/* vi:set ts=8 sts=4 sw=4 noet: * * VIM - Vi IMproved by Bram Moolenaar * * Do ":help uganda" in Vim to read copying and usage conditions. * Do ":help credits" in Vim to see a list of people who contributed. * See README.txt for an overview of the Vim source code. */ /* * json.c: Encoding and decoding JSON. * * Follows this standard: https://tools.ietf.org/html/rfc7159.html */ #define USING_FLOAT_STUFF #include "vim.h" #if defined(FEAT_EVAL) || defined(PROTO) static int json_encode_item(garray_T *gap, typval_T *val, int copyID, int options); static int json_decode_item(js_read_T *reader, typval_T *res, int options); /* * Encode "val" into a JSON format string. * The result is added to "gap" * Returns FAIL on failure and makes gap->ga_data empty. */ static int json_encode_gap(garray_T *gap, typval_T *val, int options) { if (json_encode_item(gap, val, get_copyID(), options) == FAIL) { ga_clear(gap); gap->ga_data = vim_strsave((char_u *)""); return FAIL; } return OK; } /* * Encode "val" into a JSON format string. * The result is in allocated memory. * The result is empty when encoding fails. * "options" can contain JSON_JS, JSON_NO_NONE and JSON_NL. */ char_u * json_encode(typval_T *val, int options) { garray_T ga; /* Store bytes in the growarray. */ ga_init2(&ga, 1, 4000); json_encode_gap(&ga, val, options); return ga.ga_data; } /* * Encode ["nr", "val"] into a JSON format string in allocated memory. * "options" can contain JSON_JS, JSON_NO_NONE and JSON_NL. * Returns NULL when out of memory. */ char_u * json_encode_nr_expr(int nr, typval_T *val, int options) { typval_T listtv; typval_T nrtv; garray_T ga; nrtv.v_type = VAR_NUMBER; nrtv.vval.v_number = nr; if (rettv_list_alloc(&listtv) == FAIL) return NULL; if (list_append_tv(listtv.vval.v_list, &nrtv) == FAIL || list_append_tv(listtv.vval.v_list, val) == FAIL) { list_unref(listtv.vval.v_list); return NULL; } ga_init2(&ga, 1, 4000); if (json_encode_gap(&ga, &listtv, options) == OK && (options & JSON_NL)) ga_append(&ga, '\n'); list_unref(listtv.vval.v_list); return ga.ga_data; } static void write_string(garray_T *gap, char_u *str) { char_u *res = str; char_u numbuf[NUMBUFLEN]; if (res == NULL) ga_concat(gap, (char_u *)"null"); else { #if defined(FEAT_MBYTE) && defined(USE_ICONV) vimconv_T conv; char_u *converted = NULL; if (!enc_utf8) { /* Convert the text from 'encoding' to utf-8, the JSON string is * always utf-8. */ conv.vc_type = CONV_NONE; convert_setup(&conv, p_enc, (char_u*)"utf-8"); if (conv.vc_type != CONV_NONE) converted = res = string_convert(&conv, res, NULL); convert_setup(&conv, NULL, NULL); } #endif ga_append(gap, '"'); while (*res != NUL) { int c; #ifdef FEAT_MBYTE /* always use utf-8 encoding, ignore 'encoding' */ c = utf_ptr2char(res); #else c = *res; #endif switch (c) { case 0x08: ga_append(gap, '\\'); ga_append(gap, 'b'); break; case 0x09: ga_append(gap, '\\'); ga_append(gap, 't'); break; case 0x0a: ga_append(gap, '\\'); ga_append(gap, 'n'); break; case 0x0c: ga_append(gap, '\\'); ga_append(gap, 'f'); break; case 0x0d: ga_append(gap, '\\'); ga_append(gap, 'r'); break; case 0x22: /* " */ case 0x5c: /* \ */ ga_append(gap, '\\'); ga_append(gap, c); break; default: if (c >= 0x20) { #ifdef FEAT_MBYTE numbuf[utf_char2bytes(c, numbuf)] = NUL; #else numbuf[0] = c; numbuf[1] = NUL; #endif ga_concat(gap, numbuf); } else { vim_snprintf((char *)numbuf, NUMBUFLEN, "\\u%04lx", (long)c); ga_concat(gap, numbuf); } } #ifdef FEAT_MBYTE res += utf_ptr2len(res); #else ++res; #endif } ga_append(gap, '"'); #if defined(FEAT_MBYTE) && defined(USE_ICONV) vim_free(converted); #endif } } /* * Return TRUE if "key" can be used without quotes. * That is when it starts with a letter and only contains letters, digits and * underscore. */ static int is_simple_key(char_u *key) { char_u *p; if (!ASCII_ISALPHA(*key)) return FALSE; for (p = key + 1; *p != NUL; ++p) if (!ASCII_ISALPHA(*p) && *p != '_' && !vim_isdigit(*p)) return FALSE; return TRUE; } /* * Encode "val" into "gap". * Return FAIL or OK. */ static int json_encode_item(garray_T *gap, typval_T *val, int copyID, int options) { char_u numbuf[NUMBUFLEN]; char_u *res; list_T *l; dict_T *d; switch (val->v_type) { case VAR_SPECIAL: switch (val->vval.v_number) { case VVAL_FALSE: ga_concat(gap, (char_u *)"false"); break; case VVAL_TRUE: ga_concat(gap, (char_u *)"true"); break; case VVAL_NONE: if ((options & JSON_JS) != 0 && (options & JSON_NO_NONE) == 0) /* empty item */ break; /* FALLTHROUGH */ case VVAL_NULL: ga_concat(gap, (char_u *)"null"); break; } break; case VAR_NUMBER: vim_snprintf((char *)numbuf, NUMBUFLEN, "%lld", val->vval.v_number); ga_concat(gap, numbuf); break; case VAR_STRING: res = val->vval.v_string; write_string(gap, res); break; case VAR_FUNC: case VAR_PARTIAL: case VAR_JOB: case VAR_CHANNEL: /* no JSON equivalent TODO: better error */ EMSG(_(e_invarg)); return FAIL; case VAR_LIST: l = val->vval.v_list; if (l == NULL) ga_concat(gap, (char_u *)"null"); else { if (l->lv_copyID == copyID) ga_concat(gap, (char_u *)"[]"); else { listitem_T *li; l->lv_copyID = copyID; ga_append(gap, '['); for (li = l->lv_first; li != NULL && !got_int; ) { if (json_encode_item(gap, &li->li_tv, copyID, options & JSON_JS) == FAIL) return FAIL; if ((options & JSON_JS) && li->li_next == NULL && li->li_tv.v_type == VAR_SPECIAL && li->li_tv.vval.v_number == VVAL_NONE) /* add an extra comma if the last item is v:none */ ga_append(gap, ','); li = li->li_next; if (li != NULL) ga_append(gap, ','); } ga_append(gap, ']'); l->lv_copyID = 0; } } break; case VAR_DICT: d = val->vval.v_dict; if (d == NULL) ga_concat(gap, (char_u *)"null"); else { if (d->dv_copyID == copyID) ga_concat(gap, (char_u *)"{}"); else { int first = TRUE; int todo = (int)d->dv_hashtab.ht_used; hashitem_T *hi; d->dv_copyID = copyID; ga_append(gap, '{'); for (hi = d->dv_hashtab.ht_array; todo > 0 && !got_int; ++hi) if (!HASHITEM_EMPTY(hi)) { --todo; if (first) first = FALSE; else ga_append(gap, ','); if ((options & JSON_JS) && is_simple_key(hi->hi_key)) ga_concat(gap, hi->hi_key); else write_string(gap, hi->hi_key); ga_append(gap, ':'); if (json_encode_item(gap, &dict_lookup(hi)->di_tv, copyID, options | JSON_NO_NONE) == FAIL) return FAIL; } ga_append(gap, '}'); d->dv_copyID = 0; } } break; case VAR_FLOAT: #ifdef FEAT_FLOAT # if defined(HAVE_MATH_H) if (isnan(val->vval.v_float)) ga_concat(gap, (char_u *)"NaN"); else if (isinf(val->vval.v_float)) ga_concat(gap, (char_u *)"Infinity"); else # endif { vim_snprintf((char *)numbuf, NUMBUFLEN, "%g", val->vval.v_float); ga_concat(gap, numbuf); } break; #endif case VAR_UNKNOWN: internal_error("json_encode_item()"); return FAIL; } return OK; } /* * When "reader" has less than NUMBUFLEN bytes available, call the fill * callback to get more. */ static void fill_numbuflen(js_read_T *reader) { if (reader->js_fill != NULL && (int)(reader->js_end - reader->js_buf) - reader->js_used < NUMBUFLEN) { if (reader->js_fill(reader)) reader->js_end = reader->js_buf + STRLEN(reader->js_buf); } } /* * Skip white space in "reader". All characters <= space are considered white * space. * Also tops up readahead when needed. */ static void json_skip_white(js_read_T *reader) { int c; for (;;) { c = reader->js_buf[reader->js_used]; if (reader->js_fill != NULL && c == NUL) { if (reader->js_fill(reader)) { reader->js_end = reader->js_buf + STRLEN(reader->js_buf); continue; } } if (c == NUL || c > ' ') break; ++reader->js_used; } fill_numbuflen(reader); } static int json_decode_array(js_read_T *reader, typval_T *res, int options) { char_u *p; typval_T item; listitem_T *li; int ret; if (res != NULL && rettv_list_alloc(res) == FAIL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_NONE; return FAIL; } ++reader->js_used; /* consume the '[' */ while (TRUE) { json_skip_white(reader); p = reader->js_buf + reader->js_used; if (*p == NUL) return MAYBE; if (*p == ']') { ++reader->js_used; /* consume the ']' */ break; } ret = json_decode_item(reader, res == NULL ? NULL : &item, options); if (ret != OK) return ret; if (res != NULL) { li = listitem_alloc(); if (li == NULL) { clear_tv(&item); return FAIL; } li->li_tv = item; list_append(res->vval.v_list, li); } json_skip_white(reader); p = reader->js_buf + reader->js_used; if (*p == ',') ++reader->js_used; else if (*p != ']') { if (*p == NUL) return MAYBE; return FAIL; } } return OK; } static int json_decode_object(js_read_T *reader, typval_T *res, int options) { char_u *p; typval_T tvkey; typval_T item; dictitem_T *di; char_u buf[NUMBUFLEN]; char_u *key = NULL; int ret; if (res != NULL && rettv_dict_alloc(res) == FAIL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_NONE; return FAIL; } ++reader->js_used; /* consume the '{' */ while (TRUE) { json_skip_white(reader); p = reader->js_buf + reader->js_used; if (*p == NUL) return MAYBE; if (*p == '}') { ++reader->js_used; /* consume the '}' */ break; } if ((options & JSON_JS) && reader->js_buf[reader->js_used] != '"') { /* accept a key that is not in quotes */ key = p = reader->js_buf + reader->js_used; while (*p != NUL && *p != ':' && *p > ' ') ++p; tvkey.v_type = VAR_STRING; tvkey.vval.v_string = vim_strnsave(key, (int)(p - key)); reader->js_used += (int)(p - key); key = tvkey.vval.v_string; } else { ret = json_decode_item(reader, res == NULL ? NULL : &tvkey, options); if (ret != OK) return ret; if (res != NULL) { key = get_tv_string_buf_chk(&tvkey, buf); if (key == NULL || *key == NUL) { clear_tv(&tvkey); return FAIL; } } } json_skip_white(reader); p = reader->js_buf + reader->js_used; if (*p != ':') { if (res != NULL) clear_tv(&tvkey); if (*p == NUL) return MAYBE; return FAIL; } ++reader->js_used; json_skip_white(reader); ret = json_decode_item(reader, res == NULL ? NULL : &item, options); if (ret != OK) { if (res != NULL) clear_tv(&tvkey); return ret; } if (res != NULL) { di = dictitem_alloc(key); clear_tv(&tvkey); if (di == NULL) { clear_tv(&item); return FAIL; } di->di_tv = item; di->di_tv.v_lock = 0; if (dict_add(res->vval.v_dict, di) == FAIL) { dictitem_free(di); return FAIL; } } json_skip_white(reader); p = reader->js_buf + reader->js_used; if (*p == ',') ++reader->js_used; else if (*p != '}') { if (*p == NUL) return MAYBE; return FAIL; } } return OK; } static int json_decode_string(js_read_T *reader, typval_T *res) { garray_T ga; int len; char_u *p; int c; varnumber_T nr; if (res != NULL) ga_init2(&ga, 1, 200); p = reader->js_buf + reader->js_used + 1; /* skip over " */ while (*p != '"') { /* The JSON is always expected to be utf-8, thus use utf functions * here. The string is converted below if needed. */ if (*p == NUL || p[1] == NUL #ifdef FEAT_MBYTE || utf_ptr2len(p) < utf_byte2len(*p) #endif ) { /* Not enough bytes to make a character or end of the string. Get * more if possible. */ if (reader->js_fill == NULL) break; len = (int)(reader->js_end - p); reader->js_used = (int)(p - reader->js_buf); if (!reader->js_fill(reader)) break; /* didn't get more */ p = reader->js_buf + reader->js_used; reader->js_end = reader->js_buf + STRLEN(reader->js_buf); continue; } if (*p == '\\') { c = -1; switch (p[1]) { case '\\': c = '\\'; break; case '"': c = '"'; break; case 'b': c = BS; break; case 't': c = TAB; break; case 'n': c = NL; break; case 'f': c = FF; break; case 'r': c = CAR; break; case 'u': if (reader->js_fill != NULL && (int)(reader->js_end - p) < NUMBUFLEN) { reader->js_used = (int)(p - reader->js_buf); if (reader->js_fill(reader)) { p = reader->js_buf + reader->js_used; reader->js_end = reader->js_buf + STRLEN(reader->js_buf); } } nr = 0; len = 0; vim_str2nr(p + 2, NULL, &len, STR2NR_HEX + STR2NR_FORCE, &nr, NULL, 4); p += len + 2; if (0xd800 <= nr && nr <= 0xdfff && (int)(reader->js_end - p) >= 6 && *p == '\\' && *(p+1) == 'u') { varnumber_T nr2 = 0; /* decode surrogate pair: \ud812\u3456 */ len = 0; vim_str2nr(p + 2, NULL, &len, STR2NR_HEX + STR2NR_FORCE, &nr2, NULL, 4); if (0xdc00 <= nr2 && nr2 <= 0xdfff) { p += len + 2; nr = (((nr - 0xd800) << 10) | ((nr2 - 0xdc00) & 0x3ff)) + 0x10000; } } if (res != NULL) { #ifdef FEAT_MBYTE char_u buf[NUMBUFLEN]; buf[utf_char2bytes((int)nr, buf)] = NUL; ga_concat(&ga, buf); #else ga_append(&ga, (int)nr); #endif } break; default: /* not a special char, skip over \ */ ++p; continue; } if (c > 0) { p += 2; if (res != NULL) ga_append(&ga, c); } } else { #ifdef FEAT_MBYTE len = utf_ptr2len(p); #else len = 1; #endif if (res != NULL) { if (ga_grow(&ga, len) == FAIL) { ga_clear(&ga); return FAIL; } mch_memmove((char *)ga.ga_data + ga.ga_len, p, (size_t)len); ga.ga_len += len; } p += len; } } reader->js_used = (int)(p - reader->js_buf); if (*p == '"') { ++reader->js_used; if (res != NULL) { ga_append(&ga, NUL); res->v_type = VAR_STRING; #if defined(FEAT_MBYTE) && defined(USE_ICONV) if (!enc_utf8) { vimconv_T conv; /* Convert the utf-8 string to 'encoding'. */ conv.vc_type = CONV_NONE; convert_setup(&conv, (char_u*)"utf-8", p_enc); if (conv.vc_type != CONV_NONE) { res->vval.v_string = string_convert(&conv, ga.ga_data, NULL); vim_free(ga.ga_data); } convert_setup(&conv, NULL, NULL); } else #endif res->vval.v_string = ga.ga_data; } return OK; } if (res != NULL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_NONE; ga_clear(&ga); } return MAYBE; } /* * Decode one item and put it in "res". If "res" is NULL only advance. * Must already have skipped white space. * * Return FAIL for a decoding error. * Return MAYBE for an incomplete message. */ static int json_decode_item(js_read_T *reader, typval_T *res, int options) { char_u *p; int len; fill_numbuflen(reader); p = reader->js_buf + reader->js_used; switch (*p) { case '[': /* array */ return json_decode_array(reader, res, options); case '{': /* object */ return json_decode_object(reader, res, options); case '"': /* string */ return json_decode_string(reader, res); case ',': /* comma: empty item */ if ((options & JSON_JS) == 0) return FAIL; /* FALLTHROUGH */ case NUL: /* empty */ if (res != NULL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_NONE; } return OK; default: if (VIM_ISDIGIT(*p) || *p == '-') { #ifdef FEAT_FLOAT char_u *sp = p; if (*sp == '-') { ++sp; if (*sp == NUL) return MAYBE; if (!VIM_ISDIGIT(*sp)) return FAIL; } sp = skipdigits(sp); if (*sp == '.' || *sp == 'e' || *sp == 'E') { if (res == NULL) { float_T f; len = string2float(p, &f); } else { res->v_type = VAR_FLOAT; len = string2float(p, &res->vval.v_float); } } else #endif { varnumber_T nr; vim_str2nr(reader->js_buf + reader->js_used, NULL, &len, 0, /* what */ &nr, NULL, 0); if (res != NULL) { res->v_type = VAR_NUMBER; res->vval.v_number = nr; } } reader->js_used += len; return OK; } if (STRNICMP((char *)p, "false", 5) == 0) { reader->js_used += 5; if (res != NULL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_FALSE; } return OK; } if (STRNICMP((char *)p, "true", 4) == 0) { reader->js_used += 4; if (res != NULL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_TRUE; } return OK; } if (STRNICMP((char *)p, "null", 4) == 0) { reader->js_used += 4; if (res != NULL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_NULL; } return OK; } #ifdef FEAT_FLOAT if (STRNICMP((char *)p, "NaN", 3) == 0) { reader->js_used += 3; if (res != NULL) { res->v_type = VAR_FLOAT; res->vval.v_float = NAN; } return OK; } if (STRNICMP((char *)p, "Infinity", 8) == 0) { reader->js_used += 8; if (res != NULL) { res->v_type = VAR_FLOAT; res->vval.v_float = INFINITY; } return OK; } #endif /* check for truncated name */ len = (int)(reader->js_end - (reader->js_buf + reader->js_used)); if ( (len < 5 && STRNICMP((char *)p, "false", len) == 0) #ifdef FEAT_FLOAT || (len < 8 && STRNICMP((char *)p, "Infinity", len) == 0) || (len < 3 && STRNICMP((char *)p, "NaN", len) == 0) #endif || (len < 4 && (STRNICMP((char *)p, "true", len) == 0 || STRNICMP((char *)p, "null", len) == 0))) return MAYBE; break; } if (res != NULL) { res->v_type = VAR_SPECIAL; res->vval.v_number = VVAL_NONE; } return FAIL; } /* * Decode the JSON from "reader" and store the result in "res". * "options" can be JSON_JS or zero; * Return FAIL if not the whole message was consumed. */ int json_decode_all(js_read_T *reader, typval_T *res, int options) { int ret; /* We find the end once, to avoid calling strlen() many times. */ reader->js_end = reader->js_buf + STRLEN(reader->js_buf); json_skip_white(reader); ret = json_decode_item(reader, res, options); if (ret != OK) return FAIL; json_skip_white(reader); if (reader->js_buf[reader->js_used] != NUL) return FAIL; return OK; } /* * Decode the JSON from "reader" and store the result in "res". * "options" can be JSON_JS or zero; * Return FAIL for a decoding error. * Return MAYBE for an incomplete message. * Consumes the message anyway. */ int json_decode(js_read_T *reader, typval_T *res, int options) { int ret; /* We find the end once, to avoid calling strlen() many times. */ reader->js_end = reader->js_buf + STRLEN(reader->js_buf); json_skip_white(reader); ret = json_decode_item(reader, res, options); json_skip_white(reader); return ret; } /* * Decode the JSON from "reader" to find the end of the message. * "options" can be JSON_JS or zero; * Return FAIL if the message has a decoding error. * Return MAYBE if the message is truncated, need to read more. * This only works reliable if the message contains an object, array or * string. A number might be trucated without knowing. * Does not advance the reader. */ int json_find_end(js_read_T *reader, int options) { int used_save = reader->js_used; int ret; /* We find the end once, to avoid calling strlen() many times. */ reader->js_end = reader->js_buf + STRLEN(reader->js_buf); json_skip_white(reader); ret = json_decode_item(reader, NULL, options); reader->js_used = used_save; return ret; } #endif