Rather than the clunky NUMA full ChaCha state system we had prior, this commit is closer to the original "fast key erasure RNG" proposal from <https://blog.cr.yp.to/20170723-random.html>, by simply treating ChaCha keys on a per-cpu basis. All entropy is extracted to a base crng key of 32 bytes. This base crng has a birthdate and a generation counter. When we go to take bytes from the crng, we first check if the birthdate is too old; if it is, we reseed per usual. Then we start working on a per-cpu crng. This per-cpu crng makes sure that it has the same generation counter as the base crng. If it doesn't, it does fast key erasure with the base crng key and uses the output as its new per-cpu key, and then updates its local generation counter. Then, using this per-cpu state, we do ordinary fast key erasure. Half of this first block is used to overwrite the per-cpu crng key for the next call -- this is the fast key erasure RNG idea -- and the other half, along with the ChaCha state, is returned to the caller. If the caller desires more than this remaining half, it can generate more ChaCha blocks, unlocked, using the now detached ChaCha state that was just returned. Crypto-wise, this is more or less what we were doing before, but this simply makes it more explicit and ensures that we always have backtrack protection by not playing games with a shared block counter. The flow looks like this: ──extract()──► base_crng.key ◄──memcpy()───┐ │ │ └──chacha()──────┬─► new_base_key └─► crngs[n].key ◄──memcpy()───┐ │ │ └──chacha()───┬─► new_key └─► random_bytes │ └────► There are a few hairy details around early init. Just as was done before, prior to having gathered enough entropy, crng_fast_load() and crng_slow_load() dump bytes directly into the base crng, and when we go to take bytes from the crng, in that case, we're doing fast key erasure with the base crng rather than the fast unlocked per-cpu crngs. This is fine as that's only the state of affairs during very early boot; once the crng initializes we never use these paths again. In the process of all this, the APIs into the crng become a bit simpler: we have get_random_bytes(buf, len) and get_random_bytes_user(buf, len), which both do what you'd expect. All of the details of fast key erasure and per-cpu selection happen only in a very short critical section of crng_make_state(), which selects the right per-cpu key, does the fast key erasure, and returns a local state to the caller's stack. So, we no longer have a need for a separate backtrack function, as this happens all at once here. The API then allows us to extend backtrack protection to batched entropy without really having to do much at all. The result is a bit simpler than before and has fewer foot guns. The init time state machine also gets a lot simpler as we don't need to wait for workqueues to come online and do deferred work. And the multi-core performance should be increased significantly, by virtue of having hardly any locking on the fast path. Cc: Theodore Ts'o <tytso@xxxxxxx> Cc: Dominik Brodowski <linux@xxxxxxxxxxxxxxxxxxxx> Cc: Sebastian Andrzej Siewior <bigeasy@xxxxxxxxxxxxx> Signed-off-by: Jason A. Donenfeld <Jason@xxxxxxxxx> --- drivers/char/random.c | 278 +++++++++++++++++++++++++----------------- 1 file changed, 169 insertions(+), 109 deletions(-) diff --git a/drivers/char/random.c b/drivers/char/random.c index ed7fcef1ba31..ac22dc94b037 100644 --- a/drivers/char/random.c +++ b/drivers/char/random.c @@ -300,20 +300,6 @@ static struct fasync_struct *fasync; static DEFINE_SPINLOCK(random_ready_list_lock); static LIST_HEAD(random_ready_list); -struct crng_state { - u32 state[16]; - unsigned long init_time; - spinlock_t lock; -}; - -static struct crng_state primary_crng = { - .lock = __SPIN_LOCK_UNLOCKED(primary_crng.lock), - .state[0] = CHACHA_CONSTANT_EXPA, - .state[1] = CHACHA_CONSTANT_ND_3, - .state[2] = CHACHA_CONSTANT_2_BY, - .state[3] = CHACHA_CONSTANT_TE_K, -}; - /* * crng_init = 0 --> Uninitialized * 1 --> Initialized @@ -325,9 +311,6 @@ static struct crng_state primary_crng = { static int crng_init = 0; #define crng_ready() (likely(crng_init > 1)) static int crng_init_cnt = 0; -#define CRNG_INIT_CNT_THRESH (2 * CHACHA_KEY_SIZE) -static void extract_crng(u8 out[CHACHA_BLOCK_SIZE]); -static void crng_backtrack_protect(u8 tmp[CHACHA_BLOCK_SIZE], int used); static void process_random_ready_list(void); static void _get_random_bytes(void *buf, int nbytes); @@ -465,7 +448,28 @@ static void credit_entropy_bits(int nbits) * *********************************************************************/ -#define CRNG_RESEED_INTERVAL (300 * HZ) +enum { + CRNG_RESEED_INTERVAL = 300 * HZ, + CRNG_INIT_CNT_THRESH = 2 * CHACHA_KEY_SIZE +}; + +struct { + u8 key[CHACHA_KEY_SIZE] __aligned(__alignof__(long)); + unsigned long birth; + unsigned long generation; + spinlock_t lock; +} base_crng; + +struct crng { + u8 key[CHACHA_KEY_SIZE]; + unsigned long generation; + local_lock_t lock; +}; + +static DEFINE_PER_CPU(struct crng, crngs) = { + .generation = ULONG_MAX, + .lock = INIT_LOCAL_LOCK(crngs.lock), +}; static DECLARE_WAIT_QUEUE_HEAD(crng_init_wait); @@ -482,22 +486,22 @@ static size_t crng_fast_load(const u8 *cp, size_t len) u8 *p; size_t ret = 0; - if (!spin_trylock_irqsave(&primary_crng.lock, flags)) + if (!spin_trylock_irqsave(&base_crng.lock, flags)) return 0; if (crng_init != 0) { - spin_unlock_irqrestore(&primary_crng.lock, flags); + spin_unlock_irqrestore(&base_crng.lock, flags); return 0; } - p = (u8 *)&primary_crng.state[4]; + p = base_crng.key; while (len > 0 && crng_init_cnt < CRNG_INIT_CNT_THRESH) { - p[crng_init_cnt % CHACHA_KEY_SIZE] ^= *cp; + p[crng_init_cnt % sizeof(base_crng.key)] ^= *cp; cp++; crng_init_cnt++; len--; ret++; } if (crng_init_cnt >= CRNG_INIT_CNT_THRESH) { invalidate_batched_entropy(); crng_init = 1; } - spin_unlock_irqrestore(&primary_crng.lock, flags); + spin_unlock_irqrestore(&base_crng.lock, flags); if (crng_init == 1) pr_notice("fast init done\n"); return ret; @@ -522,14 +526,14 @@ static int crng_slow_load(const u8 *cp, size_t len) unsigned long flags; static u8 lfsr = 1; u8 tmp; - unsigned int i, max = CHACHA_KEY_SIZE; + unsigned int i, max = sizeof(base_crng.key); const u8 *src_buf = cp; - u8 *dest_buf = (u8 *)&primary_crng.state[4]; + u8 *dest_buf = base_crng.key; - if (!spin_trylock_irqsave(&primary_crng.lock, flags)) + if (!spin_trylock_irqsave(&base_crng.lock, flags)) return 0; if (crng_init != 0) { - spin_unlock_irqrestore(&primary_crng.lock, flags); + spin_unlock_irqrestore(&base_crng.lock, flags); return 0; } if (len > max) @@ -540,38 +544,40 @@ static int crng_slow_load(const u8 *cp, size_t len) lfsr >>= 1; if (tmp & 1) lfsr ^= 0xE1; - tmp = dest_buf[i % CHACHA_KEY_SIZE]; - dest_buf[i % CHACHA_KEY_SIZE] ^= src_buf[i % len] ^ lfsr; + tmp = dest_buf[i % sizeof(base_crng.key)]; + dest_buf[i % sizeof(base_crng.key)] ^= src_buf[i % len] ^ lfsr; lfsr += (tmp << 3) | (tmp >> 5); } - spin_unlock_irqrestore(&primary_crng.lock, flags); + spin_unlock_irqrestore(&base_crng.lock, flags); return 1; } static void crng_reseed(void) { unsigned long flags; - int i, entropy_count; - union { - u8 block[CHACHA_BLOCK_SIZE]; - u32 key[8]; - } buf; + int entropy_count; + unsigned long next_gen; + u8 key[CHACHA_KEY_SIZE]; do { entropy_count = READ_ONCE(input_pool.entropy_count); if (entropy_count < POOL_MIN_BITS) return; } while (cmpxchg(&input_pool.entropy_count, entropy_count, 0) != entropy_count); - extract_entropy(buf.key, sizeof(buf.key)); + extract_entropy(key, sizeof(key)); wake_up_interruptible(&random_write_wait); kill_fasync(&fasync, SIGIO, POLL_OUT); - spin_lock_irqsave(&primary_crng.lock, flags); - for (i = 0; i < 8; i++) - primary_crng.state[i + 4] ^= buf.key[i]; - memzero_explicit(&buf, sizeof(buf)); - WRITE_ONCE(primary_crng.init_time, jiffies); - spin_unlock_irqrestore(&primary_crng.lock, flags); + spin_lock_irqsave(&base_crng.lock, flags); + memcpy(base_crng.key, key, sizeof(base_crng.key)); + next_gen = base_crng.generation + 1; + if (next_gen == ULONG_MAX) + ++next_gen; + WRITE_ONCE(base_crng.generation, next_gen); + base_crng.birth = jiffies; + spin_unlock_irqrestore(&base_crng.lock, flags); + memzero_explicit(key, sizeof(key)); + if (crng_init < 2) { invalidate_batched_entropy(); crng_init = 2; @@ -592,50 +598,88 @@ static void crng_reseed(void) } } -static void extract_crng(u8 out[CHACHA_BLOCK_SIZE]) +/* + * The general form here is based on a "fast key erasure RNG" from: + * https://blog.cr.yp.to/20170723-random.html + */ +static void crng_fast_key_erasure(u8 key[CHACHA_KEY_SIZE], + u32 chacha_state[CHACHA_STATE_WORDS], + u8 random_data[32], size_t random_data_len) { - unsigned long flags, init_time; + u8 first_block[CHACHA_BLOCK_SIZE]; - if (crng_ready()) { - init_time = READ_ONCE(primary_crng.init_time); - if (time_after(jiffies, init_time + CRNG_RESEED_INTERVAL)) - crng_reseed(); - } - spin_lock_irqsave(&primary_crng.lock, flags); - chacha20_block(&primary_crng.state[0], out); - if (primary_crng.state[12] == 0) - primary_crng.state[13]++; - spin_unlock_irqrestore(&primary_crng.lock, flags); + chacha_init_consts(chacha_state); + memcpy(&chacha_state[4], key, CHACHA_KEY_SIZE); + memset(&chacha_state[12], 0, sizeof(u32) * 4); + chacha20_block(chacha_state, first_block); + + memcpy(key, first_block, CHACHA_KEY_SIZE); + memcpy(random_data, first_block + CHACHA_KEY_SIZE, random_data_len); + memzero_explicit(first_block, sizeof(first_block)); } /* - * Use the leftover bytes from the CRNG block output (if there is - * enough) to mutate the CRNG key to provide backtracking protection. + * This function returns a ChaCha block that you may use for generating + * random data. It also returns up to 32 bytes on its own of random data + * that may be used. */ -static void crng_backtrack_protect(u8 tmp[CHACHA_BLOCK_SIZE], int used) +static void crng_make_state(u32 chacha_state[CHACHA_STATE_WORDS], + u8 random_data[32], size_t random_data_len) { unsigned long flags; - u32 *s, *d; - int i; + struct crng *crng; + + /* For the fast path, we check this unlocked first. */ + if (unlikely(!crng_ready())) { + bool not_ready; + + spin_lock_irqsave(&base_crng.lock, flags); + /* Now that we're locked, re-check. */ + not_ready = !crng_ready(); + if (not_ready) + crng_fast_key_erasure(base_crng.key, chacha_state, + random_data, random_data_len); + spin_unlock_irqrestore(&base_crng.lock, flags); + if (!not_ready) + return; + } + + if (unlikely(time_after(jiffies, READ_ONCE(base_crng.birth) + CRNG_RESEED_INTERVAL))) + crng_reseed(); + + local_lock_irqsave(&crngs.lock, flags); + crng = raw_cpu_ptr(&crngs); - used = round_up(used, sizeof(u32)); - if (used + CHACHA_KEY_SIZE > CHACHA_BLOCK_SIZE) { - extract_crng(tmp); - used = 0; + if (unlikely(crng->generation != READ_ONCE(base_crng.generation))) { + spin_lock(&base_crng.lock); + crng_fast_key_erasure(base_crng.key, chacha_state, + crng->key, sizeof(crng->key)); + crng->generation = base_crng.generation; + spin_unlock(&base_crng.lock); } - spin_lock_irqsave(&primary_crng.lock, flags); - s = (u32 *)&tmp[used]; - d = &primary_crng.state[4]; - for (i = 0; i < 8; i++) - *d++ ^= *s++; - spin_unlock_irqrestore(&primary_crng.lock, flags); + + crng_fast_key_erasure(crng->key, chacha_state, random_data, random_data_len); + local_unlock_irqrestore(&crngs.lock, flags); } -static ssize_t extract_crng_user(void __user *buf, size_t nbytes) +static ssize_t get_random_bytes_user(void __user *buf, size_t nbytes) { - ssize_t ret = 0, i = CHACHA_BLOCK_SIZE; - u8 tmp[CHACHA_BLOCK_SIZE] __aligned(4); - int large_request = (nbytes > 256); + bool large_request = (nbytes > 256); + ssize_t ret = 0, len; + u32 chacha_state[CHACHA_STATE_WORDS]; + u8 output[CHACHA_BLOCK_SIZE]; + + if (!nbytes) + return 0; + + len = min_t(ssize_t, 32, nbytes); + crng_make_state(chacha_state, output, len); + + if (copy_to_user(buf, output, len)) + return -EFAULT; + nbytes -= len; + buf += len; + ret += len; while (nbytes) { if (large_request && need_resched()) { @@ -647,22 +691,23 @@ static ssize_t extract_crng_user(void __user *buf, size_t nbytes) schedule(); } - extract_crng(tmp); - i = min_t(int, nbytes, CHACHA_BLOCK_SIZE); - if (copy_to_user(buf, tmp, i)) { + chacha20_block(chacha_state, output); + if (unlikely(chacha_state[12] == 0)) + ++chacha_state[13]; + + len = min_t(ssize_t, nbytes, CHACHA_BLOCK_SIZE); + if (copy_to_user(buf, output, len)) { ret = -EFAULT; break; } - nbytes -= i; - buf += i; - ret += i; + nbytes -= len; + buf += len; + ret += len; } - crng_backtrack_protect(tmp, i); - - /* Wipe data just written to memory */ - memzero_explicit(tmp, sizeof(tmp)); + memzero_explicit(chacha_state, sizeof(chacha_state)); + memzero_explicit(output, sizeof(output)); return ret; } @@ -982,23 +1027,37 @@ static void _warn_unseeded_randomness(const char *func_name, void *caller, void */ static void _get_random_bytes(void *buf, int nbytes) { - u8 tmp[CHACHA_BLOCK_SIZE] __aligned(4); + u32 chacha_state[CHACHA_STATE_WORDS]; + u8 tmp[CHACHA_BLOCK_SIZE]; + ssize_t len; trace_get_random_bytes(nbytes, _RET_IP_); - while (nbytes >= CHACHA_BLOCK_SIZE) { - extract_crng(buf); - buf += CHACHA_BLOCK_SIZE; - nbytes -= CHACHA_BLOCK_SIZE; + if (!nbytes) + return; + + len = min_t(ssize_t, 32, nbytes); + crng_make_state(chacha_state, buf, len); + nbytes -= len; + buf += len; + + while (nbytes) { + if (nbytes < CHACHA_BLOCK_SIZE) { + chacha20_block(chacha_state, tmp); + memcpy(buf, tmp, nbytes); + memzero_explicit(tmp, sizeof(tmp)); + break; + } + + len = min_t(ssize_t, nbytes, CHACHA_BLOCK_SIZE); + chacha20_block(chacha_state, buf); + if (unlikely(chacha_state[12] == 0)) + ++chacha_state[13]; + nbytes -= len; + buf += len; } - if (nbytes > 0) { - extract_crng(tmp); - memcpy(buf, tmp, nbytes); - crng_backtrack_protect(tmp, nbytes); - } else - crng_backtrack_protect(tmp, CHACHA_BLOCK_SIZE); - memzero_explicit(tmp, sizeof(tmp)); + memzero_explicit(chacha_state, sizeof(chacha_state)); } void get_random_bytes(void *buf, int nbytes) @@ -1229,13 +1288,12 @@ int __init rand_initialize(void) mix_pool_bytes(&rv, sizeof(rv)); } - extract_entropy(&primary_crng.state[4], sizeof(u32) * 12); + extract_entropy(base_crng.key, sizeof(base_crng.key)); if (arch_init && trust_cpu && crng_init < 2) { invalidate_batched_entropy(); crng_init = 2; pr_notice("crng init done (trusting CPU's manufacturer)\n"); } - primary_crng.init_time = jiffies - CRNG_RESEED_INTERVAL - 1; if (ratelimit_disable) { urandom_warning.interval = 0; @@ -1267,7 +1325,7 @@ static ssize_t urandom_read_nowarn(struct file *file, char __user *buf, int ret; nbytes = min_t(size_t, nbytes, INT_MAX >> 6); - ret = extract_crng_user(buf, nbytes); + ret = get_random_bytes_user(buf, nbytes); trace_urandom_read(8 * nbytes, 0, input_pool.entropy_count); return ret; } @@ -1583,8 +1641,8 @@ static atomic_t batch_generation = ATOMIC_INIT(0); struct batched_entropy { union { - u64 entropy_u64[CHACHA_BLOCK_SIZE / sizeof(u64)]; - u32 entropy_u32[CHACHA_BLOCK_SIZE / sizeof(u32)]; + u64 entropy_u64[CHACHA_BLOCK_SIZE * 3 / (2 * sizeof(u64))]; + u32 entropy_u32[CHACHA_BLOCK_SIZE * 3 / (2 * sizeof(u32))]; }; local_lock_t lock; unsigned int position; @@ -1593,11 +1651,9 @@ struct batched_entropy { /* * Get a random word for internal kernel use only. The quality of the random - * number is good as /dev/urandom, but there is no backtrack protection, with - * the goal of being quite fast and not depleting entropy. In order to ensure - * that the randomness provided by this function is okay, the function - * wait_for_random_bytes() should be called and return 0 at least once at any - * point prior. + * number is good as /dev/urandom. In order to ensure that the randomness + * provided by this function is okay, the function wait_for_random_bytes() + * should be called and return 0 at least once at any point prior. */ static DEFINE_PER_CPU(struct batched_entropy, batched_entropy_u64) = { .lock = INIT_LOCAL_LOCK(batched_entropy_u64.lock) @@ -1619,12 +1675,14 @@ u64 get_random_u64(void) next_gen = atomic_read(&batch_generation); if (batch->position % ARRAY_SIZE(batch->entropy_u64) == 0 || next_gen != batch->generation) { - extract_crng((u8 *)batch->entropy_u64); + get_random_bytes(batch->entropy_u64, sizeof(batch->entropy_u64)); batch->position = 0; batch->generation = next_gen; } - ret = batch->entropy_u64[batch->position++]; + ret = batch->entropy_u64[batch->position]; + batch->entropy_u64[batch->position] = 0; + ++batch->position; local_unlock_irqrestore(&batched_entropy_u64.lock, flags); return ret; } @@ -1650,12 +1708,14 @@ u32 get_random_u32(void) next_gen = atomic_read(&batch_generation); if (batch->position % ARRAY_SIZE(batch->entropy_u32) == 0 || next_gen != batch->generation) { - extract_crng((u8 *)batch->entropy_u32); + get_random_bytes(batch->entropy_u32, sizeof(batch->entropy_u32)); batch->position = 0; batch->generation = next_gen; } - ret = batch->entropy_u32[batch->position++]; + ret = batch->entropy_u32[batch->position]; + batch->entropy_u32[batch->position] = 0; + ++batch->position; local_unlock_irqrestore(&batched_entropy_u32.lock, flags); return ret; } -- 2.35.0