(session_record_state_node));
if(!node) {
return SG_ERR_NOMEM;
}
node->state = record->state;
DL_PREPEND(record->previous_states_head, node);
record->state = 0;
}
// Make the promoted state the current state
SIGNAL_REF(promoted_state);
record->state = promoted_state;
// Remove any previous nodes beyond the maximum length
DL_FOREACH_SAFE(record->previous_states_head, cur_node, tmp_node) {
count++;
if(count > ARCHIVED_STATES_MAX_LENGTH) {
DL_DELETE(record->previous_states_head, cur_node);
if(cur_node->state) {
SIGNAL_UNREF(cur_node->state);
}
free(cur_node);
}
}
return 0;
}
static void session_record_free_previous_states(session_record *record)
{
session_record_state_node *cur_node;
session_record_state_node *tmp_node;
DL_FOREACH_SAFE(record->previous_states_head, cur_node, tmp_node) {
DL_DELETE(record->previous_states_head, cur_node);
if(cur_node->state) {
SIGNAL_UNREF(cur_node->state);
}
free(cur_node);
}
record->previous_states_head = 0;
}
void session_record_destroy(signal_type_base *type)
{
session_record *record = (session_record *)type;
if(record->state) {
SIGNAL_UNREF(record->state);
}
session_record_free_previous_states(record);
free(record);
}
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