unleashed-firmware/lib/mjs/mjs_util.c

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/*
* Copyright (c) 2017 Cesanta Software Limited
* All rights reserved
*/
#include "common/cs_varint.h"
#include "common/frozen/frozen.h"
#include "mjs_array.h"
#include "mjs_bcode.h"
#include "mjs_core.h"
#include "mjs_internal.h"
#include "mjs_object.h"
#include "mjs_primitive.h"
#include "mjs_string.h"
#include "mjs_util.h"
#include "mjs_tok.h"
#include "mjs_array_buf.h"
#include <furi.h>
const char* mjs_typeof(mjs_val_t v) {
return mjs_stringify_type(mjs_get_type(v));
}
MJS_PRIVATE const char* mjs_stringify_type(enum mjs_type t) {
switch(t) {
case MJS_TYPE_NUMBER:
return "number";
case MJS_TYPE_BOOLEAN:
return "boolean";
case MJS_TYPE_STRING:
return "string";
case MJS_TYPE_OBJECT_ARRAY:
return "array";
case MJS_TYPE_OBJECT_GENERIC:
return "object";
case MJS_TYPE_FOREIGN:
return "foreign_ptr";
case MJS_TYPE_OBJECT_FUNCTION:
return "function";
case MJS_TYPE_NULL:
return "null";
case MJS_TYPE_UNDEFINED:
return "undefined";
case MJS_TYPE_ARRAY_BUF:
return "array_buf";
case MJS_TYPE_ARRAY_BUF_VIEW:
return "data_view";
default:
return "???";
}
}
void mjs_jprintf(mjs_val_t v, struct mjs* mjs, struct json_out* out) {
if(mjs_is_number(v)) {
double iv, d = mjs_get_double(mjs, v);
if(modf(d, &iv) == 0) {
json_printf(out, "%" INT64_FMT, (int64_t)d);
} else {
json_printf(out, "%f", mjs_get_double(mjs, v));
}
} else if(mjs_is_boolean(v)) {
json_printf(out, "%s", mjs_get_bool(mjs, v) ? "true" : "false");
} else if(mjs_is_string(v)) {
size_t i, size;
const char* s = mjs_get_string(mjs, &v, &size);
for(i = 0; i < size; i++) {
int ch = ((unsigned char*)s)[i];
if(isprint(ch)) {
json_printf(out, "%c", ch);
} else {
json_printf(out, "%s%02x", "\\x", ch);
}
}
} else if(mjs_is_array(v)) {
json_printf(out, "%s", "<array>");
} else if(mjs_is_object(v)) {
json_printf(out, "%s", "<object>");
} else if(mjs_is_foreign(v)) {
json_printf(
out, "%s%lx%s", "<foreign_ptr@", (unsigned long)(uintptr_t)mjs_get_ptr(mjs, v), ">");
} else if(mjs_is_function(v)) {
json_printf(out, "%s%d%s", "<function@", (int)mjs_get_func_addr(v), ">");
} else if(mjs_is_null(v)) {
json_printf(out, "%s", "null");
} else if(mjs_is_undefined(v)) {
json_printf(out, "%s", "undefined");
} else {
json_printf(out, "%s%" INT64_FMT "%s", "<???", (int64_t)v, ">");
}
}
void mjs_sprintf(mjs_val_t v, struct mjs* mjs, char* buf, size_t n) {
struct json_out out = JSON_OUT_BUF(buf, n);
mjs_jprintf(v, mjs, &out);
}
void mjs_fprintf(mjs_val_t v, struct mjs* mjs, FILE* fp) {
struct json_out out = JSON_OUT_FILE(fp);
mjs_jprintf(v, mjs, &out);
}
MJS_PRIVATE const char* opcodetostr(uint8_t opcode) {
static const char* names[] = {
"NOP",
"DROP",
"DUP",
"SWAP",
"JMP",
"JMP_TRUE",
"JMP_NEUTRAL_TRUE",
"JMP_FALSE",
"JMP_NEUTRAL_FALSE",
"FIND_SCOPE",
"PUSH_SCOPE",
"PUSH_STR",
"PUSH_TRUE",
"PUSH_FALSE",
"PUSH_INT",
"PUSH_DBL",
"PUSH_NULL",
"PUSH_UNDEF",
"PUSH_OBJ",
"PUSH_ARRAY",
"PUSH_FUNC",
"PUSH_THIS",
"GET",
"CREATE",
"EXPR",
"APPEND",
"SET_ARG",
"NEW_SCOPE",
"DEL_SCOPE",
"CALL",
"RETURN",
"LOOP",
"BREAK",
"CONTINUE",
"SETRETVAL",
"EXIT",
"BCODE_HDR",
"ARGS",
"FOR_IN_NEXT",
};
const char* name = "???";
assert(ARRAY_SIZE(names) == OP_MAX);
if(opcode < ARRAY_SIZE(names)) name = names[opcode];
return name;
}
MJS_PRIVATE size_t
mjs_disasm_single(const uint8_t* code, size_t i, MjsPrintCallback print_cb, void* print_ctx) {
char buf[40];
size_t start_i = i;
size_t llen;
uint64_t n;
furi_assert(print_cb);
snprintf(buf, sizeof(buf), "%-3u\t%-8s", (unsigned)i, opcodetostr(code[i]));
switch(code[i]) {
case OP_PUSH_FUNC: {
cs_varint_decode(&code[i + 1], ~0, &n, &llen);
print_cb(print_ctx, "%s %04u", buf, (unsigned)(i - n));
i += llen;
break;
}
case OP_PUSH_INT: {
cs_varint_decode(&code[i + 1], ~0, &n, &llen);
print_cb(print_ctx, "%s\t%lu", buf, (unsigned long)n);
i += llen;
break;
}
case OP_SET_ARG: {
size_t llen2;
uint64_t arg_no;
cs_varint_decode(&code[i + 1], ~0, &arg_no, &llen);
cs_varint_decode(&code[i + llen + 1], ~0, &n, &llen2);
print_cb(
print_ctx, "%s\t[%.*s] %u", buf, (int)n, code + i + 1 + llen + llen2, (unsigned)arg_no);
i += llen + llen2 + n;
break;
}
case OP_PUSH_STR:
case OP_PUSH_DBL: {
cs_varint_decode(&code[i + 1], ~0, &n, &llen);
print_cb(print_ctx, "%s\t[%.*s]", buf, (int)n, code + i + 1 + llen);
i += llen + n;
break;
}
case OP_JMP:
case OP_JMP_TRUE:
case OP_JMP_NEUTRAL_TRUE:
case OP_JMP_FALSE:
case OP_JMP_NEUTRAL_FALSE: {
cs_varint_decode(&code[i + 1], ~0, &n, &llen);
print_cb(
print_ctx,
"%s\t%u",
buf,
(unsigned)(i + n + llen + 1 /* becaue i will be incremented on the usual terms */));
i += llen;
break;
}
case OP_LOOP: {
size_t l1, l2;
uint64_t n1, n2;
cs_varint_decode(&code[i + 1], ~0, &n1, &l1);
cs_varint_decode(&code[i + l1 + 1], ~0, &n2, &l2);
print_cb(
print_ctx,
"%s\tB:%lu C:%lu (%d)",
buf,
(unsigned long)(i + 1 /* OP_LOOP */ + l1 + n1),
(unsigned long)(i + 1 /* OP_LOOP */ + l1 + l2 + n2),
(int)i);
i += l1 + l2;
break;
}
case OP_EXPR: {
int op = code[i + 1];
const char* name = "???";
/* clang-format off */
switch (op) {
case TOK_DOT: name = "."; break;
case TOK_MINUS: name = "-"; break;
case TOK_PLUS: name = "+"; break;
case TOK_MUL: name = "*"; break;
case TOK_DIV: name = "/"; break;
case TOK_REM: name = "%"; break;
case TOK_XOR: name = "^"; break;
case TOK_AND: name = "&"; break;
case TOK_OR: name = "|"; break;
case TOK_LSHIFT: name = "<<"; break;
case TOK_RSHIFT: name = ">>"; break;
case TOK_URSHIFT: name = ">>>"; break;
case TOK_UNARY_MINUS: name = "- (unary)"; break;
case TOK_UNARY_PLUS: name = "+ (unary)"; break;
case TOK_NOT: name = "!"; break;
case TOK_TILDA: name = "~"; break;
case TOK_EQ: name = "=="; break;
case TOK_NE: name = "!="; break;
case TOK_EQ_EQ: name = "==="; break;
case TOK_NE_NE: name = "!=="; break;
case TOK_LT: name = "<"; break;
case TOK_GT: name = ">"; break;
case TOK_LE: name = "<="; break;
case TOK_GE: name = ">="; break;
case TOK_ASSIGN: name = "="; break;
case TOK_POSTFIX_PLUS: name = "++ (postfix)"; break;
case TOK_POSTFIX_MINUS: name = "-- (postfix)"; break;
case TOK_MINUS_MINUS: name = "--"; break;
case TOK_PLUS_PLUS: name = "++"; break;
case TOK_LOGICAL_AND: name = "&&"; break;
case TOK_LOGICAL_OR: name = "||"; break;
case TOK_KEYWORD_TYPEOF: name = "typeof"; break;
case TOK_PLUS_ASSIGN: name = "+="; break;
case TOK_MINUS_ASSIGN: name = "-="; break;
case TOK_MUL_ASSIGN: name = "*="; break;
case TOK_DIV_ASSIGN: name = "/="; break;
case TOK_REM_ASSIGN: name = "%="; break;
case TOK_XOR_ASSIGN: name = "^="; break;
case TOK_AND_ASSIGN: name = "&="; break;
case TOK_OR_ASSIGN: name = "|="; break;
case TOK_LSHIFT_ASSIGN: name = "<<="; break;
case TOK_RSHIFT_ASSIGN: name = ">>="; break;
case TOK_URSHIFT_ASSIGN: name = ">>>="; break;
}
/* clang-format on */
print_cb(print_ctx, "%s\t%s", buf, name);
i++;
break;
}
case OP_BCODE_HEADER: {
size_t start = 0;
mjs_header_item_t map_offset = 0, total_size = 0;
start = i;
memcpy(&total_size, &code[i + 1], sizeof(total_size));
memcpy(
&map_offset,
&code[i + 1 + MJS_HDR_ITEM_MAP_OFFSET * sizeof(total_size)],
sizeof(map_offset));
i += sizeof(mjs_header_item_t) * MJS_HDR_ITEMS_CNT;
print_cb(
print_ctx,
"%s\t[%s] end:%lu map_offset: %lu",
buf,
&code[i + 1],
(unsigned long)start + total_size,
(unsigned long)start + map_offset);
i += strlen((char*)(code + i + 1)) + 1;
break;
}
default:
print_cb(print_ctx, "%s", buf);
break;
}
return i - start_i;
}
void mjs_disasm(const uint8_t* code, size_t len, MjsPrintCallback print_cb, void* print_ctx) {
size_t i, start = 0;
mjs_header_item_t map_offset = 0, total_size = 0;
for(i = 0; i < len; i++) {
size_t delta = mjs_disasm_single(code, i, print_cb, print_ctx);
if(code[i] == OP_BCODE_HEADER) {
start = i;
memcpy(&total_size, &code[i + 1], sizeof(total_size));
memcpy(
&map_offset,
&code[i + 1 + MJS_HDR_ITEM_MAP_OFFSET * sizeof(total_size)],
sizeof(map_offset));
}
i += delta;
if(map_offset > 0 && i == start + map_offset) {
i = start + total_size - 1;
continue;
}
}
}
void mjs_disasm_all(struct mjs* mjs, MjsPrintCallback print_cb, void* print_ctx) {
int parts_cnt = mjs_bcode_parts_cnt(mjs);
for(int i = 0; i < parts_cnt; i++) {
struct mjs_bcode_part* bp = mjs_bcode_part_get(mjs, i);
mjs_disasm((uint8_t*)bp->data.p, bp->data.len, print_cb, print_ctx);
}
}
static void mjs_dump_obj_stack(
struct mjs* mjs,
const char* name,
const struct mbuf* m,
MjsPrintCallback print_cb,
void* print_ctx) {
char buf[50];
size_t i, n;
n = mjs_stack_size(m);
print_cb(print_ctx, "%12s (%d elems): ", name, (int)n);
for(i = 0; i < n; i++) {
mjs_sprintf(((mjs_val_t*)m->buf)[i], mjs, buf, sizeof(buf));
print_cb(print_ctx, "%34s", buf);
}
}
void mjs_dump(struct mjs* mjs, int do_disasm, MjsPrintCallback print_cb, void* print_ctx) {
print_cb(print_ctx, "------- MJS VM DUMP BEGIN");
mjs_dump_obj_stack(mjs, "DATA_STACK", &mjs->stack, print_cb, print_ctx);
mjs_dump_obj_stack(mjs, "CALL_STACK", &mjs->call_stack, print_cb, print_ctx);
mjs_dump_obj_stack(mjs, "SCOPES", &mjs->scopes, print_cb, print_ctx);
mjs_dump_obj_stack(mjs, "LOOP_OFFSETS", &mjs->loop_addresses, print_cb, print_ctx);
mjs_dump_obj_stack(mjs, "ARG_STACK", &mjs->arg_stack, print_cb, print_ctx);
if(do_disasm) {
int parts_cnt = mjs_bcode_parts_cnt(mjs);
int i;
print_cb(print_ctx, "%23s", "CODE:");
for(i = 0; i < parts_cnt; i++) {
struct mjs_bcode_part* bp = mjs_bcode_part_get(mjs, i);
mjs_disasm((uint8_t*)bp->data.p, bp->data.len, print_cb, print_ctx);
}
}
print_cb(print_ctx, "------- MJS VM DUMP END");
}
MJS_PRIVATE int mjs_check_arg(
struct mjs* mjs,
int arg_num,
const char* arg_name,
enum mjs_type expected_type,
mjs_val_t* parg) {
mjs_val_t arg = MJS_UNDEFINED;
enum mjs_type actual_type;
if(arg_num >= 0) {
int nargs = mjs_nargs(mjs);
if(nargs < arg_num + 1) {
mjs_prepend_errorf(mjs, MJS_TYPE_ERROR, "missing argument %s", arg_name);
return 0;
}
arg = mjs_arg(mjs, arg_num);
} else {
/* use `this` */
arg = mjs->vals.this_obj;
}
actual_type = mjs_get_type(arg);
if(actual_type != expected_type) {
mjs_prepend_errorf(
mjs,
MJS_TYPE_ERROR,
"%s should be a %s, %s given",
arg_name,
mjs_stringify_type(expected_type),
mjs_stringify_type(actual_type));
return 0;
}
if(parg != NULL) {
*parg = arg;
}
return 1;
}
MJS_PRIVATE int mjs_normalize_idx(int idx, int size) {
if(idx < 0) {
idx = size + idx;
if(idx < 0) {
idx = 0;
}
}
if(idx > size) {
idx = size;
}
return idx;
}
MJS_PRIVATE const char* mjs_get_bcode_filename(struct mjs* mjs, struct mjs_bcode_part* bp) {
(void)mjs;
return bp->data.p + 1 /* OP_BCODE_HEADER */ + sizeof(mjs_header_item_t) * MJS_HDR_ITEMS_CNT;
}
const char* mjs_get_bcode_filename_by_offset(struct mjs* mjs, int offset) {
const char* ret = NULL;
struct mjs_bcode_part* bp = mjs_bcode_part_get_by_offset(mjs, offset);
if(bp != NULL) {
ret = mjs_get_bcode_filename(mjs, bp);
}
return ret;
}
int mjs_get_lineno_by_offset(struct mjs* mjs, int offset) {
size_t llen;
uint64_t map_len;
int prev_line_no, ret = 1;
struct mjs_bcode_part* bp = mjs_bcode_part_get_by_offset(mjs, offset);
uint8_t *p, *pe;
if(bp != NULL) {
mjs_header_item_t map_offset, bcode_offset;
memcpy(
&map_offset,
bp->data.p + 1 /* OP_BCODE_HEADER */ +
sizeof(mjs_header_item_t) * MJS_HDR_ITEM_MAP_OFFSET,
sizeof(map_offset));
memcpy(
&bcode_offset,
bp->data.p + 1 /* OP_BCODE_HEADER */ +
sizeof(mjs_header_item_t) * MJS_HDR_ITEM_BCODE_OFFSET,
sizeof(bcode_offset));
offset -= (1 /* OP_BCODE_HEADER */ + bcode_offset) + bp->start_idx;
/* get pointer to the length of the map followed by the map itself */
p = (uint8_t*)bp->data.p + 1 /* OP_BCODE_HEADER */ + map_offset;
cs_varint_decode(p, ~0, &map_len, &llen);
p += llen;
pe = p + map_len;
prev_line_no = 1;
while(p < pe) {
uint64_t cur_offset, line_no;
cs_varint_decode(p, ~0, &cur_offset, &llen);
p += llen;
cs_varint_decode(p, ~0, &line_no, &llen);
p += llen;
if(cur_offset >= (uint64_t)offset) {
ret = prev_line_no;
break;
}
prev_line_no = line_no;
}
}
return ret;
}
int mjs_get_offset_by_call_frame_num(struct mjs* mjs, int cf_num) {
int ret = -1;
if(cf_num == 0) {
/* Return current bcode offset */
ret = mjs->cur_bcode_offset;
} else if(
cf_num > 0 &&
mjs->call_stack.len >= sizeof(mjs_val_t) * CALL_STACK_FRAME_ITEMS_CNT * cf_num) {
/* Get offset from the call_stack */
int pos = CALL_STACK_FRAME_ITEM_RETURN_ADDR + CALL_STACK_FRAME_ITEMS_CNT * (cf_num - 1);
mjs_val_t val = *vptr(&mjs->call_stack, -1 - pos);
ret = mjs_get_int(mjs, val);
}
return ret;
}
mjs_err_t mjs_to_string(struct mjs* mjs, mjs_val_t* v, char** p, size_t* sizep, int* need_free) {
mjs_err_t ret = MJS_OK;
*p = NULL;
*sizep = 0;
*need_free = 0;
if(mjs_is_string(*v)) {
*p = (char*)mjs_get_string(mjs, v, sizep);
} else if(mjs_is_number(*v)) {
char buf[50] = "";
struct json_out out = JSON_OUT_BUF(buf, sizeof(buf));
mjs_jprintf(*v, mjs, &out);
*sizep = strlen(buf);
*p = malloc(*sizep + 1);
if(*p == NULL) {
ret = MJS_OUT_OF_MEMORY;
goto clean;
}
memmove(*p, buf, *sizep + 1);
*need_free = 1;
} else if(mjs_is_boolean(*v)) {
if(mjs_get_bool(mjs, *v)) {
*p = "true";
*sizep = 4;
} else {
*p = "false";
*sizep = 5;
}
} else if(mjs_is_undefined(*v)) {
*p = "undefined";
*sizep = 9;
} else if(mjs_is_null(*v)) {
*p = "null";
*sizep = 4;
} else if(mjs_is_object(*v)) {
ret = MJS_TYPE_ERROR;
mjs_set_errorf(mjs, ret, "conversion from object to string is not supported");
} else if(mjs_is_foreign(*v)) {
*p = "TODO_foreign";
*sizep = 12;
} else if(mjs_is_typed_array(*v)) {
*p = "TODO_typed_array";
*sizep = 16;
} else {
ret = MJS_TYPE_ERROR;
mjs_set_errorf(mjs, ret, "unknown type to convert to string");
}
clean:
return ret;
}
mjs_val_t mjs_to_boolean_v(struct mjs* mjs, mjs_val_t v) {
size_t len;
int is_truthy;
is_truthy = ((mjs_is_boolean(v) && mjs_get_bool(mjs, v)) ||
(mjs_is_number(v) && mjs_get_double(mjs, v) != (double)0.0) ||
(mjs_is_string(v) && mjs_get_string(mjs, &v, &len) && len > 0) ||
(mjs_is_function(v)) || (mjs_is_foreign(v)) || (mjs_is_object(v))) &&
v != MJS_TAG_NAN;
return mjs_mk_boolean(mjs, is_truthy);
}
int mjs_is_truthy(struct mjs* mjs, mjs_val_t v) {
return mjs_get_bool(mjs, mjs_to_boolean_v(mjs, v));
}