import { fromCodePoint, replaceCodePoint } from "./decode-codepoint.js"; import { htmlDecodeTree } from "./generated/decode-data-html.js"; import { xmlDecodeTree } from "./generated/decode-data-xml.js"; import { BinTrieFlags } from "./internal/bin-trie-flags.js"; const enum CharCodes { NUM = 35, // "#" SEMI = 59, // ";" EQUALS = 61, // "=" ZERO = 48, // "0" NINE = 57, // "9" LOWER_A = 97, // "a" LOWER_F = 102, // "f" LOWER_X = 120, // "x" LOWER_Z = 122, // "z" UPPER_A = 65, // "A" UPPER_F = 70, // "F" UPPER_Z = 90, // "Z" } /** Bit that needs to be set to convert an upper case ASCII character to lower case */ const TO_LOWER_BIT = 0b10_0000; function isNumber(code: number): boolean { return code >= CharCodes.ZERO && code <= CharCodes.NINE; } function isHexadecimalCharacter(code: number): boolean { return ( (code >= CharCodes.UPPER_A && code <= CharCodes.UPPER_F) || (code >= CharCodes.LOWER_A && code <= CharCodes.LOWER_F) ); } function isAsciiAlphaNumeric(code: number): boolean { return ( (code >= CharCodes.UPPER_A && code <= CharCodes.UPPER_Z) || (code >= CharCodes.LOWER_A && code <= CharCodes.LOWER_Z) || isNumber(code) ); } /** * Checks if the given character is a valid end character for an entity in an attribute. * * Attribute values that aren't terminated properly aren't parsed, and shouldn't lead to a parser error. * See the example in https://html.spec.whatwg.org/multipage/parsing.html#named-character-reference-state */ function isEntityInAttributeInvalidEnd(code: number): boolean { return code === CharCodes.EQUALS || isAsciiAlphaNumeric(code); } const enum EntityDecoderState { EntityStart, NumericStart, NumericDecimal, NumericHex, NamedEntity, } export enum DecodingMode { /** Entities in text nodes that can end with any character. */ Legacy = 0, /** Only allow entities terminated with a semicolon. */ Strict = 1, /** Entities in attributes have limitations on ending characters. */ Attribute = 2, } /** * Producers for character reference errors as defined in the HTML spec. */ export interface EntityErrorProducer { missingSemicolonAfterCharacterReference(): void; absenceOfDigitsInNumericCharacterReference( consumedCharacters: number, ): void; validateNumericCharacterReference(code: number): void; } /** * Token decoder with support of writing partial entities. */ export class EntityDecoder { constructor( /** The tree used to decode entities. */ // biome-ignore lint/correctness/noUnusedPrivateClassMembers: False positive private readonly decodeTree: Uint16Array, /** * The function that is called when a codepoint is decoded. * * For multi-byte named entities, this will be called multiple times, * with the second codepoint, and the same `consumed` value. * * @param codepoint The decoded codepoint. * @param consumed The number of bytes consumed by the decoder. */ private readonly emitCodePoint: (cp: number, consumed: number) => void, /** An object that is used to produce errors. */ private readonly errors?: EntityErrorProducer | undefined, ) {} /** The current state of the decoder. */ private state = EntityDecoderState.EntityStart; /** Characters that were consumed while parsing an entity. */ private consumed = 1; /** * The result of the entity. * * Either the result index of a numeric entity, or the codepoint of a * numeric entity. */ private result = 0; /** The current index in the decode tree. */ private treeIndex = 0; /** The number of characters that were consumed in excess. */ private excess = 1; /** The mode in which the decoder is operating. */ private decodeMode = DecodingMode.Strict; /** The number of characters that have been consumed in the current run. */ private runConsumed = 0; /** Resets the instance to make it reusable. */ startEntity(decodeMode: DecodingMode): void { this.decodeMode = decodeMode; this.state = EntityDecoderState.EntityStart; this.result = 0; this.treeIndex = 0; this.excess = 1; this.consumed = 1; this.runConsumed = 0; } /** * Write an entity to the decoder. This can be called multiple times with partial entities. * If the entity is incomplete, the decoder will return -1. * * Mirrors the implementation of `getDecoder`, but with the ability to stop decoding if the * entity is incomplete, and resume when the next string is written. * * @param input The string containing the entity (or a continuation of the entity). * @param offset The offset at which the entity begins. Should be 0 if this is not the first call. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ write(input: string, offset: number): number { switch (this.state) { case EntityDecoderState.EntityStart: { if (input.charCodeAt(offset) === CharCodes.NUM) { this.state = EntityDecoderState.NumericStart; this.consumed += 1; return this.stateNumericStart(input, offset + 1); } this.state = EntityDecoderState.NamedEntity; return this.stateNamedEntity(input, offset); } case EntityDecoderState.NumericStart: { return this.stateNumericStart(input, offset); } case EntityDecoderState.NumericDecimal: { return this.stateNumericDecimal(input, offset); } case EntityDecoderState.NumericHex: { return this.stateNumericHex(input, offset); } case EntityDecoderState.NamedEntity: { return this.stateNamedEntity(input, offset); } } } /** * Switches between the numeric decimal and hexadecimal states. * * Equivalent to the `Numeric character reference state` in the HTML spec. * * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ private stateNumericStart(input: string, offset: number): number { if (offset >= input.length) { return -1; } if ((input.charCodeAt(offset) | TO_LOWER_BIT) === CharCodes.LOWER_X) { this.state = EntityDecoderState.NumericHex; this.consumed += 1; return this.stateNumericHex(input, offset + 1); } this.state = EntityDecoderState.NumericDecimal; return this.stateNumericDecimal(input, offset); } /** * Parses a hexadecimal numeric entity. * * Equivalent to the `Hexademical character reference state` in the HTML spec. * * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ private stateNumericHex(input: string, offset: number): number { while (offset < input.length) { const char = input.charCodeAt(offset); if (isNumber(char) || isHexadecimalCharacter(char)) { // Convert hex digit to value (0-15); 'a'/'A' -> 10. const digit = char <= CharCodes.NINE ? char - CharCodes.ZERO : (char | TO_LOWER_BIT) - CharCodes.LOWER_A + 10; this.result = this.result * 16 + digit; this.consumed++; offset++; } else { return this.emitNumericEntity(char, 3); } } return -1; // Incomplete entity } /** * Parses a decimal numeric entity. * * Equivalent to the `Decimal character reference state` in the HTML spec. * * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ private stateNumericDecimal(input: string, offset: number): number { while (offset < input.length) { const char = input.charCodeAt(offset); if (isNumber(char)) { this.result = this.result * 10 + (char - CharCodes.ZERO); this.consumed++; offset++; } else { return this.emitNumericEntity(char, 2); } } return -1; // Incomplete entity } /** * Validate and emit a numeric entity. * * Implements the logic from the `Hexademical character reference start * state` and `Numeric character reference end state` in the HTML spec. * * @param lastCp The last code point of the entity. Used to see if the * entity was terminated with a semicolon. * @param expectedLength The minimum number of characters that should be * consumed. Used to validate that at least one digit * was consumed. * @returns The number of characters that were consumed. */ private emitNumericEntity(lastCp: number, expectedLength: number): number { // Ensure we consumed at least one digit. if (this.consumed <= expectedLength) { this.errors?.absenceOfDigitsInNumericCharacterReference( this.consumed, ); return 0; } // Figure out if this is a legit end of the entity if (lastCp === CharCodes.SEMI) { this.consumed += 1; } else if (this.decodeMode === DecodingMode.Strict) { return 0; } this.emitCodePoint(replaceCodePoint(this.result), this.consumed); if (this.errors) { if (lastCp !== CharCodes.SEMI) { this.errors.missingSemicolonAfterCharacterReference(); } this.errors.validateNumericCharacterReference(this.result); } return this.consumed; } /** * Parses a named entity. * * Equivalent to the `Named character reference state` in the HTML spec. * * @param input The string containing the entity (or a continuation of the entity). * @param offset The current offset. * @returns The number of characters that were consumed, or -1 if the entity is incomplete. */ private stateNamedEntity(input: string, offset: number): number { const { decodeTree } = this; let current = decodeTree[this.treeIndex]; // The length is the number of bytes of the value, including the current byte. let valueLength = (current & BinTrieFlags.VALUE_LENGTH) >> 14; while (offset < input.length) { // Handle compact runs (possibly inline): valueLength == 0 and SEMI_REQUIRED bit set. if (valueLength === 0 && (current & BinTrieFlags.FLAG13) !== 0) { const runLength = (current & BinTrieFlags.BRANCH_LENGTH) >> 7; /* 2..63 */ // If we are starting a run, check the first char. if (this.runConsumed === 0) { const firstChar = current & BinTrieFlags.JUMP_TABLE; if (input.charCodeAt(offset) !== firstChar) { return this.result === 0 ? 0 : this.emitNotTerminatedNamedEntity(); } offset++; this.excess++; this.runConsumed++; } // Check remaining characters in the run. while (this.runConsumed < runLength) { if (offset >= input.length) { return -1; } const charIndexInPacked = this.runConsumed - 1; const packedWord = decodeTree[ this.treeIndex + 1 + (charIndexInPacked >> 1) ]; const expectedChar = charIndexInPacked % 2 === 0 ? packedWord & 0xff : (packedWord >> 8) & 0xff; if (input.charCodeAt(offset) !== expectedChar) { this.runConsumed = 0; return this.result === 0 ? 0 : this.emitNotTerminatedNamedEntity(); } offset++; this.excess++; this.runConsumed++; } this.runConsumed = 0; this.treeIndex += 1 + (runLength >> 1); current = decodeTree[this.treeIndex]; valueLength = (current & BinTrieFlags.VALUE_LENGTH) >> 14; } if (offset >= input.length) break; const char = input.charCodeAt(offset); /* * Implicit semicolon handling for nodes that require a semicolon but * don't have an explicit ';' branch stored in the trie. If we have * a value on the current node, it requires a semicolon, and the * current input character is a semicolon, emit the entity using the * current node (without descending further). */ if ( char === CharCodes.SEMI && valueLength !== 0 && (current & BinTrieFlags.FLAG13) !== 0 ) { return this.emitNamedEntityData( this.treeIndex, valueLength, this.consumed + this.excess, ); } this.treeIndex = determineBranch( decodeTree, current, this.treeIndex + Math.max(1, valueLength), char, ); if (this.treeIndex < 0) { return this.result === 0 || // If we are parsing an attribute (this.decodeMode === DecodingMode.Attribute && // We shouldn't have consumed any characters after the entity, (valueLength === 0 || // And there should be no invalid characters. isEntityInAttributeInvalidEnd(char))) ? 0 : this.emitNotTerminatedNamedEntity(); } current = decodeTree[this.treeIndex]; valueLength = (current & BinTrieFlags.VALUE_LENGTH) >> 14; // If the branch is a value, store it and continue if (valueLength !== 0) { // If the entity is terminated by a semicolon, we are done. if (char === CharCodes.SEMI) { return this.emitNamedEntityData( this.treeIndex, valueLength, this.consumed + this.excess, ); } // If we encounter a non-terminated (legacy) entity while parsing strictly, then ignore it. if ( this.decodeMode !== DecodingMode.Strict && (current & BinTrieFlags.FLAG13) === 0 ) { this.result = this.treeIndex; this.consumed += this.excess; this.excess = 0; } } // Increment offset & excess for next iteration offset++; this.excess++; } return -1; } /** * Emit a named entity that was not terminated with a semicolon. * * @returns The number of characters consumed. */ private emitNotTerminatedNamedEntity(): number { const { result, decodeTree } = this; const valueLength = (decodeTree[result] & BinTrieFlags.VALUE_LENGTH) >> 14; this.emitNamedEntityData(result, valueLength, this.consumed); this.errors?.missingSemicolonAfterCharacterReference(); return this.consumed; } /** * Emit a named entity. * * @param result The index of the entity in the decode tree. * @param valueLength The number of bytes in the entity. * @param consumed The number of characters consumed. * * @returns The number of characters consumed. */ private emitNamedEntityData( result: number, valueLength: number, consumed: number, ): number { const { decodeTree } = this; this.emitCodePoint( valueLength === 1 ? decodeTree[result] & ~(BinTrieFlags.VALUE_LENGTH | BinTrieFlags.FLAG13) : decodeTree[result + 1], consumed, ); if (valueLength === 3) { // For multi-byte values, we need to emit the second byte. this.emitCodePoint(decodeTree[result + 2], consumed); } return consumed; } /** * Signal to the parser that the end of the input was reached. * * Remaining data will be emitted and relevant errors will be produced. * * @returns The number of characters consumed. */ end(): number { switch (this.state) { case EntityDecoderState.NamedEntity: { // Emit a named entity if we have one. return this.result !== 0 && (this.decodeMode !== DecodingMode.Attribute || this.result === this.treeIndex) ? this.emitNotTerminatedNamedEntity() : 0; } // Otherwise, emit a numeric entity if we have one. case EntityDecoderState.NumericDecimal: { return this.emitNumericEntity(0, 2); } case EntityDecoderState.NumericHex: { return this.emitNumericEntity(0, 3); } case EntityDecoderState.NumericStart: { this.errors?.absenceOfDigitsInNumericCharacterReference( this.consumed, ); return 0; } case EntityDecoderState.EntityStart: { // Return 0 if we have no entity. return 0; } } } } /** * Creates a function that decodes entities in a string. * * @param decodeTree The decode tree. * @returns A function that decodes entities in a string. */ function getDecoder(decodeTree: Uint16Array) { let returnValue = ""; const decoder = new EntityDecoder( decodeTree, (data) => (returnValue += fromCodePoint(data)), ); return function decodeWithTrie( input: string, decodeMode: DecodingMode, ): string { let lastIndex = 0; let offset = 0; while ((offset = input.indexOf("&", offset)) >= 0) { returnValue += input.slice(lastIndex, offset); decoder.startEntity(decodeMode); const length = decoder.write( input, // Skip the "&" offset + 1, ); if (length < 0) { lastIndex = offset + decoder.end(); break; } lastIndex = offset + length; // If `length` is 0, skip the current `&` and continue. offset = length === 0 ? lastIndex + 1 : lastIndex; } const result = returnValue + input.slice(lastIndex); // Make sure we don't keep a reference to the final string. returnValue = ""; return result; }; } /** * Determines the branch of the current node that is taken given the current * character. This function is used to traverse the trie. * * @param decodeTree The trie. * @param current The current node. * @param nodeIdx The index right after the current node and its value. * @param char The current character. * @returns The index of the next node, or -1 if no branch is taken. */ export function determineBranch( decodeTree: Uint16Array, current: number, nodeIndex: number, char: number, ): number { const branchCount = (current & BinTrieFlags.BRANCH_LENGTH) >> 7; const jumpOffset = current & BinTrieFlags.JUMP_TABLE; // Case 1: Single branch encoded in jump offset if (branchCount === 0) { return jumpOffset !== 0 && char === jumpOffset ? nodeIndex : -1; } // Case 2: Multiple branches encoded in jump table if (jumpOffset) { const value = char - jumpOffset; return value < 0 || value >= branchCount ? -1 : decodeTree[nodeIndex + value] - 1; } // Case 3: Multiple branches encoded in packed dictionary (two keys per uint16) const packedKeySlots = (branchCount + 1) >> 1; /* * Treat packed keys as a virtual sorted array of length `branchCount`. * Key(i) = low byte for even i, high byte for odd i in slot i>>1. */ let lo = 0; let hi = branchCount - 1; while (lo <= hi) { const mid = (lo + hi) >>> 1; const slot = mid >> 1; const packed = decodeTree[nodeIndex + slot]; const midKey = (packed >> ((mid & 1) * 8)) & 0xff; if (midKey < char) { lo = mid + 1; } else if (midKey > char) { hi = mid - 1; } else { return decodeTree[nodeIndex + packedKeySlots + mid]; } } return -1; } const htmlDecoder = /* #__PURE__ */ getDecoder(htmlDecodeTree); const xmlDecoder = /* #__PURE__ */ getDecoder(xmlDecodeTree); /** * Decodes an HTML string. * * @param htmlString The string to decode. * @param mode The decoding mode. * @returns The decoded string. */ export function decodeHTML( htmlString: string, mode: DecodingMode = DecodingMode.Legacy, ): string { return htmlDecoder(htmlString, mode); } /** * Decodes an HTML string in an attribute. * * @param htmlAttribute The string to decode. * @returns The decoded string. */ export function decodeHTMLAttribute(htmlAttribute: string): string { return htmlDecoder(htmlAttribute, DecodingMode.Attribute); } /** * Decodes an HTML string, requiring all entities to be terminated by a semicolon. * * @param htmlString The string to decode. * @returns The decoded string. */ export function decodeHTMLStrict(htmlString: string): string { return htmlDecoder(htmlString, DecodingMode.Strict); } /** * Decodes an XML string, requiring all entities to be terminated by a semicolon. * * @param xmlString The string to decode. * @returns The decoded string. */ export function decodeXML(xmlString: string): string { return xmlDecoder(xmlString, DecodingMode.Strict); } export { decodeCodePoint, fromCodePoint, replaceCodePoint, } from "./decode-codepoint.js"; // Re-export for use by eg. htmlparser2 export { htmlDecodeTree } from "./generated/decode-data-html.js"; export { xmlDecodeTree } from "./generated/decode-data-xml.js";