rust/src/rt/rust_builtin.cpp

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#include "rust_internal.h"
#if !defined(__WIN32__)
#include <sys/time.h>
#endif
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/* Native builtins. */
extern "C" CDECL rust_str*
last_os_error(rust_task *task) {
rust_dom *dom = task->dom;
LOG(task, task, "last_os_error()");
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#if defined(__WIN32__)
LPTSTR buf;
DWORD err = GetLastError();
DWORD res = FormatMessage(FORMAT_MESSAGE_ALLOCATE_BUFFER |
FORMAT_MESSAGE_FROM_SYSTEM |
FORMAT_MESSAGE_IGNORE_INSERTS,
NULL, err,
MAKELANGID(LANG_NEUTRAL, SUBLANG_DEFAULT),
(LPTSTR) &buf, 0, NULL);
if (!res) {
task->fail(1);
return NULL;
}
#elif defined(_GNU_SOURCE)
char cbuf[BUF_BYTES];
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char *buf = strerror_r(errno, cbuf, sizeof(cbuf));
if (!buf) {
task->fail(1);
return NULL;
}
#else
char buf[BUF_BYTES];
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int err = strerror_r(errno, buf, sizeof(buf));
if (err) {
task->fail(1);
return NULL;
}
#endif
size_t fill = strlen(buf) + 1;
size_t alloc = next_power_of_two(sizeof(rust_str) + fill);
void *mem = dom->malloc(alloc, memory_region::LOCAL);
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if (!mem) {
task->fail(1);
return NULL;
}
rust_str *st = new (mem) rust_str(dom, alloc, fill, (const uint8_t *)buf);
#ifdef __WIN32__
LocalFree((HLOCAL)buf);
#endif
return st;
}
extern "C" CDECL rust_str *
rust_getcwd(rust_task *task) {
rust_dom *dom = task->dom;
LOG(task, task, "rust_getcwd()");
char cbuf[BUF_BYTES];
#if defined(__WIN32__)
if (!_getcwd(cbuf, sizeof(cbuf))) {
#else
if (!getcwd(cbuf, sizeof(cbuf))) {
#endif
task->fail(1);
return NULL;
}
size_t fill = strlen(cbuf) + 1;
size_t alloc = next_power_of_two(sizeof(rust_str) + fill);
void *mem = dom->malloc(alloc, memory_region::LOCAL);
if (!mem) {
task->fail(1);
return NULL;
}
rust_str *st;
st = new (mem) rust_str(dom, alloc, fill, (const uint8_t *)cbuf);
return st;
}
extern "C" CDECL
void squareroot(rust_task *task, double *input, double *output) {
*output = sqrt(*input);
}
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extern "C" CDECL size_t
size_of(rust_task *task, type_desc *t) {
return t->size;
}
extern "C" CDECL size_t
align_of(rust_task *task, type_desc *t) {
return t->align;
}
extern "C" CDECL intptr_t
refcount(rust_task *task, type_desc *t, intptr_t *v) {
if (*v == CONST_REFCOUNT)
return CONST_REFCOUNT;
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// Passed-in value has refcount 1 too high
// because it was ref'ed while making the call.
return (*v) - 1;
}
extern "C" CDECL void
do_gc(rust_task *task) {
task->gc(1);
}
extern "C" CDECL void
unsupervise(rust_task *task) {
task->unsupervise();
}
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extern "C" CDECL rust_vec*
vec_alloc(rust_task *task, type_desc *t, type_desc *elem_t, size_t n_elts)
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{
rust_dom *dom = task->dom;
LOG(task, mem, "vec_alloc %" PRIdPTR " elements of size %" PRIdPTR,
n_elts, elem_t->size);
size_t fill = n_elts * elem_t->size;
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size_t alloc = next_power_of_two(sizeof(rust_vec) + fill);
void *mem = task->malloc(alloc, t->is_stateful ? t : NULL);
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if (!mem) {
task->fail(4);
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return NULL;
}
rust_vec *vec = new (mem) rust_vec(dom, alloc, 0, NULL);
return vec;
}
extern "C" CDECL rust_vec*
vec_alloc_mut(rust_task *task, type_desc *t, type_desc *elem_t, size_t n_elts)
{
return vec_alloc(task, t, elem_t, n_elts);
}
extern "C" CDECL void *
vec_buf(rust_task *task, type_desc *ty, rust_vec *v, size_t offset)
{
return (void *)&v->data[ty->size * offset];
}
extern "C" CDECL size_t
vec_len(rust_task *task, type_desc *ty, rust_vec *v)
{
return v->fill / ty->size;
}
extern "C" CDECL void
vec_len_set(rust_task *task, type_desc *ty, rust_vec *v, size_t len)
{
LOG(task, stdlib, "vec_len_set(0x%" PRIxPTR ", %" PRIdPTR ") on vec with "
"alloc = %" PRIdPTR
", fill = %" PRIdPTR
", len = %" PRIdPTR
". New fill is %" PRIdPTR,
v, len, v->alloc, v->fill, v->fill / ty->size, len * ty->size);
v->fill = len * ty->size;
}
extern "C" CDECL void
vec_print_debug_info(rust_task *task, type_desc *ty, rust_vec *v)
{
LOG(task, stdlib,
"vec_print_debug_info(0x%" PRIxPTR ")"
" with tydesc 0x%" PRIxPTR
" (size = %" PRIdPTR ", align = %" PRIdPTR ")"
" alloc = %" PRIdPTR ", fill = %" PRIdPTR ", len = %" PRIdPTR
" , data = ...",
v,
ty,
ty->size,
ty->align,
v->alloc,
v->fill,
v->fill / ty->size);
for (size_t i = 0; i < v->fill; ++i) {
LOG(task, stdlib, " %" PRIdPTR ": 0x%" PRIxPTR, i, v->data[i]);
}
}
/* Helper for str_alloc and str_from_vec. Returns NULL as failure. */
static rust_vec*
vec_alloc_with_data(rust_task *task,
size_t n_elts,
size_t fill,
size_t elt_size,
void *d)
{
rust_dom *dom = task->dom;
size_t alloc = next_power_of_two(sizeof(rust_vec) + (n_elts * elt_size));
void *mem = dom->malloc(alloc, memory_region::LOCAL);
if (!mem) return NULL;
return new (mem) rust_vec(dom, alloc, fill * elt_size, (uint8_t*)d);
}
extern "C" CDECL rust_vec*
vec_from_vbuf(rust_task *task, type_desc *ty, void *vbuf, size_t n_elts)
{
return vec_alloc_with_data(task, n_elts, n_elts * ty->size, ty->size,
vbuf);
}
extern "C" CDECL rust_vec*
unsafe_vec_to_mut(rust_task *task, type_desc *ty, rust_vec *v)
{
if (v->ref_count != CONST_REFCOUNT) {
v->ref();
}
return v;
}
extern "C" CDECL rust_str*
str_alloc(rust_task *task, size_t n_bytes)
{
rust_str *st = vec_alloc_with_data(task,
n_bytes + 1, // +1 to fit at least ""
1, 1,
(void*)"");
if (!st) {
task->fail(2);
return NULL;
}
return st;
}
extern "C" CDECL rust_str*
str_push_byte(rust_task* task, rust_str* v, size_t byte)
{
size_t fill = v->fill;
size_t alloc = next_power_of_two(sizeof(rust_vec) + fill + 1);
if (v->ref_count > 1 || v->alloc < alloc) {
v = vec_alloc_with_data(task, fill + 1, fill, 1, (void*)&v->data[0]);
if (!v) {
task->fail(2);
return NULL;
}
}
else if (v->ref_count != CONST_REFCOUNT) {
v->ref();
}
v->data[fill-1] = (char)byte;
v->data[fill] = '\0';
v->fill++;
return v;
}
extern "C" CDECL rust_str*
str_slice(rust_task* task, rust_str* v, size_t begin, size_t end)
{
size_t len = end - begin;
rust_str *st =
vec_alloc_with_data(task,
len + 1, // +1 to fit at least '\0'
len,
1,
len ? v->data + begin : NULL);
if (!st) {
task->fail(2);
return NULL;
}
st->data[st->fill++] = '\0';
return st;
}
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extern "C" CDECL char const *
str_buf(rust_task *task, rust_str *s)
{
return (char const *)&s->data[0];
}
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extern "C" CDECL rust_vec*
str_vec(rust_task *task, rust_str *s)
{
// FIXME: this should just upref s and return it, but we
// accidentally made too much of the language and runtime know
// and care about the difference between str and vec (trailing null);
// eliminate these differences and then rewrite this back to just
// the following:
//
// if (s->ref_count != CONST_REFCOUNT)
// s->ref();
// return s;
rust_str *v =
vec_alloc_with_data(task,
s->fill - 1,
s->fill - 1,
1,
(s->fill - 1) ? (void*)s->data : NULL);
if (!v) {
task->fail(2);
return NULL;
}
return v;
}
extern "C" CDECL size_t
str_byte_len(rust_task *task, rust_str *s)
{
return s->fill - 1; // -1 for the '\0' terminator.
}
extern "C" CDECL rust_str *
str_from_vec(rust_task *task, rust_vec *v)
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{
rust_str *st =
vec_alloc_with_data(task,
v->fill + 1, // +1 to fit at least '\0'
v->fill,
1,
v->fill ? (void*)v->data : NULL);
if (!st) {
task->fail(2);
return NULL;
}
st->data[st->fill++] = '\0';
return st;
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}
extern "C" CDECL rust_str *
str_from_cstr(rust_task *task, char *sbuf)
{
size_t len = strlen(sbuf) + 1;
rust_str *st = vec_alloc_with_data(task, len, len, 1, sbuf);
if (!st) {
task->fail(2);
return NULL;
}
return st;
}
extern "C" CDECL rust_str *
str_from_buf(rust_task *task, char *buf, unsigned int len) {
rust_str *st = vec_alloc_with_data(task, len + 1, len, 1, buf);
if (!st) {
task->fail(2);
return NULL;
}
st->data[st->fill++] = '\0';
return st;
}
extern "C" CDECL void *
rand_new(rust_task *task)
{
rust_dom *dom = task->dom;
randctx *rctx = (randctx *) task->malloc(sizeof(randctx));
if (!rctx) {
task->fail(1);
return NULL;
}
isaac_init(dom, rctx);
return rctx;
}
extern "C" CDECL size_t
rand_next(rust_task *task, randctx *rctx)
{
return rand(rctx);
}
extern "C" CDECL void
rand_free(rust_task *task, randctx *rctx)
{
task->free(rctx);
}
extern "C" CDECL void upcall_sleep(rust_task *task, size_t time_in_us);
extern "C" CDECL void
task_sleep(rust_task *task, size_t time_in_us) {
upcall_sleep(task, time_in_us);
}
extern "C" CDECL void
task_yield(rust_task *task) {
task->yield(1);
}
extern "C" CDECL void
task_join(rust_task *task, rust_task *join_task) {
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// If the other task is already dying, we don't have to wait for it.
if (join_task->dead() == false) {
join_task->tasks_waiting_to_join.push(task);
task->block(join_task, "joining local task");
task->yield(2);
}
}
/* Debug builtins for std.dbg. */
static void
debug_tydesc_helper(rust_task *task, type_desc *t)
{
LOG(task, stdlib, " size %" PRIdPTR ", align %" PRIdPTR
", stateful %" PRIdPTR ", first_param 0x%" PRIxPTR,
t->size, t->align, t->is_stateful, t->first_param);
}
extern "C" CDECL void
debug_tydesc(rust_task *task, type_desc *t)
{
LOG(task, stdlib, "debug_tydesc");
debug_tydesc_helper(task, t);
}
extern "C" CDECL void
debug_opaque(rust_task *task, type_desc *t, uint8_t *front)
{
LOG(task, stdlib, "debug_opaque");
debug_tydesc_helper(task, t);
// FIXME may want to actually account for alignment. `front` may not
// indeed be the front byte of the passed-in argument.
for (uintptr_t i = 0; i < t->size; ++front, ++i) {
LOG(task, stdlib, " byte %" PRIdPTR ": 0x%" PRIx8, i, *front);
}
}
struct rust_box : rc_base<rust_box> {
// FIXME `data` could be aligned differently from the actual box body data
uint8_t data[];
};
extern "C" CDECL void
debug_box(rust_task *task, type_desc *t, rust_box *box)
{
LOG(task, stdlib, "debug_box(0x%" PRIxPTR ")", box);
debug_tydesc_helper(task, t);
LOG(task, stdlib, " refcount %" PRIdPTR,
box->ref_count == CONST_REFCOUNT
? CONST_REFCOUNT
: box->ref_count - 1); // -1 because we ref'ed for this call
for (uintptr_t i = 0; i < t->size; ++i) {
LOG(task, stdlib, " byte %" PRIdPTR ": 0x%" PRIx8, i, box->data[i]);
}
}
struct rust_tag {
uintptr_t discriminant;
uint8_t variant[];
};
extern "C" CDECL void
debug_tag(rust_task *task, type_desc *t, rust_tag *tag)
{
LOG(task, stdlib, "debug_tag");
debug_tydesc_helper(task, t);
LOG(task, stdlib, " discriminant %" PRIdPTR, tag->discriminant);
for (uintptr_t i = 0; i < t->size - sizeof(tag->discriminant); ++i)
LOG(task, stdlib, " byte %" PRIdPTR ": 0x%" PRIx8, i,
tag->variant[i]);
}
struct rust_obj {
uintptr_t *vtbl;
rust_box *body;
};
extern "C" CDECL void
debug_obj(rust_task *task, type_desc *t, rust_obj *obj,
size_t nmethods, size_t nbytes)
{
LOG(task, stdlib, "debug_obj with %" PRIdPTR " methods", nmethods);
debug_tydesc_helper(task, t);
LOG(task, stdlib, " vtbl at 0x%" PRIxPTR, obj->vtbl);
LOG(task, stdlib, " body at 0x%" PRIxPTR, obj->body);
for (uintptr_t *p = obj->vtbl; p < obj->vtbl + nmethods; ++p)
LOG(task, stdlib, " vtbl word: 0x%" PRIxPTR, *p);
for (uintptr_t i = 0; i < nbytes; ++i)
LOG(task, stdlib, " body byte %" PRIdPTR ": 0x%" PRIxPTR,
i, obj->body->data[i]);
}
struct rust_fn {
uintptr_t *thunk;
rust_box *closure;
};
extern "C" CDECL void
debug_fn(rust_task *task, type_desc *t, rust_fn *fn)
{
LOG(task, stdlib, "debug_fn");
debug_tydesc_helper(task, t);
LOG(task, stdlib, " thunk at 0x%" PRIxPTR, fn->thunk);
LOG(task, stdlib, " closure at 0x%" PRIxPTR, fn->closure);
if (fn->closure) {
LOG(task, stdlib, " refcount %" PRIdPTR, fn->closure->ref_count);
}
}
extern "C" CDECL void *
debug_ptrcast(rust_task *task,
type_desc *from_ty,
type_desc *to_ty,
void *ptr)
{
LOG(task, stdlib, "debug_ptrcast from");
debug_tydesc_helper(task, from_ty);
LOG(task, stdlib, "to");
debug_tydesc_helper(task, to_ty);
return ptr;
}
extern "C" CDECL void
debug_trap(rust_task *task, rust_str *s)
{
LOG(task, stdlib, "trapping: %s", s->data);
// FIXME: x86-ism.
__asm__("int3");
}
rust_str* c_str_to_rust(rust_task *task, char const *str) {
size_t len = strlen(str) + 1;
return vec_alloc_with_data(task, len, len, 1, (void*)str);
}
extern "C" CDECL rust_vec*
rust_list_files(rust_task *task, rust_str *path) {
array_list<rust_str*> strings;
#if defined(__WIN32__)
WIN32_FIND_DATA FindFileData;
HANDLE hFind = FindFirstFile((char*)path->data, &FindFileData);
if (hFind != INVALID_HANDLE_VALUE) {
do {
strings.push(c_str_to_rust(task, FindFileData.cFileName));
} while (FindNextFile(hFind, &FindFileData));
FindClose(hFind);
}
#else
DIR *dirp = opendir((char*)path->data);
if (dirp) {
struct dirent *dp;
while ((dp = readdir(dirp)))
strings.push(c_str_to_rust(task, dp->d_name));
closedir(dirp);
}
#endif
return vec_alloc_with_data(task, strings.size(), strings.size(),
sizeof(rust_str*), strings.data());
}
#if defined(__WIN32__)
extern "C" CDECL rust_str *
rust_dirent_filename(rust_task *task, void* ent) {
return NULL;
}
#else
extern "C" CDECL rust_str *
rust_dirent_filename(rust_task *task, dirent* ent) {
return c_str_to_rust(task, ent->d_name);
}
#endif
extern "C" CDECL int
rust_file_is_dir(rust_task *task, rust_str *path) {
struct stat buf;
stat((char*)path->data, &buf);
return S_ISDIR(buf.st_mode);
}
extern "C" CDECL FILE* rust_get_stdin() {return stdin;}
extern "C" CDECL FILE* rust_get_stdout() {return stdout;}
extern "C" CDECL int
rust_ptr_eq(rust_task *task, type_desc *t, rust_box *a, rust_box *b) {
return a == b;
}
#if defined(__WIN32__)
extern "C" CDECL void
get_time(rust_task *task, uint32_t *sec, uint32_t *usec) {
SYSTEMTIME systemTime;
FILETIME fileTime;
GetSystemTime(&systemTime);
if (!SystemTimeToFileTime(&systemTime, &fileTime)) {
task->fail(1);
return;
}
// FIXME: This is probably completely wrong.
*sec = fileTime.dwHighDateTime;
*usec = fileTime.dwLowDateTime;
}
#else
extern "C" CDECL void
get_time(rust_task *task, uint32_t *sec, uint32_t *usec) {
struct timeval tv;
gettimeofday(&tv, NULL);
*sec = tv.tv_sec;
*usec = tv.tv_usec;
}
#endif
/**
* Preallocates the exact number of bytes in the given interior vector.
*/
extern "C" void
ivec_reserve(rust_task *task, type_desc *ty, rust_ivec *v, size_t n_elems)
{
size_t new_alloc = n_elems * ty->size;
if (new_alloc <= v->alloc)
return; // Already big enough.
rust_ivec_heap *heap_part;
if (v->fill || !v->payload.ptr) {
// On stack; spill to heap.
heap_part = (rust_ivec_heap *)task->malloc(new_alloc +
sizeof(size_t));
heap_part->fill = v->fill;
memcpy(&heap_part->data, v->payload.data, v->fill);
v->fill = 0;
v->payload.ptr = heap_part;
} else {
// On heap; resize.
heap_part = (rust_ivec_heap *)task->realloc(v->payload.ptr,
new_alloc + sizeof(size_t));
v->payload.ptr = heap_part;
}
v->alloc = new_alloc;
}
/**
* Returns true if the given vector is on the heap and false if it's on the
* stack.
*/
extern "C" bool
ivec_on_heap(rust_task *task, type_desc *ty, rust_ivec *v)
{
return !v->fill && v->payload.ptr;
}
/**
* Returns an unsafe pointer to the data part of an interior vector.
*/
extern "C" void *
ivec_to_ptr(rust_task *task, type_desc *ty, rust_ivec *v)
{
return v->fill ? v->payload.data : v->payload.ptr->data;
}
static size_t
get_ivec_size(rust_ivec *v)
{
if (v->fill)
return v->fill;
if (v->payload.ptr)
return v->payload.ptr->fill;
return 0;
}
/**
* Copies elements in an unsafe buffer to the given interior vector. The
* vector must have size zero.
*/
extern "C" void
ivec_copy_from_buf(rust_task *task, type_desc *ty, rust_ivec *v, void *ptr,
size_t count)
{
size_t old_size = get_ivec_size(v);
if (old_size) {
task->fail(1);
return;
}
ivec_reserve(task, ty, v, count);
size_t new_size = count * ty->size;
if (v->fill || !v->payload.ptr) {
// On stack.
memmove(v->payload.data, ptr, new_size);
v->fill = new_size;
return;
}
// On heap.
memmove(v->payload.ptr->data, ptr, new_size);
v->payload.ptr->fill = new_size;
}
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//
// Local Variables:
// mode: C++
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// compile-command: "make -k -C $RBUILD 2>&1 | sed -e 's/\\/x\\//x:\\//g'";
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// End:
//