// Expand or shrink a chunk returned by allocate_chunk().
// The chunk is never moved.
//
// Returns 0 if fail to expand (shrink will always succeed). Returns old
// size if successful.
size_t OsMemory_adjust_chunk(address chunk_ptr, size_t new_committed_size) {
ChunkInfo* ci = get_chunk_info(chunk_ptr);
size_t old_size = ci->size;
size_t new_size = page_align_up(new_committed_size);
if (new_size <= ci->mmaped_size) {
int rv;
if (new_size < old_size) {
rv = protect_area(chunk_ptr + new_size, old_size - new_size);
} else {
rv = unprotect_area(chunk_ptr, new_size);
}
GUARANTEE(rv == 0, "mprotect must succeed");
ci->size = new_size;
return old_size;
}
new_size = page_align_up(new_size - ci->mmaped_size);
if (anon_mmap(chunk_ptr + ci->mmaped_size, new_size) == NULL) {
return 0;
}
ci->mmaped_size += new_size;
ci->size = ci->mmaped_size;
unprotect_area(chunk_ptr, ci->size);
return old_size;
}
/** Records code chunk, corresponding to longest prefix of instruction sequence,
* into buffer [current, end). Changes _instr_ to instruction immediately
* following prefix. Returns next position in the buffer, or NULL if there is
* not enough space. */
void* record_chunk(void* ctx, instr_t** instr, void* current, void* end) {
struct code_chunk_t* chunk;
ssize_t max;
struct chunk_info_t chunk_info;
chunk = current;
max = end - current - sizeof(struct code_chunk_t);
if(max <= 0) {
return NULL;
}
if(max > UINT8_MAX) {
max = UINT8_MAX;
}
chunk_info = get_chunk_info(ctx, instr, max);
if(chunk_info.size == 0) {
return NULL;
}
chunk->pc = (uintptr_t)chunk_info.pc;
chunk->size = (uint8_t)chunk_info.size;
memcpy(chunk->code, chunk_info.pc, chunk_info.size);
return &chunk->code[chunk_info.size];
}
void OsMemory_free_chunk(address chunk_ptr) {
ChunkInfo* ci = get_chunk_info(chunk_ptr);
jvm_munmap(ci->addr, ci->mmaped_size);
release_chunk(chunk_ptr);
}
