/* * Copyright (c) 2017 Calvin Rose * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to * deal in the Software without restriction, including without limitation the * rights to use, copy, modify, merge, publish, distribute, sublicense, and/or * sell copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS * IN THE SOFTWARE. */ #include #include "symcache.h" #include "gc.h" /* GC State */ void *dst_vm_blocks; uint32_t dst_vm_gc_interval; uint32_t dst_vm_next_collection; /* Roots */ Dst *dst_vm_roots; uint32_t dst_vm_root_count; uint32_t dst_vm_root_capacity; /* Helpers for marking the various gc types */ static void dst_mark_funcenv(DstFuncEnv *env); static void dst_mark_funcdef(DstFuncDef *def); static void dst_mark_function(DstFunction *func); static void dst_mark_array(DstArray *array); static void dst_mark_table(DstTable *table); static void dst_mark_struct(const DstKV *st); static void dst_mark_tuple(const Dst *tuple); static void dst_mark_buffer(DstBuffer *buffer); static void dst_mark_string(const uint8_t *str); static void dst_mark_fiber(DstFiber *fiber); static void dst_mark_abstract(void *adata); /* Mark a value */ void dst_mark(Dst x) { switch (dst_type(x)) { default: break; case DST_STRING: case DST_SYMBOL: dst_mark_string(dst_unwrap_string(x)); break; case DST_FUNCTION: dst_mark_function(dst_unwrap_function(x)); break; case DST_ARRAY: dst_mark_array(dst_unwrap_array(x)); break; case DST_TABLE: dst_mark_table(dst_unwrap_table(x)); break; case DST_STRUCT: dst_mark_struct(dst_unwrap_struct(x)); break; case DST_TUPLE: dst_mark_tuple(dst_unwrap_tuple(x)); break; case DST_BUFFER: dst_mark_buffer(dst_unwrap_buffer(x)); break; case DST_FIBER: dst_mark_fiber(dst_unwrap_fiber(x)); break; case DST_ABSTRACT: dst_mark_abstract(dst_unwrap_abstract(x)); break; } } static void dst_mark_string(const uint8_t *str) { dst_gc_mark(dst_string_raw(str)); } static void dst_mark_buffer(DstBuffer *buffer) { dst_gc_mark(buffer); } static void dst_mark_abstract(void *adata) { dst_gc_mark(dst_abstract_header(adata)); } /* Mark a bunch of items in memory */ static void dst_mark_many(const Dst *values, int32_t n) { const Dst *end = values + n; while (values < end) { dst_mark(*values); values += 1; } } /* Mark a bunch of key values items in memory */ static void dst_mark_kvs(const DstKV *kvs, int32_t n) { const DstKV *end = kvs + n; while (kvs < end) { dst_mark(kvs->key); dst_mark(kvs->value); kvs++; } } static void dst_mark_array(DstArray *array) { if (dst_gc_reachable(array)) return; dst_gc_mark(array); dst_mark_many(array->data, array->count); } static void dst_mark_table(DstTable *table) { if (dst_gc_reachable(table)) return; dst_gc_mark(table); dst_mark_kvs(table->data, table->capacity); } static void dst_mark_struct(const DstKV *st) { if (dst_gc_reachable(dst_struct_raw(st))) return; dst_gc_mark(dst_struct_raw(st)); dst_mark_kvs(st, dst_struct_capacity(st)); } static void dst_mark_tuple(const Dst *tuple) { if (dst_gc_reachable(dst_tuple_raw(tuple))) return; dst_gc_mark(dst_tuple_raw(tuple)); dst_mark_many(tuple, dst_tuple_length(tuple)); } /* Helper to mark function environments */ static void dst_mark_funcenv(DstFuncEnv *env) { if (dst_gc_reachable(env)) return; dst_gc_mark(env); if (env->offset) { /* On stack */ dst_mark_fiber(env->as.fiber); } else { /* Not on stack */ dst_mark_many(env->as.values, env->length); } } /* GC helper to mark a FuncDef */ static void dst_mark_funcdef(DstFuncDef *def) { int32_t i; if (dst_gc_reachable(def)) return; dst_gc_mark(def); dst_mark_many(def->constants, def->constants_length); for (i = 0; i < def->defs_length; ++i) { dst_mark_funcdef(def->defs[i]); } if (def->source) dst_mark_string(def->source); if (def->sourcepath) dst_mark_string(def->sourcepath); } static void dst_mark_function(DstFunction *func) { int32_t i; int32_t numenvs; if (dst_gc_reachable(func)) return; dst_gc_mark(func); numenvs = func->def->environments_length; if (NULL != func->envs) for (i = 0; i < numenvs; ++i) if (NULL != func->envs[i]) dst_mark_funcenv(func->envs[i]); dst_mark_funcdef(func->def); } static void dst_mark_fiber(DstFiber *fiber) { int32_t i, j; DstStackFrame *frame; if (dst_gc_reachable(fiber)) return; dst_gc_mark(fiber); i = fiber->frame; j = fiber->stackstart - DST_FRAME_SIZE; while (i > 0) { frame = (DstStackFrame *)(fiber->data + i - DST_FRAME_SIZE); if (NULL != frame->func) dst_mark_function(frame->func); /* Mark all values in the stack frame */ dst_mark_many(fiber->data + i, j - i); j = i - DST_FRAME_SIZE; i = frame->prevframe; } if (NULL != fiber->parent) dst_mark_fiber(fiber->parent); } /* Deinitialize a block of memory */ static void dst_deinit_block(DstGCMemoryHeader *block) { void *mem = ((char *)(block + 1)); DstAbstractHeader *h = (DstAbstractHeader *)mem; switch (block->flags & DST_MEM_TYPEBITS) { default: break; /* Do nothing for non gc types */ case DST_MEMORY_SYMBOL: dst_symbol_deinit((const uint8_t *)mem + 2 * sizeof(int32_t)); break; case DST_MEMORY_ARRAY: dst_array_deinit((DstArray*) mem); break; case DST_MEMORY_TABLE: dst_table_deinit((DstTable*) mem); break; case DST_MEMORY_FIBER: free(((DstFiber *)mem)->data); break; case DST_MEMORY_BUFFER: dst_buffer_deinit((DstBuffer *) mem); break; case DST_MEMORY_FUNCTION: free(((DstFunction *)mem)->envs); break; case DST_MEMORY_ABSTRACT: if (h->type->gc) { if (h->type->gc((void *)(h + 1), h->size)) { /* finalizer failed. try again later? */ ; } } break; case DST_MEMORY_FUNCENV: { DstFuncEnv *env = (DstFuncEnv *)mem; if (0 == env->offset) free(env->as.values); } break; case DST_MEMORY_FUNCDEF: { DstFuncDef *def = (DstFuncDef *)mem; /* TODO - get this all with one alloc and one free */ free(def->defs); free(def->environments); free(def->constants); free(def->bytecode); free(def->sourcemap); } break; } } /* Iterate over all allocated memory, and free memory that is not * marked as reachable. Flip the gc color flag for next sweep. */ void dst_sweep() { DstGCMemoryHeader *previous = NULL; DstGCMemoryHeader *current = dst_vm_blocks; DstGCMemoryHeader *next; while (NULL != current) { next = current->next; if (current->flags & (DST_MEM_REACHABLE | DST_MEM_DISABLED)) { previous = current; current->flags &= ~DST_MEM_REACHABLE; } else { dst_deinit_block(current); if (NULL != previous) { previous->next = next; } else { dst_vm_blocks = next; } free(current); } current = next; } } /* Allocate some memory that is tracked for garbage collection */ void *dst_gcalloc(DstMemoryType type, size_t size) { DstGCMemoryHeader *mdata; size_t total = size + sizeof(DstGCMemoryHeader); /* Make sure everything is inited */ dst_assert(NULL != dst_vm_cache, "please initialize dst before use"); void *mem = malloc(total); /* Check for bad malloc */ if (NULL == mem) { DST_OUT_OF_MEMORY; } mdata = (DstGCMemoryHeader *)mem; /* Configure block */ mdata->flags = type; /* Prepend block to heap list */ dst_vm_next_collection += size; mdata->next = dst_vm_blocks; dst_vm_blocks = mdata; return mem + sizeof(DstGCMemoryHeader); } /* Run garbage collection */ void dst_collect() { uint32_t i; if (dst_vm_fiber) dst_mark_fiber(dst_vm_fiber); for (i = 0; i < dst_vm_root_count; i++) dst_mark(dst_vm_roots[i]); dst_sweep(); dst_vm_next_collection = 0; } /* Add a root value to the GC. This prevents the GC from removing a value * and all of its children. If gcroot is called on a value n times, unroot * must also be called n times to remove it as a gc root. */ void dst_gcroot(Dst root) { uint32_t newcount = dst_vm_root_count + 1; if (newcount > dst_vm_root_capacity) { uint32_t newcap = 2 * newcount; dst_vm_roots = realloc(dst_vm_roots, sizeof(Dst) * newcap); if (NULL == dst_vm_roots) { DST_OUT_OF_MEMORY; } dst_vm_root_capacity = newcap; } dst_vm_roots[dst_vm_root_count] = root; dst_vm_root_count = newcount; } /* Remove a root value from the GC. This allows the gc to potentially reclaim * a value and all its children. */ int dst_gcunroot(Dst root) { Dst *vtop = dst_vm_roots + dst_vm_root_count; Dst *v = dst_vm_roots; /* Search from top to bottom as access is most likely LIFO */ for (v = dst_vm_roots; v < vtop; v++) { if (dst_equals(root, *v)) { *v = dst_vm_roots[--dst_vm_root_count]; return 1; } } return 0; } /* Remove a root value from the GC. This sets the effective reference count to 0. */ int dst_gcunrootall(Dst root) { Dst *vtop = dst_vm_roots + dst_vm_root_count; Dst *v = dst_vm_roots; int ret = 0; /* Search from top to bottom as access is most likely LIFO */ for (v = dst_vm_roots; v < vtop; v++) { if (dst_equals(root, *v)) { *v = dst_vm_roots[--dst_vm_root_count]; vtop--; ret = 1; } } return ret; } /* Free all allocated memory */ void dst_clear_memory() { DstGCMemoryHeader *current = dst_vm_blocks; while (NULL != current) { dst_deinit_block(current); DstGCMemoryHeader *next = current->next; free(current); current = next; } dst_vm_blocks = NULL; }