What is 양방향 범주?

양방향 텍스트(왼쪽에서 오른쪽, 오른쪽에서 왼쪽, 약, 중립)에서 문자의 동작 방식을 결정하는 속성. 표시 순서를 결정하기 위해 유니코드 양방향 알고리즘이 사용합니다.

What is RTL (오른쪽에서 왼쪽)?

문자가 오른쪽에서 왼쪽으로 흐르는 텍스트 방향. 아랍어, 히브리어, 타아나 문자 등에서 사용되며, 올바른 표시를 위해 양방향 알고리즘이 필요합니다.

What is 양방향 재정의 공격?

유니코드 양방향 재정의 문자(U+202A~U+202E, U+2066~U+2069)를 사용하여 악성 파일 이름이나 코드를 위장하는 공격. 'readme‮fdp.exe'는 'readmeexe.pdf'로 표시됩니다.

알고리즘

유니코드 양방향 알고리즘 (UBA)

문자 양방향 범주와 명시적 방향 재정의를 사용하여 혼합 방향 텍스트(예: 영어 + 아랍어)의 표시 순서를 결정하는 알고리즘.

2022-08-08 · Updated 2024-10-08

The Challenge of Mixed-Direction Text

English reads left-to-right (LTR). Arabic and Hebrew read right-to-left (RTL). When you have both in the same paragraph — a common situation in multilingual documents, URLs in Arabic text, or numbers in Hebrew — the rendering engine needs a precise set of rules to determine the visual order of characters. That set of rules is the Unicode Bidirectional Algorithm (UBA), specified in Unicode Standard Annex #9.

The UBA operates on logical order (the order characters are stored) and produces visual order (the order glyphs are rendered on screen). Most of the time this is invisible to users — text just displays correctly. But when it goes wrong, entire paragraphs can appear mirrored, or security-relevant filenames can be displayed in a different order than they are stored.

Implicit vs. Explicit Directionality

The UBA assigns every character a Bidi category based on its Unicode property. Common categories:

Category	Abbr	Examples
Left-to-Right	L	Latin, Cyrillic, CJK
Right-to-Left	R	Hebrew
Arabic Letter	AL	Arabic, Thaana
European Number	EN	0–9
Common Separator	CS	`,` `.`
Paragraph Separator	B	newline
Boundary Neutral	BN	formatting characters

Using these categories, the algorithm assigns embedding levels (even = LTR, odd = RTL) and resolves the visual order automatically. This implicit handling covers the vast majority of cases.

Explicit Directional Formatting Characters

When implicit resolution produces the wrong order, Unicode provides directional formatting characters to override it:

Character	Code point	Name	Purpose
LRE	U+202A	Left-to-Right Embedding	Start LTR embedded text
RLE	U+202B	Right-to-Left Embedding	Start RTL embedded text
LRO	U+202D	Left-to-Right Override	Force LTR regardless of characters
RLO	U+202E	Right-to-Left Override	Force RTL regardless of characters
PDF	U+202C	Pop Directional Formatting	End embedding/override
LRI	U+2066	Left-to-Right Isolate	Isolate LTR run (Unicode 6.3+)
RLI	U+2067	Right-to-Left Isolate	Isolate RTL run (Unicode 6.3+)
FSI	U+2068	First Strong Isolate	Auto-detect direction
PDI	U+2069	Pop Directional Isolate	End isolate

The LRI/RLI/FSI/PDI isolate controls (added in Unicode 6.3) are preferred over the older embedding controls because isolates do not affect the surrounding text's bidi resolution — they are fully contained.

Security: The Bidi Trojan Source Attack

The RLO character (U+202E) can be used maliciously to display a filename or code string in a different order than it is stored. A file named innocent‮fdp.exe can display as innocent.pdf. This "Trojan Source" attack (CVE-2021-42574) affected code editors that rendered bidi formatting in source files. Mitigation: strip or escape U+202A–U+202E and U+2066–U+2069 in user-supplied text displayed in security contexts.

Quick Facts

Property	Value
Specification	Unicode Standard Annex #9 (UAX #9)
Also known as	UBA, Bidi Algorithm
Paragraph base direction	Determined by first strong character, or explicit override
CSS property	`direction: rtl/ltr`, `unicode-bidi: embed/bidi-override/isolate`
HTML attribute	`dir="rtl"`, `dir="ltr"`, `dir="auto"`
Security risk	RLO spoofing (Trojan Source, CVE-2021-42574)
Preferred controls	Isolates (LRI/RLI/FSI/PDI) over legacy embeddings