// Protocol Buffers - Google's data interchange format // Copyright 2023 Google LLC. All rights reserved. // // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file or at // https://developers.google.com/open-source/licenses/bsd #include "upb/text/encode.h" #include #include #include #include #include #include #include "upb/base/descriptor_constants.h" #include "upb/base/string_view.h" #include "upb/lex/round_trip.h" #include "upb/message/array.h" #include "upb/message/internal/map_entry.h" #include "upb/message/internal/map_sorter.h" #include "upb/message/map.h" #include "upb/message/message.h" #include "upb/message/value.h" #include "upb/port/vsnprintf_compat.h" #include "upb/reflection/def.h" #include "upb/reflection/message.h" #include "upb/wire/eps_copy_input_stream.h" #include "upb/wire/reader.h" #include "upb/wire/types.h" #include "utf8_range.h" // Must be last. #include "upb/port/def.inc" typedef struct { char *buf, *ptr, *end; size_t overflow; int indent_depth; int options; const upb_DefPool* ext_pool; _upb_mapsorter sorter; } txtenc; static void txtenc_msg(txtenc* e, const upb_Message* msg, const upb_MessageDef* m); static void txtenc_putbytes(txtenc* e, const void* data, size_t len) { size_t have = e->end - e->ptr; if (UPB_LIKELY(have >= len)) { memcpy(e->ptr, data, len); e->ptr += len; } else { if (have) { memcpy(e->ptr, data, have); e->ptr += have; } e->overflow += (len - have); } } static void txtenc_putstr(txtenc* e, const char* str) { txtenc_putbytes(e, str, strlen(str)); } static void txtenc_printf(txtenc* e, const char* fmt, ...) { size_t n; size_t have = e->end - e->ptr; va_list args; va_start(args, fmt); n = _upb_vsnprintf(e->ptr, have, fmt, args); va_end(args); if (UPB_LIKELY(have > n)) { e->ptr += n; } else { e->ptr = UPB_PTRADD(e->ptr, have); e->overflow += (n - have); } } static void txtenc_indent(txtenc* e) { if ((e->options & UPB_TXTENC_SINGLELINE) == 0) { int i = e->indent_depth; while (i-- > 0) { txtenc_putstr(e, " "); } } } static void txtenc_endfield(txtenc* e) { if (e->options & UPB_TXTENC_SINGLELINE) { txtenc_putstr(e, " "); } else { txtenc_putstr(e, "\n"); } } static void txtenc_enum(int32_t val, const upb_FieldDef* f, txtenc* e) { const upb_EnumDef* e_def = upb_FieldDef_EnumSubDef(f); const upb_EnumValueDef* ev = upb_EnumDef_FindValueByNumber(e_def, val); if (ev) { txtenc_printf(e, "%s", upb_EnumValueDef_Name(ev)); } else { txtenc_printf(e, "%" PRId32, val); } } static void txtenc_escaped(txtenc* e, unsigned char ch) { switch (ch) { case '\n': txtenc_putstr(e, "\\n"); break; case '\r': txtenc_putstr(e, "\\r"); break; case '\t': txtenc_putstr(e, "\\t"); break; case '\"': txtenc_putstr(e, "\\\""); break; case '\'': txtenc_putstr(e, "\\'"); break; case '\\': txtenc_putstr(e, "\\\\"); break; default: txtenc_printf(e, "\\%03o", ch); break; } } // Returns true if `ch` needs to be escaped in TextFormat, independent of any // UTF-8 validity issues. static bool upb_DefinitelyNeedsEscape(unsigned char ch) { if (ch < 32) return true; switch (ch) { case '\"': case '\'': case '\\': case 127: return true; } return false; } static bool upb_AsciiIsPrint(unsigned char ch) { return ch >= 32 && ch < 127; } // Returns true if this is a high byte that requires UTF-8 validation. If the // UTF-8 validation fails, we must escape the byte. static bool upb_NeedsUtf8Validation(unsigned char ch) { return ch > 127; } // Returns the number of bytes in the prefix of `val` that do not need escaping. // This is like utf8_range::SpanStructurallyValid(), except that it also // terminates at any ASCII char that needs to be escaped in TextFormat (any char // that has `DefinitelyNeedsEscape(ch) == true`). // // If we could get a variant of utf8_range::SpanStructurallyValid() that could // terminate on any of these chars, that might be more efficient, but it would // be much more complicated to modify that heavily SIMD code. static size_t SkipPassthroughBytes(const char* ptr, size_t size) { for (size_t i = 0; i < size; i++) { unsigned char uc = ptr[i]; if (upb_DefinitelyNeedsEscape(uc)) return i; if (upb_NeedsUtf8Validation(uc)) { // Find the end of this region of consecutive high bytes, so that we only // give high bytes to the UTF-8 checker. This avoids needing to perform // a second scan of the ASCII characters looking for characters that // need escaping. // // We assume that high bytes are less frequent than plain, printable ASCII // bytes, so we accept the double-scan of high bytes. size_t end = i + 1; for (; end < size; end++) { if (!upb_NeedsUtf8Validation(ptr[end])) break; } size_t n = end - i; size_t ok = utf8_range_ValidPrefix(ptr + i, n); if (ok != n) return i + ok; i += ok - 1; } } return size; } static void upb_HardenedPrintString(txtenc* e, const char* ptr, size_t len) { // Print as UTF-8, while guarding against any invalid UTF-8 in the string // field. // // If in the future we have a guaranteed invariant that invalid UTF-8 will // never be present, we could avoid the UTF-8 check here. txtenc_putstr(e, "\""); const char* end = ptr + len; while (ptr < end) { size_t n = SkipPassthroughBytes(ptr, end - ptr); if (n != 0) { txtenc_putbytes(e, ptr, n); ptr += n; if (ptr == end) break; } // If repeated calls to CEscape() and PrintString() are expensive, we could // consider batching them, at the cost of some complexity. txtenc_escaped(e, *ptr); ptr++; } txtenc_putstr(e, "\""); } static void txtenc_bytes(txtenc* e, upb_StringView data) { const char* ptr = data.data; const char* end = ptr + data.size; txtenc_putstr(e, "\""); for (; ptr < end; ptr++) { unsigned char uc = *ptr; if (upb_AsciiIsPrint(uc)) { txtenc_putbytes(e, ptr, 1); } else { txtenc_escaped(e, uc); } } txtenc_putstr(e, "\""); } static void txtenc_field(txtenc* e, upb_MessageValue val, const upb_FieldDef* f) { txtenc_indent(e); const upb_CType ctype = upb_FieldDef_CType(f); const bool is_ext = upb_FieldDef_IsExtension(f); const char* full = upb_FieldDef_FullName(f); const char* name = upb_FieldDef_Name(f); if (ctype == kUpb_CType_Message) { // begin:google_only // // TODO: Turn this into a feature check and opensource it. // if (_upb_FieldDef_IsGroupLike(f)) { // const upb_MessageDef* m = upb_FieldDef_MessageSubDef(f); // name = upb_MessageDef_Name(m); // } // end:google_only if (is_ext) { txtenc_printf(e, "[%s] {", full); } else { txtenc_printf(e, "%s {", name); } txtenc_endfield(e); e->indent_depth++; txtenc_msg(e, val.msg_val, upb_FieldDef_MessageSubDef(f)); e->indent_depth--; txtenc_indent(e); txtenc_putstr(e, "}"); txtenc_endfield(e); return; } if (is_ext) { txtenc_printf(e, "[%s]: ", full); } else { txtenc_printf(e, "%s: ", name); } switch (ctype) { case kUpb_CType_Bool: txtenc_putstr(e, val.bool_val ? "true" : "false"); break; case kUpb_CType_Float: { char buf[32]; _upb_EncodeRoundTripFloat(val.float_val, buf, sizeof(buf)); txtenc_putstr(e, buf); break; } case kUpb_CType_Double: { char buf[32]; _upb_EncodeRoundTripDouble(val.double_val, buf, sizeof(buf)); txtenc_putstr(e, buf); break; } case kUpb_CType_Int32: txtenc_printf(e, "%" PRId32, val.int32_val); break; case kUpb_CType_UInt32: txtenc_printf(e, "%" PRIu32, val.uint32_val); break; case kUpb_CType_Int64: txtenc_printf(e, "%" PRId64, val.int64_val); break; case kUpb_CType_UInt64: txtenc_printf(e, "%" PRIu64, val.uint64_val); break; case kUpb_CType_String: upb_HardenedPrintString(e, val.str_val.data, val.str_val.size); break; case kUpb_CType_Bytes: txtenc_bytes(e, val.str_val); break; case kUpb_CType_Enum: txtenc_enum(val.int32_val, f, e); break; default: UPB_UNREACHABLE(); } txtenc_endfield(e); } /* * Arrays print as simple repeated elements, eg. * * foo_field: 1 * foo_field: 2 * foo_field: 3 */ static void txtenc_array(txtenc* e, const upb_Array* arr, const upb_FieldDef* f) { size_t i; size_t size = upb_Array_Size(arr); for (i = 0; i < size; i++) { txtenc_field(e, upb_Array_Get(arr, i), f); } } static void txtenc_mapentry(txtenc* e, upb_MessageValue key, upb_MessageValue val, const upb_FieldDef* f) { const upb_MessageDef* entry = upb_FieldDef_MessageSubDef(f); const upb_FieldDef* key_f = upb_MessageDef_Field(entry, 0); const upb_FieldDef* val_f = upb_MessageDef_Field(entry, 1); txtenc_indent(e); txtenc_printf(e, "%s {", upb_FieldDef_Name(f)); txtenc_endfield(e); e->indent_depth++; txtenc_field(e, key, key_f); txtenc_field(e, val, val_f); e->indent_depth--; txtenc_indent(e); txtenc_putstr(e, "}"); txtenc_endfield(e); } /* * Maps print as messages of key/value, etc. * * foo_map: { * key: "abc" * value: 123 * } * foo_map: { * key: "def" * value: 456 * } */ static void txtenc_map(txtenc* e, const upb_Map* map, const upb_FieldDef* f) { if (e->options & UPB_TXTENC_NOSORT) { size_t iter = kUpb_Map_Begin; upb_MessageValue key, val; while (upb_Map_Next(map, &key, &val, &iter)) { txtenc_mapentry(e, key, val, f); } } else { if (upb_Map_Size(map) == 0) return; const upb_MessageDef* entry = upb_FieldDef_MessageSubDef(f); const upb_FieldDef* key_f = upb_MessageDef_Field(entry, 0); _upb_sortedmap sorted; upb_MapEntry ent; _upb_mapsorter_pushmap(&e->sorter, upb_FieldDef_Type(key_f), map, &sorted); while (_upb_sortedmap_next(&e->sorter, map, &sorted, &ent)) { upb_MessageValue key, val; memcpy(&key, &ent.k, sizeof(key)); memcpy(&val, &ent.v, sizeof(val)); txtenc_mapentry(e, key, val, f); } _upb_mapsorter_popmap(&e->sorter, &sorted); } } #define CHK(x) \ do { \ if (!(x)) { \ return false; \ } \ } while (0) /* * Unknown fields are printed by number. * * 1001: 123 * 1002: "hello" * 1006: 0xdeadbeef * 1003: { * 1: 111 * } */ static const char* txtenc_unknown(txtenc* e, const char* ptr, upb_EpsCopyInputStream* stream, int groupnum) { // We are guaranteed that the unknown data is valid wire format, and will not // contain tag zero. uint32_t end_group = groupnum > 0 ? ((groupnum << kUpb_WireReader_WireTypeBits) | kUpb_WireType_EndGroup) : 0; while (!upb_EpsCopyInputStream_IsDone(stream, &ptr)) { uint32_t tag; CHK(ptr = upb_WireReader_ReadTag(ptr, &tag)); if (tag == end_group) return ptr; txtenc_indent(e); txtenc_printf(e, "%d: ", (int)upb_WireReader_GetFieldNumber(tag)); switch (upb_WireReader_GetWireType(tag)) { case kUpb_WireType_Varint: { uint64_t val; CHK(ptr = upb_WireReader_ReadVarint(ptr, &val)); txtenc_printf(e, "%" PRIu64, val); break; } case kUpb_WireType_32Bit: { uint32_t val; ptr = upb_WireReader_ReadFixed32(ptr, &val); txtenc_printf(e, "0x%08" PRIu32, val); break; } case kUpb_WireType_64Bit: { uint64_t val; ptr = upb_WireReader_ReadFixed64(ptr, &val); txtenc_printf(e, "0x%016" PRIu64, val); break; } case kUpb_WireType_Delimited: { int size; char* start = e->ptr; size_t start_overflow = e->overflow; CHK(ptr = upb_WireReader_ReadSize(ptr, &size)); CHK(upb_EpsCopyInputStream_CheckDataSizeAvailable(stream, ptr, size)); // Speculatively try to parse as message. txtenc_putstr(e, "{"); txtenc_endfield(e); // EpsCopyInputStream can't back up, so create a sub-stream for the // speculative parse. upb_EpsCopyInputStream sub_stream; const char* sub_ptr = upb_EpsCopyInputStream_GetAliasedPtr(stream, ptr); upb_EpsCopyInputStream_Init(&sub_stream, &sub_ptr, size, true); e->indent_depth++; if (txtenc_unknown(e, sub_ptr, &sub_stream, -1)) { ptr = upb_EpsCopyInputStream_Skip(stream, ptr, size); e->indent_depth--; txtenc_indent(e); txtenc_putstr(e, "}"); } else { // Didn't work out, print as raw bytes. e->indent_depth--; e->ptr = start; e->overflow = start_overflow; const char* str = ptr; ptr = upb_EpsCopyInputStream_ReadString(stream, &str, size, NULL); UPB_ASSERT(ptr); txtenc_bytes(e, (upb_StringView){.data = str, .size = size}); } break; } case kUpb_WireType_StartGroup: txtenc_putstr(e, "{"); txtenc_endfield(e); e->indent_depth++; CHK(ptr = txtenc_unknown(e, ptr, stream, upb_WireReader_GetFieldNumber(tag))); e->indent_depth--; txtenc_indent(e); txtenc_putstr(e, "}"); break; default: return NULL; } txtenc_endfield(e); } return end_group == 0 && !upb_EpsCopyInputStream_IsError(stream) ? ptr : NULL; } #undef CHK static void txtenc_msg(txtenc* e, const upb_Message* msg, const upb_MessageDef* m) { size_t iter = kUpb_Message_Begin; const upb_FieldDef* f; upb_MessageValue val; while (upb_Message_Next(msg, m, e->ext_pool, &f, &val, &iter)) { if (upb_FieldDef_IsMap(f)) { txtenc_map(e, val.map_val, f); } else if (upb_FieldDef_IsRepeated(f)) { txtenc_array(e, val.array_val, f); } else { txtenc_field(e, val, f); } } if ((e->options & UPB_TXTENC_SKIPUNKNOWN) == 0) { size_t size; const char* ptr = upb_Message_GetUnknown(msg, &size); if (size != 0) { char* start = e->ptr; upb_EpsCopyInputStream stream; upb_EpsCopyInputStream_Init(&stream, &ptr, size, true); if (!txtenc_unknown(e, ptr, &stream, -1)) { /* Unknown failed to parse, back up and don't print it at all. */ e->ptr = start; } } } } size_t txtenc_nullz(txtenc* e, size_t size) { size_t ret = e->ptr - e->buf + e->overflow; if (size > 0) { if (e->ptr == e->end) e->ptr--; *e->ptr = '\0'; } return ret; } size_t upb_TextEncode(const upb_Message* msg, const upb_MessageDef* m, const upb_DefPool* ext_pool, int options, char* buf, size_t size) { txtenc e; e.buf = buf; e.ptr = buf; e.end = UPB_PTRADD(buf, size); e.overflow = 0; e.indent_depth = 0; e.options = options; e.ext_pool = ext_pool; _upb_mapsorter_init(&e.sorter); txtenc_msg(&e, msg, m); _upb_mapsorter_destroy(&e.sorter); return txtenc_nullz(&e, size); }