mirrors/janet
1
0
Fork 0
mirror of https://github.com/janet-lang/janet synced 2024-11-25 17:57:17 +00:00
Code Issues 1 Releases Wiki Activity

Work on threads.

Browse Source 
Add send and receive.
This commit is contained in:
Calvin Rose 2019-12-01 20:28:12 -06:00
parent 5cd6580c2d
commit 6a763aac95
7 changed files with 280 additions and 92 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

11
src/boot/boot.janet
View File

@ -2119,17 +2119,6 @@
:on-status (or onsignal (make-onsignal env 1)) :on-status (or onsignal (make-onsignal env 1))
:source "repl"})) :source "repl"}))
###
###
### Thread Extras
###
###
(defn thread/new
"Create a new thread from a closure."
[f]
(thread/from-image (make-image f)))
### ###
### ###
### CLI Tool Main ### CLI Tool Main

23
src/core/corelib.c
View File

@ -1194,8 +1194,27 @@ JanetTable *janet_core_env(JanetTable *replacements) {
#else #else
JanetTable *janet_core_dictionary(JanetTable *replacements) { JanetTable *janet_core_dictionary(JanetTable *replacements) {
JanetTable *dict = (NULL != replacements) ? replacements : janet_table(0); JanetTable *dict;
janet_load_libs(dict); if (NULL == janet_vm_core_dictionary) {
dict = janet_table(0);
janet_load_libs(dict);
janet_vm_core_dictionary = dict;
janet_gcroot(janet_wrap_table(dict));
/* do replacements */
if (NULL != replacements) {
for (int32_t i = 0; i < replacements->capacity; i++) {
if (!janet_checktype(replacements->data[i].key, JANET_NIL)) {
const JanetKV *kv = replacements->data + i;
janet_table_put(dict, kv->key, kv->value);
if (janet_checktype(kv->value, JANET_CFUNCTION)) {
janet_table_put(janet_vm_registry, kv->value, kv->key);
}
}
}
}
} else {
dict = janet_vm_core_dictionary;
}
return dict; return dict;
} }

3
src/core/state.h
View File

@ -32,6 +32,9 @@
* be in it. However, thread local global variables for interpreter * be in it. However, thread local global variables for interpreter
* state should allow easy multi-threading. */ * state should allow easy multi-threading. */
/* The core dictionary is memoized */
extern JANET_THREAD_LOCAL JanetTable *janet_vm_core_dictionary;
/* How many VM stacks have been entered */ /* How many VM stacks have been entered */
extern JANET_THREAD_LOCAL int janet_vm_stackn; extern JANET_THREAD_LOCAL int janet_vm_stackn;

269
src/core/thread.c
View File

@ -24,19 +24,134 @@
#include <janet.h> #include <janet.h>
#include "gc.h" #include "gc.h"
#include "util.h" #include "util.h"
#include "state.h"
#endif #endif
#ifdef JANET_THREADS #ifdef JANET_THREADS
#include <pthread.h> #include <pthread.h>
#include <setjmp.h>
static void shared_cleanup(JanetThreadShared *shared) { static void janet_channel_init(JanetChannel *channel, size_t initialSize) {
janet_buffer_init(&channel->buf, (int32_t) initialSize);
pthread_mutex_init(&channel->lock, NULL);
pthread_cond_init(&channel->cond, NULL);
}
static void janet_channel_destroy(JanetChannel *channel) {
janet_buffer_deinit(&channel->buf);
pthread_mutex_destroy(&channel->lock);
pthread_cond_destroy(&channel->cond);
}
static JanetThreadShared *janet_shared_create(size_t initialSize) {
const char *errmsg = "could not allocate memory for thread";
JanetThreadShared *shared = malloc(sizeof(JanetThreadShared));
if (NULL == shared) janet_panicf(errmsg);
uint8_t *mem = malloc(initialSize);
if (NULL == mem) janet_panic(errmsg);
janet_channel_init(&shared->parent, 0);
janet_channel_init(&shared->child, initialSize);
shared->refCount = 2;
pthread_mutex_init(&shared->refCountLock, NULL);
return shared;
}
static void janet_shared_destroy(JanetThreadShared *shared) {
janet_channel_destroy(&shared->parent);
janet_channel_destroy(&shared->child);
pthread_mutex_destroy(&shared->refCountLock); pthread_mutex_destroy(&shared->refCountLock);
pthread_mutex_destroy(&shared->memoryLock);
free(shared->memory);
free(shared); free(shared);
} }
/* Returns 1 if could not send. Does not block or panic. Bytes should be a janet value that
* has been marshalled. */
static int janet_channel_send_any(JanetChannel *channel, Janet msg, JanetByteView bytes, int is_bytes, JanetTable *dict) {
pthread_mutex_lock(&channel->lock);
/* Hack to capture all panics from marshalling. This works because
* we know janet_marshal won't mess with other essential global state. */
jmp_buf buf;
jmp_buf *old_buf = janet_vm_jmp_buf;
janet_vm_jmp_buf = &buf;
int32_t oldcount = channel->buf.count;
int ret = 0;
if (setjmp(buf)) {
ret = 1;
channel->buf.count = oldcount;
} else {
if (is_bytes) {
janet_buffer_push_bytes(&channel->buf, bytes.bytes, bytes.len);
} else {
janet_marshal(&channel->buf, msg, dict, 0);
}
/* Was empty, signal to cond */
if (oldcount == 0) {
pthread_cond_signal(&channel->cond);
}
}
/* Cleanup */
janet_vm_jmp_buf = old_buf;
pthread_mutex_unlock(&channel->lock);
return ret;
}
static int janet_channel_send(JanetChannel *channel, Janet msg, JanetTable *dict) {
JanetByteView dud = {0};
return janet_channel_send_any(channel, msg, dud, 0, dict);
}
/*
static int janet_channel_send_image(JanetChannel *channel, JanetByteView bytes) {
return janet_channel_send_any(channel, janet_wrap_nil(), bytes, 1, NULL);
}
*/
/* Returns 1 if nothing in queue or failed to get item. Does not block or panic. Uses dict to read bytes from
* the channel and unmarshal them. */
static int janet_channel_receive(JanetChannel *channel, Janet *msg_out, JanetTable *dict) {
pthread_mutex_lock(&channel->lock);
/* If queue is empty, block for now. */
while (channel->buf.count == 0) {
pthread_cond_wait(&channel->cond, &channel->lock);
}
/* Hack to capture all panics from marshalling. This works because
* we know janet_marshal won't mess with other essential global state. */
jmp_buf buf;
jmp_buf *old_buf = janet_vm_jmp_buf;
janet_vm_jmp_buf = &buf;
/* Handle errors */
int ret = 0;
if (setjmp(buf)) {
/* Clear the channel on errors */
channel->buf.count = 0;
ret = 1;
} else {
/* Read from beginning of channel */
const uint8_t *nextItem = NULL;
Janet item = janet_unmarshal(channel->buf.data, channel->buf.count, 0, dict, &nextItem);
/* Update memory and put result into *msg_out */
int32_t chunkCount = nextItem - channel->buf.data;
memmove(channel->buf.data, nextItem, channel->buf.count - chunkCount);
channel->buf.count -= chunkCount;
*msg_out = item;
}
/* Cleanup */
janet_vm_jmp_buf = old_buf;
pthread_mutex_unlock(&channel->lock);
return ret;
}
static int thread_gc(void *p, size_t size) { static int thread_gc(void *p, size_t size) {
JanetThread *thread = (JanetThread *)p; JanetThread *thread = (JanetThread *)p;
JanetThreadShared *shared = thread->shared; JanetThreadShared *shared = thread->shared;
@ -45,17 +160,26 @@ static int thread_gc(void *p, size_t size) {
pthread_mutex_lock(&shared->refCountLock); pthread_mutex_lock(&shared->refCountLock);
int refcount = --shared->refCount; int refcount = --shared->refCount;
if (refcount == 0) { if (refcount == 0) {
shared_cleanup(shared); janet_shared_destroy(shared);
} else { } else {
pthread_mutex_unlock(&shared->refCountLock); pthread_mutex_unlock(&shared->refCountLock);
} }
return 0; return 0;
} }
static int thread_mark(void *p, size_t size) {
JanetThread *thread = (JanetThread *)p;
(void) size;
if (NULL != thread->dict) {
janet_mark(janet_wrap_table(thread->dict));
}
return 0;
}
static JanetAbstractType Thread_AT = { static JanetAbstractType Thread_AT = {
"core/thread", "core/thread",
thread_gc, thread_gc,
NULL, thread_mark,
NULL, NULL,
NULL, NULL,
NULL, NULL,
@ -63,43 +187,53 @@ static JanetAbstractType Thread_AT = {
NULL NULL
}; };
static JanetThread *janet_make_thread(JanetThreadShared *shared, JanetTable *dict, int who) {
JanetThread *thread = janet_abstract(&Thread_AT, sizeof(JanetThread));
thread->shared = shared;
thread->kind = who;
thread->dict = dict;
thread->handle = NULL;
return thread;
}
JanetThread *janet_getthread(Janet *argv, int32_t n) { JanetThread *janet_getthread(Janet *argv, int32_t n) {
return (JanetThread *) janet_getabstract(argv, n, &Thread_AT); return (JanetThread *) janet_getabstract(argv, n, &Thread_AT);
} }
/* Runs in new thread */ /* Runs in new thread */
static int thread_worker(JanetThreadShared *shared) { static int thread_worker(JanetThreadShared *shared) {
pthread_t handle = pthread_self();
pthread_detach(handle);
/* Init VM */ /* Init VM */
janet_init(); janet_init();
/* Get dictionary */
JanetTable *dict = janet_core_dictionary(NULL); JanetTable *dict = janet_core_dictionary(NULL);
const uint8_t *next = NULL;
/* Create self thread */
JanetThread *thread = janet_make_thread(shared, dict, JANET_THREAD_SELF);
thread->handle = handle;
Janet threadv = janet_wrap_abstract(thread);
/* Unmarshal the function */ /* Unmarshal the function */
Janet funcv = janet_unmarshal(shared->memory, shared->memorySize, 0, dict, &next); Janet funcv;
if (next == shared->memory) goto error; int status = janet_channel_receive(&shared->child, &funcv, dict);
if (status) goto error;
if (!janet_checktype(funcv, JANET_FUNCTION)) goto error; if (!janet_checktype(funcv, JANET_FUNCTION)) goto error;
JanetFunction *func = janet_unwrap_function(funcv); JanetFunction *func = janet_unwrap_function(funcv);
/* Create self thread */ /* Arity check */
JanetThread *thread = janet_abstract(&Thread_AT, sizeof(JanetThread)); if (func->def->min_arity > 1 || func->def->max_arity < 1) {
thread->shared = shared; goto error;
thread->handle = pthread_self(); }
/* Clean up thread when done, do not wait for a join. For
* communicating with other threads, we will rely on the
* JanetThreadShared structure. */
pthread_detach(thread->handle);
/* Call function */ /* Call function */
JanetFiber *fiber = janet_fiber(func, 64, 0, NULL); Janet argv[1] = { threadv };
fiber->env = janet_table(0); JanetFiber *fiber = janet_fiber(func, 64, 1, argv);
janet_table_put(fiber->env, janet_ckeywordv("worker"), janet_wrap_abstract(thread));
Janet out; Janet out;
janet_continue(fiber, janet_wrap_nil(), &out); janet_continue(fiber, janet_wrap_nil(), &out);
/* TODO - marshal 'out' into sharedMemory */
/* Success */ /* Success */
janet_deinit(); janet_deinit();
return 0; return 0;
@ -110,47 +244,84 @@ error:
return 1; return 1;
} }
void *janet_pthread_wrapper(void *param) { static void *janet_pthread_wrapper(void *param) {
thread_worker((JanetThreadShared *)param); thread_worker((JanetThreadShared *)param);
return NULL; return NULL;
} }
static Janet cfun_from_image(int32_t argc, Janet *argv) { static void janet_thread_start_child(JanetThread *thread) {
janet_fixarity(argc, 1); JanetThreadShared *shared = thread->shared;
JanetByteView bytes = janet_getbytes(argv, 0);
/* Create Shared memory chunk of thread object */
JanetThreadShared *shared = malloc(sizeof(JanetThreadShared));
uint8_t *mem = malloc(bytes.len);
if (NULL == shared || NULL == mem) {
janet_panicf("could not allocate memory for thread");
}
shared->memory = mem;
shared->memorySize = bytes.len;
memcpy(mem, bytes.bytes, bytes.len);
shared->refCount = 2;
pthread_mutex_init(&shared->refCountLock, NULL);
pthread_mutex_init(&shared->memoryLock, NULL);
/* Create thread abstract */
JanetThread *thread = janet_abstract(&Thread_AT, sizeof(JanetThread));
thread->shared = shared;
/* Run thread */
int error = pthread_create(&thread->handle, NULL, janet_pthread_wrapper, shared); int error = pthread_create(&thread->handle, NULL, janet_pthread_wrapper, shared);
if (error) { if (error) {
thread->shared = NULL; /* Prevent GC from trying to mess with shared memory here */ thread->shared = NULL; /* Prevent GC from trying to mess with shared memory here */
shared_cleanup(shared); janet_shared_destroy(shared);
} }
}
/*
* Cfuns
*/
static Janet cfun_thread_new(int32_t argc, Janet *argv) {
janet_arity(argc, 0, 1);
JanetTable *dict = NULL;
if (argc == 0 || janet_checktype(argv[0], JANET_NIL)) {
dict = janet_core_dictionary(NULL);
} else {
dict = janet_gettable(argv, 0);
}
JanetThreadShared *shared = janet_shared_create(0);
JanetThread *thread = janet_make_thread(shared, dict, JANET_THREAD_OTHER);
janet_thread_start_child(thread);
return janet_wrap_abstract(thread); return janet_wrap_abstract(thread);
} }
static Janet cfun_thread_send(int32_t argc, Janet *argv) {
janet_fixarity(argc, 2);
JanetThread *thread = janet_getthread(argv, 0);
JanetThreadShared *shared = thread->shared;
if (NULL == shared) janet_panic("channel has closed");
int status = janet_channel_send(thread->kind == JANET_THREAD_SELF ? &shared->parent : &shared->child,
argv[1],
thread->dict);
if (status) {
janet_panicf("failed to send message %v", argv[1]);
}
return argv[0];
}
static Janet cfun_thread_receive(int32_t argc, Janet *argv) {
janet_fixarity(argc, 1);
JanetThread *thread = janet_getthread(argv, 0);
JanetThreadShared *shared = thread->shared;
if (NULL == shared) janet_panic("channel has closed");
Janet out = janet_wrap_nil();
int status = janet_channel_receive(thread->kind == JANET_THREAD_SELF ? &shared->child : &shared->parent,
&out,
thread->dict);
if (status) {
janet_panic("failed to receive message");
}
return out;
}
static const JanetReg threadlib_cfuns[] = { static const JanetReg threadlib_cfuns[] = {
{ {
"thread/from-image", cfun_from_image, "thread/new", cfun_thread_new,
JDOC("(thread/from-image image)\n\n" JDOC("(thread/new &opt dict)\n\n"
"Start a new thread. image is a byte sequence, containing a marshalled function.") "Start a new thread. The thread will wait for a message containing the function used to start the thread, which should be subsequently "
"sent over after thread creation.")
},
{
"thread/send", cfun_thread_send,
JDOC("(thread/send thread msg)\n\n"
"Send a message to the thread. This will never block and returns thread immediately. "
"Will throw an error if there is a problem sending the message.")
},
{
"thread/receive", cfun_thread_receive,
JDOC("(thread/receive thread)\n\n"
"Get a value sent to thread. Will block if there is no value was sent to this thread yet. Returns the message sent to the thread.")
}, },
{NULL, NULL, NULL} {NULL, NULL, NULL}
}; };

15
src/core/util.c
View File

@ -331,18 +331,9 @@ const JanetAbstractType *janet_get_abstract_type(Janet key) {
void janet_core_def(JanetTable *env, const char *name, Janet x, const void *p) { void janet_core_def(JanetTable *env, const char *name, Janet x, const void *p) {
(void) p; (void) p;
Janet key = janet_csymbolv(name); Janet key = janet_csymbolv(name);
Janet value; janet_table_put(env, key, x);
/* During init, allow replacing core library cfunctions with values from if (janet_checktype(x, JANET_CFUNCTION)) {
* the env. */ janet_table_put(janet_vm_registry, x, key);
Janet check = janet_table_get(env, key);
if (janet_checktype(check, JANET_NIL)) {
value = x;
} else {
value = check;
}
janet_table_put(env, key, value);
if (janet_checktype(value, JANET_CFUNCTION)) {
janet_table_put(janet_vm_registry, value, key);
} }
} }

4
src/core/vm.c
View File

@ -30,6 +30,7 @@
#endif #endif
/* VM state */ /* VM state */
JANET_THREAD_LOCAL JanetTable *janet_vm_core_dictionary;
JANET_THREAD_LOCAL JanetTable *janet_vm_registry; JANET_THREAD_LOCAL JanetTable *janet_vm_registry;
JANET_THREAD_LOCAL int janet_vm_stackn = 0; JANET_THREAD_LOCAL int janet_vm_stackn = 0;
JANET_THREAD_LOCAL JanetFiber *janet_vm_fiber = NULL; JANET_THREAD_LOCAL JanetFiber *janet_vm_fiber = NULL;
@ -1240,6 +1241,8 @@ int janet_init(void) {
/* Initialize registry */ /* Initialize registry */
janet_vm_registry = janet_table(0); janet_vm_registry = janet_table(0);
janet_gcroot(janet_wrap_table(janet_vm_registry)); janet_gcroot(janet_wrap_table(janet_vm_registry));
/* Core env and dictionary */
janet_vm_core_dictionary = NULL;
/* Seed RNG */ /* Seed RNG */
janet_rng_seed(janet_default_rng(), 0); janet_rng_seed(janet_default_rng(), 0);
return 0; return 0;
@ -1254,4 +1257,5 @@ void janet_deinit(void) {
janet_vm_root_count = 0; janet_vm_root_count = 0;
janet_vm_root_capacity = 0; janet_vm_root_capacity = 0;
janet_vm_registry = NULL; janet_vm_registry = NULL;
janet_vm_core_dictionary = NULL;
} }

47
src/include/janet.h
View File

@ -324,24 +324,6 @@ typedef struct JanetRange JanetRange;
typedef struct JanetRNG JanetRNG; typedef struct JanetRNG JanetRNG;
typedef Janet(*JanetCFunction)(int32_t argc, Janet *argv); typedef Janet(*JanetCFunction)(int32_t argc, Janet *argv);
/* Thread types */
#ifdef JANET_THREADS
#include <pthread.h>
typedef struct JanetThread JanetThread;
typedef struct JanetThreadShared JanetThreadShared;
struct JanetThreadShared {
pthread_mutex_t memoryLock;
pthread_mutex_t refCountLock;
uint8_t *memory;
size_t memorySize;
int refCount;
};
struct JanetThread {
pthread_t handle;
JanetThreadShared *shared;
};
#endif
/* Basic types for all Janet Values */ /* Basic types for all Janet Values */
typedef enum JanetType { typedef enum JanetType {
JANET_NUMBER, JANET_NUMBER,
@ -956,6 +938,35 @@ struct JanetRNG {
uint32_t counter; uint32_t counter;
}; };
/* Thread types */
#ifdef JANET_THREADS
#include <pthread.h>
typedef struct JanetThread JanetThread;
typedef struct JanetThreadShared JanetThreadShared;
typedef struct JanetChannel JanetChannel;
struct JanetChannel {
pthread_mutex_t lock;
pthread_cond_t cond;
JanetBuffer buf;
};
struct JanetThreadShared {
pthread_mutex_t refCountLock;
int refCount;
JanetChannel parent;
JanetChannel child;
};
struct JanetThread {
pthread_t handle;
JanetThreadShared *shared;
JanetTable *dict;
enum {
JANET_THREAD_SELF,
JANET_THREAD_OTHER
} kind;
};
#endif
/***** END SECTION TYPES *****/ /***** END SECTION TYPES *****/
/***** START SECTION OPCODES *****/ /***** START SECTION OPCODES *****/