Some code refactoring in the thread pool module.

This commit is contained in:
LoRd_MuldeR 2022-03-24 21:25:32 +01:00
parent d0be7ad5a5
commit f70ccb6a14
Signed by: mulder
GPG Key ID: 2B5913365F57E03F
4 changed files with 162 additions and 143 deletions

View File

@ -28,7 +28,7 @@
static const uint64_t MAGIC_NUMBER = 0x243F6A8885A308D3ull; static const uint64_t MAGIC_NUMBER = 0x243F6A8885A308D3ull;
#define BUFFER_SIZE 32768U #define BUFFER_SIZE 65536U
// ========================================================================== // ==========================================================================
// Auxiliary functions // Auxiliary functions
@ -70,6 +70,13 @@ int encrypt(const char *const passphrase, const CHR *const input_path, const CHR
FILE *file_in = NULL, *file_out = NULL; FILE *file_in = NULL, *file_out = NULL;
int result = EXIT_FAILURE, status; int result = EXIT_FAILURE, status;
uint8_t *buffer = malloc(BUFFER_SIZE * sizeof(uint8_t));
if (!buffer)
{
FPUTS(T("Error: Failed to allocate the I/O buffer!\n\n"), stderr);
goto clean_up;
}
if (open_files(&file_in, &file_out, input_path, output_path) != EXIT_SUCCESS) if (open_files(&file_in, &file_out, input_path, output_path) != EXIT_SUCCESS)
{ {
goto clean_up; goto clean_up;
@ -111,10 +118,7 @@ int encrypt(const char *const passphrase, const CHR *const input_path, const CHR
goto clean_up; goto clean_up;
} }
unsigned refresh_cycles = 0U; uint64_t bytes_read = 0U, clk_now, clk_update = clk_now = clock_read();
uint64_t bytes_read = 0U, clk_update = clock_read();
uint8_t buffer[BUFFER_SIZE];
const uint64_t update_interval = (uint64_t)(clock_freq() * 1.0625); const uint64_t update_interval = (uint64_t)(clock_freq() * 1.0625);
blake2s_t blake2s_state; blake2s_t blake2s_state;
@ -147,15 +151,11 @@ int encrypt(const char *const passphrase, const CHR *const input_path, const CHR
{ {
break; /*EOF*/ break; /*EOF*/
} }
if (!(++refresh_cycles & 0x3)) if (((clk_now = clock_read()) < clk_update) || (clk_now - clk_update > update_interval))
{ {
const uint64_t clk_now = clock_read(); FPRINTF(stderr, T("\b\b\b\b\b\b\b%5.1f%% "), (bytes_read / ((double)file_size)) * 100.0);
if ((clk_now < clk_update) || (clk_now - clk_update > update_interval)) fflush(stderr);
{ clk_update = clk_now;
FPRINTF(stderr, T("\b\b\b\b\b\b\b%5.1f%% "), (bytes_read / ((double)file_size)) * 100.0);
fflush(stderr);
clk_update = clk_now;
}
} }
} }
@ -238,7 +238,12 @@ clean_up:
fclose(file_in); fclose(file_in);
} }
slunkcrypt_bzero(buffer, BUFFER_SIZE); if (buffer)
{
slunkcrypt_bzero(buffer, BUFFER_SIZE * sizeof(uint8_t));
free(buffer);
}
slunkcrypt_bzero(checksum_buffer, sizeof(uint64_t)); slunkcrypt_bzero(checksum_buffer, sizeof(uint64_t));
slunkcrypt_bzero(&blake2s_state, sizeof(blake2s_t)); slunkcrypt_bzero(&blake2s_state, sizeof(blake2s_t));
slunkcrypt_bzero(&nonce, sizeof(uint64_t)); slunkcrypt_bzero(&nonce, sizeof(uint64_t));
@ -257,6 +262,13 @@ int decrypt(const char *const passphrase, const CHR *const input_path, const CHR
FILE *file_in = NULL, *file_out = NULL; FILE *file_in = NULL, *file_out = NULL;
int result = EXIT_FAILURE, status; int result = EXIT_FAILURE, status;
uint8_t *buffer = malloc(BUFFER_SIZE * sizeof(uint8_t));
if (!buffer)
{
FPUTS(T("Error: Failed to allocate the I/O buffer!\n\n"), stderr);
goto clean_up;
}
if (open_files(&file_in, &file_out, input_path, output_path) != EXIT_SUCCESS) if (open_files(&file_in, &file_out, input_path, output_path) != EXIT_SUCCESS)
{ {
goto clean_up; goto clean_up;
@ -296,10 +308,7 @@ int decrypt(const char *const passphrase, const CHR *const input_path, const CHR
goto clean_up; goto clean_up;
} }
unsigned refresh_cycles = 0U; uint64_t bytes_read = sizeof(uint64_t), clk_now, clk_update = clk_now = clock_read();
uint64_t bytes_read = sizeof(uint64_t), clk_update = clock_read();
uint8_t buffer[BUFFER_SIZE];
const uint64_t update_interval = (uint64_t)(clock_freq() * 1.0625); const uint64_t update_interval = (uint64_t)(clock_freq() * 1.0625);
const uint64_t read_limit = round_down(file_size, sizeof(uint64_t)) - (2U * sizeof(uint64_t)); const uint64_t read_limit = round_down(file_size, sizeof(uint64_t)) - (2U * sizeof(uint64_t));
@ -333,15 +342,11 @@ int decrypt(const char *const passphrase, const CHR *const input_path, const CHR
{ {
break; /*EOF*/ break; /*EOF*/
} }
if (!(++refresh_cycles & 0x3)) if (((clk_now = clock_read()) < clk_update) || (clk_now - clk_update > update_interval))
{ {
const uint64_t clk_now = clock_read(); FPRINTF(stderr, T("\b\b\b\b\b\b\b%5.1f%% "), (bytes_read / ((double)read_limit)) * 100.0);
if ((clk_now < clk_update) || (clk_now - clk_update > update_interval)) fflush(stderr);
{ clk_update = clk_now;
FPRINTF(stderr, T("\b\b\b\b\b\b\b%5.1f%% "), (bytes_read / ((double)read_limit)) * 100.0);
fflush(stderr);
clk_update = clk_now;
}
} }
} }
@ -436,7 +441,12 @@ clean_up:
fclose(file_in); fclose(file_in);
} }
slunkcrypt_bzero(buffer, BUFFER_SIZE); if (buffer)
{
slunkcrypt_bzero(buffer, BUFFER_SIZE * sizeof(uint8_t));
free(buffer);
}
slunkcrypt_bzero(checksum_buffer, sizeof(uint64_t)); slunkcrypt_bzero(checksum_buffer, sizeof(uint64_t));
slunkcrypt_bzero(&blake2s_state, sizeof(blake2s_t)); slunkcrypt_bzero(&blake2s_state, sizeof(blake2s_t));
slunkcrypt_bzero(&nonce, sizeof(uint64_t)); slunkcrypt_bzero(&nonce, sizeof(uint64_t));

View File

@ -22,7 +22,7 @@ const char *const SLUNKCRYPT_BUILD = __DATE__ ", " __TIME__;
/* Utilities */ /* Utilities */
#define BOOLIFY(X) (!!(X)) #define BOOLIFY(X) (!!(X))
#define THREAD_COUNT(X) (((X)->thread_pool != THRDPL_NULL) ? slunkcrypt_thrdpl_count((X)->thread_pool) : 1U) #define THREAD_COUNT(X) (((X)->thread_pool) ? slunkcrypt_thrdpl_count((X)->thread_pool) : 1U)
// ========================================================================== // ==========================================================================
// Data structures // Data structures
@ -53,7 +53,7 @@ crypt_data_t;
typedef struct typedef struct
{ {
thrdpl_t thread_pool; thrdpl_t *thread_pool;
crypt_data_t data; crypt_data_t data;
} }
crypt_state_t; crypt_state_t;
@ -395,7 +395,7 @@ void slunkcrypt_free(const slunkcrypt_t context)
crypt_state_t *const state = (crypt_state_t*) context; crypt_state_t *const state = (crypt_state_t*) context;
if (state) if (state)
{ {
if (state->thread_pool != THRDPL_NULL) if (state->thread_pool)
{ {
slunkcrypt_thrdpl_destroy(state->thread_pool); slunkcrypt_thrdpl_destroy(state->thread_pool);
} }

View File

@ -5,11 +5,11 @@
/* Internal */ /* Internal */
#include "thread.h" #include "thread.h"
#include "slunkcrypt.h"
#include "compiler.h" #include "compiler.h"
/* CRT */ /* CRT */
#include <stdlib.h> #include <stdlib.h>
#include <string.h>
/* PThread */ /* PThread */
#if defined(_MSC_VER) && !defined(_DLL) #if defined(_MSC_VER) && !defined(_DLL)
@ -23,9 +23,9 @@
#endif #endif
/* States */ /* States */
#define THRD_STATE_IDLE 0 #define TSTATE_IDLE 0U
#define THRD_STATE_WORK 1 #define TSTATE_WORK 1U
#define THRD_STATE_EXIT 2 #define TSTATE_EXIT 2U
// ========================================================================== // ==========================================================================
// Data types // Data types
@ -42,21 +42,27 @@ thrdpl_task_t;
typedef struct typedef struct
{ {
const size_t *count; size_t thread_count, pending;
int state;
pthread_mutex_t mutex; pthread_mutex_t mutex;
pthread_cond_t cond; pthread_cond_t cond_pending;
}
thrdpl_shared_t;
typedef struct
{
thrdpl_shared_t *shared;
size_t state;
pthread_cond_t cond_state;
pthread_t thread; pthread_t thread;
thrdpl_task_t task; thrdpl_task_t task;
} }
thrdpl_thread_t; thrdpl_thread_t;
typedef struct struct thrdpl_data_t
{ {
size_t thread_count; thrdpl_shared_t shared;
thrdpl_thread_t thread_data[MAX_THREADS]; thrdpl_thread_t thread_data[MAX_THREADS];
} };
thrdpl_data_t;
// ========================================================================== // ==========================================================================
// Utilities // Utilities
@ -85,6 +91,15 @@ while(0)
} \ } \
while(0) while(0)
#define PTHRD_COND_SIGNAL(X) do \
{ \
if (pthread_cond_signal((X)) != 0) \
{ \
abort(); \
} \
} \
while(0)
#define PTHRD_COND_BROADCAST(X) do \ #define PTHRD_COND_BROADCAST(X) do \
{ \ { \
if (pthread_cond_broadcast((X)) != 0) \ if (pthread_cond_broadcast((X)) != 0) \
@ -105,13 +120,10 @@ while(0)
#define CHECK_IF_CANCELLED() do \ #define CHECK_IF_CANCELLED() do \
{ \ { \
if (data->state == THRD_STATE_EXIT) \ if (data->state == TSTATE_EXIT) \
{ \ { \
if (pthread_mutex_unlock(&data->mutex) != 0) \ PTHRD_MUTEX_UNLOCK(&shared->mutex); \
{ \ return NULL; \
abort(); \
} \
return NULL; /* cancelled */ \
} \ } \
} \ } \
while(0) while(0)
@ -123,29 +135,37 @@ while(0)
static void *worker_thread_main(void *const arg) static void *worker_thread_main(void *const arg)
{ {
thrdpl_thread_t *const data = (thrdpl_thread_t*) arg; thrdpl_thread_t *const data = (thrdpl_thread_t*) arg;
thrdpl_shared_t *const shared = (thrdpl_shared_t*) data->shared;
thrdpl_task_t *task; thrdpl_task_t *task;
for (;;) for (;;)
{ {
PTHRD_MUTEX_LOCK(&data->mutex); PTHRD_MUTEX_LOCK(&shared->mutex);
CHECK_IF_CANCELLED(); CHECK_IF_CANCELLED();
while (data->state != THRD_STATE_WORK) while (data->state != TSTATE_WORK)
{ {
PTHRD_COND_WAIT(&data->cond, &data->mutex); PTHRD_COND_WAIT(&data->cond_state, &shared->mutex);
CHECK_IF_CANCELLED(); CHECK_IF_CANCELLED();
} }
task = &data->task; task = &data->task;
PTHRD_MUTEX_UNLOCK(&data->mutex); PTHRD_MUTEX_UNLOCK(&shared->mutex);
task->worker(*data->count, task->context, task->buffer, task->length); task->worker(shared->thread_count, task->context, task->buffer, task->length);
PTHRD_MUTEX_LOCK(&data->mutex); PTHRD_MUTEX_LOCK(&shared->mutex);
CHECK_IF_CANCELLED(); CHECK_IF_CANCELLED();
data->state = THRD_STATE_IDLE;
PTHRD_COND_BROADCAST(&data->cond); data->state = TSTATE_IDLE;
PTHRD_MUTEX_UNLOCK(&data->mutex); if (!(--shared->pending))
{
PTHRD_COND_BROADCAST(&shared->cond_pending);
}
PTHRD_MUTEX_UNLOCK(&shared->mutex);
PTHRD_COND_SIGNAL(&data->cond_state);
} }
} }
@ -175,42 +195,34 @@ static size_t detect_cpu_count(void)
// Manage threads // Manage threads
// ========================================================================== // ==========================================================================
static int create_worker_thread(thrdpl_thread_t *const thread_data, const size_t *const count) static int create_worker(thrdpl_shared_t *const shared, thrdpl_thread_t *const thread_data)
{ {
thread_data->count = count; thread_data->state = TSTATE_IDLE;
thread_data->state = THRD_STATE_IDLE; thread_data->shared = shared;
if (pthread_mutex_init(&thread_data->mutex, NULL) != 0) if (pthread_cond_init(&thread_data->cond_state, NULL) != 0)
{ {
return -1; return -1;
} }
if (pthread_cond_init(&thread_data->cond, NULL) != 0)
{
pthread_mutex_destroy(&thread_data->mutex);
return -1;
}
if (pthread_create(&thread_data->thread, NULL, worker_thread_main, thread_data) != 0) if (pthread_create(&thread_data->thread, NULL, worker_thread_main, thread_data) != 0)
{ {
pthread_cond_destroy(&thread_data->cond); pthread_cond_destroy(&thread_data->cond_state);
pthread_mutex_destroy(&thread_data->mutex);
return -1; return -1;
} }
return 0; return 0;
} }
static int destroy_worker_thread(thrdpl_thread_t *const thread_data) static int destroy_worker(thrdpl_thread_t *const thread_data)
{ {
PTHRD_MUTEX_LOCK(&thread_data->mutex); PTHRD_MUTEX_LOCK(&thread_data->shared->mutex);
thread_data->state = THRD_STATE_EXIT; thread_data->state = TSTATE_EXIT;
PTHRD_COND_BROADCAST(&thread_data->cond); PTHRD_MUTEX_UNLOCK(&thread_data->shared->mutex);
PTHRD_MUTEX_UNLOCK(&thread_data->mutex);
PTHRD_COND_BROADCAST(&thread_data->cond_state);
pthread_join(thread_data->thread, NULL); pthread_join(thread_data->thread, NULL);
pthread_mutex_destroy(&thread_data->mutex); pthread_cond_destroy(&thread_data->cond_state);
pthread_cond_destroy(&thread_data->cond);
return 0; return 0;
} }
@ -219,116 +231,114 @@ static int destroy_worker_thread(thrdpl_thread_t *const thread_data)
// Thread pool API // Thread pool API
// ========================================================================== // ==========================================================================
thrdpl_t slunkcrypt_thrdpl_create(const size_t count) thrdpl_t *slunkcrypt_thrdpl_create(const size_t count)
{ {
size_t i, j; size_t i, j;
thrdpl_data_t *pool = NULL; thrdpl_t *thrdpl = NULL;
const size_t cpu_count = bound(1U, (count > 0U) ? count : detect_cpu_count(), MAX_THREADS); const size_t cpu_count = bound(1U, (count > 0U) ? count : detect_cpu_count(), MAX_THREADS);
if (cpu_count < 2U) if (cpu_count < 2U)
{ {
return THRDPL_NULL; return NULL;
} }
if (!(pool = (thrdpl_data_t*)malloc(sizeof(thrdpl_data_t)))) if (!(thrdpl = (thrdpl_t*)malloc(sizeof(thrdpl_t))))
{ {
return THRDPL_NULL; return NULL;
} }
slunkcrypt_bzero(pool, sizeof(thrdpl_data_t)); memset(thrdpl, 0, sizeof(thrdpl_t));
pool->thread_count = cpu_count; thrdpl->shared.thread_count = cpu_count;
for (i = 0U; i < pool->thread_count; ++i) if (pthread_mutex_init(&thrdpl->shared.mutex, NULL) != 0)
{ {
if (create_worker_thread(&pool->thread_data[i], &pool->thread_count) != 0) goto failure;
}
if (pthread_cond_init(&thrdpl->shared.cond_pending, NULL) != 0)
{
pthread_mutex_destroy(&thrdpl->shared.mutex);
goto failure;
}
for (i = 0U; i < cpu_count; ++i)
{
if (create_worker(&thrdpl->shared, &thrdpl->thread_data[i]) != 0)
{ {
for (j = 0U; j < i; ++j) for (j = 0U; j < i; ++j)
{ {
destroy_worker_thread(&pool->thread_data[j]); destroy_worker(&thrdpl->thread_data[j]);
} }
pthread_cond_destroy(&thrdpl->shared.cond_pending);
pthread_mutex_destroy(&thrdpl->shared.mutex);
goto failure; goto failure;
} }
} }
return (thrdpl_t)pool; return thrdpl;
failure: failure:
free(pool); free(thrdpl);
return (thrdpl_t)NULL; return NULL;
} }
size_t slunkcrypt_thrdpl_count(const thrdpl_t thrdpl) size_t slunkcrypt_thrdpl_count(const thrdpl_t *const thrdpl)
{ {
thrdpl_data_t *const pool = (thrdpl_data_t*) thrdpl; return thrdpl->shared.thread_count;
return pool->thread_count;
} }
void slunkcrypt_thrdpl_exec(const thrdpl_t thrdpl, const size_t index, const thrdpl_worker_t worker, void *const context, uint8_t *const buffer, const size_t length) void slunkcrypt_thrdpl_exec(thrdpl_t *const thrdpl, const size_t index, const thrdpl_worker_t worker, void *const context, uint8_t *const buffer, const size_t length)
{ {
thrdpl_data_t *const pool = (thrdpl_data_t*) thrdpl; thrdpl_thread_t *const thread = &thrdpl->thread_data[index];
thrdpl_thread_t *const thread = &pool->thread_data[index];
PTHRD_MUTEX_LOCK(&thread->mutex); PTHRD_MUTEX_LOCK(&thrdpl->shared.mutex);
while ((thread->state != THRD_STATE_IDLE) && (thread->state != THRD_STATE_EXIT)) while ((thread->state != TSTATE_IDLE) && (thread->state != TSTATE_EXIT))
{ {
if (pthread_cond_wait(&thread->cond, &thread->mutex) != 0) PTHRD_COND_WAIT(&thread->cond_state, &thrdpl->shared.mutex);
{
abort();
}
} }
if (thread->state == THRD_STATE_EXIT) if (thread->state == TSTATE_EXIT)
{ {
abort(); /*this is not supposed to happen!*/ abort(); /*this is not supposed to happen!*/
} }
thread->state = TSTATE_WORK;
thread->task.worker = worker; thread->task.worker = worker;
thread->task.context = context; thread->task.context = context;
thread->task.buffer = buffer; thread->task.buffer = buffer;
thread->task.length = length; thread->task.length = length;
thread->state = THRD_STATE_WORK;
PTHRD_COND_BROADCAST(&thread->cond); ++thrdpl->shared.pending;
PTHRD_MUTEX_UNLOCK(&thread->mutex);
PTHRD_MUTEX_UNLOCK(&thrdpl->shared.mutex);
PTHRD_COND_SIGNAL(&thread->cond_state);
} }
void slunkcrypt_thrdpl_await(const thrdpl_t thrdpl) void slunkcrypt_thrdpl_await(thrdpl_t *const thrdpl)
{
PTHRD_MUTEX_LOCK(&thrdpl->shared.mutex);
while (thrdpl->shared.pending)
{
PTHRD_COND_WAIT(&thrdpl->shared.cond_pending, &thrdpl->shared.mutex);
}
PTHRD_MUTEX_UNLOCK(&thrdpl->shared.mutex);
}
void slunkcrypt_thrdpl_destroy(thrdpl_t *const thrdpl)
{ {
size_t i; size_t i;
thrdpl_data_t *const pool = (thrdpl_data_t*) thrdpl;
for (i = 0; i < pool->thread_count; ++i) if (thrdpl)
{ {
if (pthread_mutex_lock(&pool->thread_data[i].mutex) != 0) for (i = 0U; i < thrdpl->shared.thread_count; ++i)
{ {
abort(); destroy_worker(&thrdpl->thread_data[i]);
}
while ((pool->thread_data[i].state != THRD_STATE_IDLE) && (pool->thread_data[i].state != THRD_STATE_EXIT))
{
if (pthread_cond_wait(&pool->thread_data[i].cond, &pool->thread_data[i].mutex) != 0)
{
abort();
}
}
if (pthread_mutex_unlock(&pool->thread_data[i].mutex) != 0)
{
abort();
} }
} pthread_cond_destroy(&thrdpl->shared.cond_pending);
} pthread_mutex_destroy(&thrdpl->shared.mutex);
free(thrdpl);
void slunkcrypt_thrdpl_destroy(const thrdpl_t thrdpl)
{
size_t i;
thrdpl_data_t *const pool = (thrdpl_data_t*) thrdpl;
if (pool)
{
for (i = 0U; i < pool->thread_count; ++i)
{
destroy_worker_thread(&pool->thread_data[i]);
}
slunkcrypt_bzero(pool, sizeof(thrdpl_data_t));
free(pool);
} }
} }

View File

@ -9,16 +9,15 @@
#include <stdlib.h> #include <stdlib.h>
#include <stdint.h> #include <stdint.h>
#define MAX_THREADS 16U #define MAX_THREADS 32U
#define THRDPL_NULL ((thrdpl_t)NULL)
typedef void (*thrdpl_worker_t)(const size_t thread_count, void *const context, uint8_t *const buffer, const size_t length); typedef void (*thrdpl_worker_t)(const size_t thread_count, void *const context, uint8_t *const buffer, const size_t length);
typedef uintptr_t thrdpl_t; typedef struct thrdpl_data_t thrdpl_t;
thrdpl_t slunkcrypt_thrdpl_create(const size_t count); thrdpl_t *slunkcrypt_thrdpl_create(const size_t count);
size_t slunkcrypt_thrdpl_count(const thrdpl_t thrdpl); size_t slunkcrypt_thrdpl_count(const thrdpl_t *const thrdpl);
void slunkcrypt_thrdpl_exec(const thrdpl_t thrdpl, const size_t index, const thrdpl_worker_t worker, void *const context, uint8_t *const buffer, const size_t length); void slunkcrypt_thrdpl_exec(thrdpl_t *const thrdpl, const size_t index, const thrdpl_worker_t worker, void *const context, uint8_t *const buffer, const size_t length);
void slunkcrypt_thrdpl_await(const thrdpl_t thrdpl); void slunkcrypt_thrdpl_await(thrdpl_t *const thrdpl);
void slunkcrypt_thrdpl_destroy(const thrdpl_t thrdpl); void slunkcrypt_thrdpl_destroy(thrdpl_t *const thrdpl);
#endif #endif