forked from Green-Sky/tomato
Green Sky
83e200df43
e29e185c03 feat: add ngc events 2b0dc0f46b add ngc related unpack functions b2315c50e0 Add groupchat API function that returns an IP address string for a peer 5f863a5492 feat: Add `to_string` functions for all public enums. 0c998a7598 add real timeout test 68c827609a chore: Move s390x build to post-merge. 028b017d79 perf: Slightly reduce bandwidth usage when there are few nodes. 90f7496819 feat: Enable ubsan on bootstrap nodes. 89b6450d66 test: Add check-c run to bazel build. REVERT: adbd5b32d8 feat: add ngc events git-subtree-dir: external/toxcore/c-toxcore git-subtree-split: e29e185c03fea7337036e5ef4d1d9080a6cee721
165 lines
5.5 KiB
C
165 lines
5.5 KiB
C
/* SPDX-License-Identifier: GPL-3.0-or-later
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* Copyright © 2022 The TokTok team.
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*/
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#include "shared_key_cache.h"
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#include <assert.h>
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#include <stdint.h>
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#include <string.h> // memcpy(...)
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#include "ccompat.h"
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#include "crypto_core.h"
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#include "mono_time.h"
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typedef struct Shared_Key {
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uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE];
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uint8_t shared_key[CRYPTO_SHARED_KEY_SIZE];
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uint64_t time_last_requested;
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} Shared_Key;
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struct Shared_Key_Cache {
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Shared_Key *keys;
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const uint8_t* self_secret_key;
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uint64_t timeout; /** After this time (in seconds), a key is erased on the next housekeeping cycle */
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const Mono_Time *mono_time;
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const Memory *mem;
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const Logger *log;
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uint8_t keys_per_slot;
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};
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non_null()
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static bool shared_key_is_empty(const Logger *log, const Shared_Key *k) {
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LOGGER_ASSERT(log, k != nullptr, "shared key must not be NULL");
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/*
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* Since time can never be 0, we use that to determine if a key slot is empty.
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* Additionally this allows us to use crypto_memzero and leave the slot in a valid state.
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*/
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return k->time_last_requested == 0;
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}
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non_null()
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static void shared_key_set_empty(const Logger *log, Shared_Key *k) {
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crypto_memzero(k, sizeof (Shared_Key));
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LOGGER_ASSERT(log, shared_key_is_empty(log, k), "shared key must be empty after clearing it");
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}
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Shared_Key_Cache *shared_key_cache_new(const Logger *log, const Mono_Time *mono_time, const Memory *mem, const uint8_t *self_secret_key, uint64_t timeout, uint8_t keys_per_slot)
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{
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if (mono_time == nullptr || self_secret_key == nullptr || timeout == 0 || keys_per_slot == 0) {
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return nullptr;
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}
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// Time must not be zero, since we use that as special value for empty slots
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if (mono_time_get(mono_time) == 0) {
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// Fail loudly in debug environments
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LOGGER_FATAL(log, "time must not be zero (mono_time not initialised?)");
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return nullptr;
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}
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Shared_Key_Cache *res = (Shared_Key_Cache *)mem_alloc(mem, sizeof(Shared_Key_Cache));
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if (res == nullptr) {
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return nullptr;
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}
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res->self_secret_key = self_secret_key;
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res->mono_time = mono_time;
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res->mem = mem;
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res->log = log;
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res->keys_per_slot = keys_per_slot;
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// We take one byte from the public key for each bucket and store keys_per_slot elements there
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const size_t cache_size = 256 * keys_per_slot;
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res->keys = (Shared_Key *)mem_valloc(mem, cache_size, sizeof(Shared_Key));
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if (res->keys == nullptr) {
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mem_delete(mem, res);
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return nullptr;
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}
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crypto_memlock(res->keys, cache_size * sizeof(Shared_Key));
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return res;
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}
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void shared_key_cache_free(Shared_Key_Cache *cache)
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{
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if (cache == nullptr) {
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return;
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}
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const size_t cache_size = 256 * cache->keys_per_slot;
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// Don't leave key material in memory
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crypto_memzero(cache->keys, cache_size * sizeof (Shared_Key));
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crypto_memunlock(cache->keys, cache_size * sizeof (Shared_Key));
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mem_delete(cache->mem, cache->keys);
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mem_delete(cache->mem, cache);
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}
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/* NOTE: On each lookup housekeeping is performed to evict keys that did timeout. */
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const uint8_t *shared_key_cache_lookup(Shared_Key_Cache *cache, const uint8_t public_key[CRYPTO_PUBLIC_KEY_SIZE])
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{
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// caching the time is not necessary, but calls to mono_time_get(...) are not free
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const uint64_t cur_time = mono_time_get(cache->mono_time);
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// We can't use the first and last bytes because they are masked in curve25519. Selected 8 for good alignment.
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const uint8_t bucket_idx = public_key[8];
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Shared_Key* bucket_start = &cache->keys[bucket_idx*cache->keys_per_slot];
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const uint8_t* found = nullptr;
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// Perform lookup
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for(size_t i = 0; i < cache->keys_per_slot; ++i) {
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if (shared_key_is_empty(cache->log, &bucket_start[i])) {
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continue;
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}
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if (pk_equal(public_key, bucket_start[i].public_key)) {
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found = bucket_start[i].shared_key;
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bucket_start[i].time_last_requested = cur_time;
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break;
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}
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}
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// Perform housekeeping for this bucket
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for (size_t i = 0; i < cache->keys_per_slot; ++i) {
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if (shared_key_is_empty(cache->log, &bucket_start[i])) {
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continue;
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}
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const bool timed_out = (bucket_start[i].time_last_requested + cache->timeout) < cur_time;
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if (timed_out) {
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shared_key_set_empty(cache->log, &bucket_start[i]);
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}
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}
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if (found == nullptr) {
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// Insert into cache
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uint64_t oldest_timestamp = UINT64_MAX;
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size_t oldest_index = 0;
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/*
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* Find least recently used entry, unused entries are prioritised,
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* because their time_last_requested field is zeroed.
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*/
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for (size_t i = 0; i < cache->keys_per_slot; ++i) {
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if (bucket_start[i].time_last_requested < oldest_timestamp) {
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oldest_timestamp = bucket_start[i].time_last_requested;
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oldest_index = i;
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}
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}
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// Compute the shared key for the cache
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if (encrypt_precompute(public_key, cache->self_secret_key, bucket_start[oldest_index].shared_key) != 0) {
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// Don't put anything in the cache on error
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return nullptr;
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}
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// update cache entry
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memcpy(bucket_start[oldest_index].public_key, public_key, CRYPTO_PUBLIC_KEY_SIZE);
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bucket_start[oldest_index].time_last_requested = cur_time;
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found = bucket_start[oldest_index].shared_key;
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}
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return found;
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}
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