//todo: Make this a module/mjs file. C6 compatibility can stay, if needed. ICONJS_DEBUG = false; ICONJS_STRICT = true; ICONJS_VERSION = "0.4.1"; function setDebug(value) { ICONJS_DEBUG = !!value; } function setStrictness(value) { ICONJS_STRICT = !!value; } // where U = uncompressed, N = none, C = compressed function getTextureFormat(i) { if (i<8) { if(i==3) { return 'N'; } return 'U'; } else if (i>=8) { return 'C'; } else { return void(0); } } function uncompressTexture(texData) { // for texture formats 8-15 if (texData.length & 1) { throw "Texture size isn't a multiple of 2 (was ${texData.length})"; } const view = new DataView(texData); const u16le = function(i){return view.getUint16(i, 1)} let uncompressed = new Uint16Array(16384); let offset = 0; for (let index = 0; index < 16384;) { currentValue = u16le(offset); if(currentValue === 0) { // if this is specifically a katamari 1 or 2 icon, skip this byte // because it's formatted like that for some reason offset += 2; currentValue = u16le(offset); } offset += 2; if (currentValue >= 0xff00) { //do a raw copy of the next currentValue bytes let length = ((0x10000 - currentValue)); for (let enumerator = 0; enumerator < length; enumerator++) { uncompressed[index] = u16le(offset); offset += 2; index++; } } else { //repeat next byte currentValue times uncompressed[index] = u16le(offset); for (let indey = 0; indey < currentValue; indey++) { uncompressed[index] = u16le(offset); index++ } offset += 2; } } return uncompressed; } function convertBGR5A1toRGB5A1(bgrData) { if(bgrData.byteLength !== 32768) { throw `Not a 128x128x16 texture. (length was ${bgrData.length})`; } // converts 5-bit blue, green, red (in that order) with one alpha bit to GL-compatible RGB5A1 let converted = new Uint16Array(16384); for (let index = 0; index < 16384; index++) { let b = ( bgrData[index] & 0b11111); let g = ((bgrData[index] >> 5) & 0b11111); let r = ((bgrData[index] >> 10) & 0b11111); // rrrrrgggggbbbbba (a = 1 because 0 is 127 which is 1.0f opacity for the GS) let newValue = 0b0000000000000001; newValue |= (r << 1); newValue |= (g << 6); newValue |= (b << 11); converted[index] = newValue; } return converted; } function stringScrubber(dirty) { return dirty.replaceAll("\x00","").substring(0, (dirty.indexOf("\x00") === -1) ? dirty.length : dirty.indexOf("\x00")); } function readPS2D(input) { const view = new DataView(input); const u32le = function(i){return view.getUint32(i, 1)} const f32le = function(i){return view.getFloat32(i, 1)} //!pattern ps2d.hexpat const header = u32le(0); if (header !== 0x44325350) { throw `Not a PS2D file (was ${header}, expected ${0x44325350})`; } //:skip 2 const titleOffset = u32le(6); //:skip 2 const bgAlpha = u32le(12); // should read as a u8, (k/127?.5) for float value (255 = a(2.0~)) const bgColors = [ {r: u32le(16), g: u32le(20), b: u32le(24), a: u32le(28)}, {r: u32le(32), g: u32le(36), b: u32le(40), a: u32le(44)}, {r: u32le(48), g: u32le(52), b: u32le(56), a: u32le(60)}, {r: u32le(64), g: u32le(68), b: u32le(72), a: u32le(76)} ]; // top-left, top-right, bottom-left, bottom-right; const lightIndices = [ {x: f32le(80), y: f32le(84), z: f32le(88)}, //:skip 4 {x: f32le(96), y: f32le(100), z: f32le(104)}, //:skip 4 {x: f32le(112), y: f32le(116), z: f32le(120)} //:skip 4 ] const lightColors = [ {r: f32le(128), g: f32le(132), b: f32le(136), a: f32le(140)}, {r: f32le(144), g: f32le(148), b: f32le(152), a: f32le(156)}, {r: f32le(160), g: f32le(164), b: f32le(168), a: f32le(172)}, {r: f32le(176), g: f32le(180), b: f32le(184), a: f32le(188)} ] // P2SB says color 1 is ambient, 2-4 are for 3-point cameras // official HDD icon.sys files (completely different PS2ICON text-based format) also say the same. const int_title = input.slice(0xc0, 0x100); const tmp_title16 = new Uint16Array(int_title); for (let index = 0; index < 32; index++) { //find "bad" shift-jis two-bytes, and convert to spaces (or NULL if strict) if(tmp_title16[index] === 129 || tmp_title16[index] === 33343) { console.warn(`PS2D syntax error: known bad two-byte sequence 0x${tmp_title16[index].toString(16).padEnd(4,"0")} (at ${index}). Replacing with ${(ICONJS_STRICT) ? "NULL" : "0x8140"}.\n${(ICONJS_STRICT) ? "This is console-accurate, so" : "An actual console does not do this."} I recommend patching your icon.sys files!`); tmp_title16[index] = (ICONJS_STRICT) ? 0 : 0x4081; // is a reference, so this'll edit int_title too } } //:skip 4 -- Unless proven, keep 64 bytes for display name. const int_filename_n = input.slice(0x104, 0x143); const int_filename_c = input.slice(0x144, 0x183); const int_filename_d = input.slice(0x184, 0x1C3); //;skip 512 -- rest of this is just padding const rawTitle = (new TextDecoder("shift-jis")).decode(int_title); const title = [ stringScrubber(rawTitle.substring(0,(titleOffset/2))), (rawTitle.indexOf("\x00") < (titleOffset/2)) ? "" : stringScrubber(rawTitle.substring((titleOffset/2))) ]; const filenames = { n: stringScrubber((new TextDecoder("utf-8")).decode(int_filename_n)), c: stringScrubber((new TextDecoder("utf-8")).decode(int_filename_c)), d: stringScrubber((new TextDecoder("utf-8")).decode(int_filename_d)) } if(ICONJS_DEBUG){ console.log({header, titleOffset, bgAlpha, bgColors, lightIndices, lightColors, title, filenames}); } return {filenames, title, background: {colors: bgColors, alpha: bgAlpha}, lighting: {points: lightIndices, colors: lightColors}}; } function readIconFile(input) { //!pattern ps2icon-hacked.hexpat const view = new DataView(input); const u32le = function(i){return view.getUint32(i, 1)} const f32le = function(i){return view.getFloat32(i, 1)} const f16le = function(i){return (view.getInt16(i, 1) / 4096)} const u32_rgba8 = function(i) {return { r: (i & 0xff), g: ((i & 0xff00) >> 8), b: ((i & 0xff0000) >> 16), a: (i > 0x7fffffff ? 255 : (((i & 0xff000000) >>> 24) * 2)+1) // I don't think alpha transparency is actually USED in icons?, rendering with it looks strange. }}; const magic = u32le(0); if (magic !== 0x010000) { // USER WARNING: APPARENTLY NOT ALL ICONS ARE 0x010000. THIS THROW WILL BE DROPPED LATER. throw `Not a PS2 icon file (was ${magic}, expected ${0x010000})`; } const numberOfShapes = u32le(4); if(numberOfShapes > 16) { throw `Too many defined shapes! Is this a valid file? (file reports ${numberOfShapes} shapes)`; } const textureType = u32le(8); const textureFormat = getTextureFormat(textureType); //:skip 4 const numberOfVertexes = u32le(16); if(!!(numberOfVertexes % 3)){ throw `Not enough vertices to define a triangle (${numberOfVertexes % 3} vertices remained).`; } // format: [xxyyzzaa * numberOfShapes][xxyyzzaa][uuvvrgba], ((8 * numberOfShapes) + 16) [per chunk] let offset = 20; let vertices = new Array(); const chunkLength = ((numberOfShapes * 8) + 16); // for numberOfVertexes, copy chunkLength x times, then append with normal, uv and rgba8 color. Floats are 16-bit. for (let index = 0; index < numberOfVertexes; index++) { let shapes = new Array(); for (let indey = 0; indey < numberOfShapes; indey++) { shapes.push({ x: f16le(offset+((chunkLength*index)+(indey*8))), y: f16le(offset+((chunkLength*index)+(indey*8))+2), z: f16le(offset+((chunkLength*index)+(indey*8))+4) }); //:skip 2 } let normal = { x: f16le(offset+(chunkLength*index)+((numberOfShapes * 8))), y: f16le(offset+(chunkLength*index)+((numberOfShapes * 8))+2), z: f16le(offset+(chunkLength*index)+((numberOfShapes * 8))+4) }; //:skip 2 let uv = { u: f16le(offset+(chunkLength*index)+((numberOfShapes * 8))+8), v: f16le(offset+(chunkLength*index)+((numberOfShapes * 8))+10) }; let color = u32_rgba8(u32le(offset+(chunkLength*index)+((numberOfShapes * 8))+12)); // keep original u32le color? vertices.push({shapes, normal, uv, color}); } offset = (20+(numberOfVertexes * chunkLength)); animationHeader = {id: u32le(offset), length: u32le(offset+4), speed: f32le(offset+8), "offset": u32le(offset+12), keyframes: u32le(offset+16)}; let animData = new Array(); // now we have to enumerate values, so now we introduce an offset value. // format for a keyframe: sssskkkk[ffffvvvv] where [ffffvvvv] repeat based on the value that kkkk(eys) has. // sssskkkk[ffffvvvv] is repeated based on animationHeader.keyframes value. offset += 20; for (let index = 0; index < animationHeader.keyframes; index++) { let frameData = new Array(); let shapeId = u32le(offset); let keys = u32le(offset+4); offset += 8; for (let indey = 0; indey < keys; indey++) { frameData.push({frame: f32le(offset), value: f32le(offset+4)}); offset += 8; } animData.push({shapeId, keys, frameData}); } let texture = null; switch(textureFormat) { case 'N': { break; } case 'U': { //where every 16-bit entry is a BGR5A1 color 0b[bbbbbgggggrrrrra] texture = new Uint16Array(input.slice(offset, (offset+0x8000))); break; } case 'C': { // compression format is RLE-based, where first u32 is size, and format is defined as: /** * u16 rleType; * if (rleType >= 0xff00) { * //do a raw copy * let length = (0x10000 - rleType); * byte data[length]; * } else { * //repeat next byte rleType times * data = new Uint16Array(rleType); * for (let index = 0; index < rleType; index++) { * data[index] = u16 repeater @ +4; * } * } **/ //output of this will be another u16[0x4000] of the decompressed texture //after that just parse output as-if it was uncompressed. size = u32le(offset); texture = {size, data: input.slice(offset+4, offset+(4+size))}; } } if(ICONJS_DEBUG){ console.log({magic, numberOfShapes, textureType, textureFormat, numberOfVertexes, chunkLength, vertices, animationHeader, animData, texture}); } return {numberOfShapes, vertices, textureFormat, texture, animData}; } function readEntryBlock(input) { const view = new DataView(input); const u32le = function(i){return view.getUint32(i, 1)}; const t64le = function(i){return { seconds: view.getUint8(i+1), minutes: view.getUint8(i+2), hours: view.getUint8(i+3), day: view.getUint8(i+4), month: view.getUint8(i+5), year: view.getUint16(i+6, 1) }}; //NOTE: times are in JST timezone (GMT+09:00), so clients should implement correctly! //!pattern psu_file.hexpat const permissions = u32le(0); let type; if (permissions>0xffff) { throw `Not a EMS Memory Adapter (PSU) export file (was ${permissions}, expected less than ${0xffff})`; } if((permissions & 0b00100000)>=1){ type = "directory"; } if((permissions & 0b00010000)>=1){ type = "file"; } if((permissions & 0b0001100000000000)>=1){ throw `I don't parse portable applications or legacy save data. (${permissions} has bits 10 or 11 set)`; } const size = u32le(4); const createdTime = t64le(8); const sectorOffset = u32le(16); const dirEntry = u32le(20); const modifiedTime = t64le(24); const specialSection = input.slice(0x20, 0x40); const int_filename = input.slice(0x40, 512); const filename = stringScrubber((new TextDecoder("utf-8")).decode(int_filename)); if(ICONJS_DEBUG){ console.log({permissions, type, size, createdTime, sectorOffset, dirEntry, modifiedTime, specialSection, filename}); } return {type, size, filename, createdTime, modifiedTime}; } function readEmsPsuFile(input){ const header = readEntryBlock(input.slice(0,0x1ff)); if(header.size > 0x7f) { throw `Directory is too large! (maximum size: ${0x7f}, was ${header.size})` } let fsOut = {length: header.size, rootDirectory: header.filename, timestamps: {created: header.createdTime, modified: header.modifiedTime}}; let output = new Object(); let offset = 512; for (let index = 0; index < header.size; index++) { fdesc = readEntryBlock(input.slice(offset, offset + 512)); switch(fdesc.type) { case "directory": { offset += 512; output[fdesc.filename] = null; break; } case "file": { if(ICONJS_DEBUG){ console.log(`PARSING | F: "${fdesc.filename}" O: ${offset} S: ${fdesc.size}`); } offset += 512; const originalOffset = offset; if((fdesc.size % 1024) > 0) { offset += ((fdesc.size & 0b11111111110000000000) + 1024); } else { offset += fdesc.size; // if we're already filling sectors fully, no to change anything about it } output[fdesc.filename] = { size: fdesc.size, data: input.slice(originalOffset, originalOffset+fdesc.size) }; break; } } } fsOut[header.filename] = output; return fsOut; } function readPsvFile(input){ const view = new DataView(input); const u32le = function(i){return view.getUint32(i, 1)}; const t64le = function(i){return { seconds: view.getUint8(i+1), minutes: view.getUint8(i+2), hours: view.getUint8(i+3), day: view.getUint8(i+4), month: view.getUint8(i+5), year: view.getUint16(i+6, 1) }}; //!pattern psv_file.hexpat const magic = u32le(0); if (magic !== 0x50535600) { throw `Not a PS3 export (PSV) file (was ${magic}, expected ${0x50535600})`; } //:skip 4 //:skip 20 // key seed, console ignores this //:skip 20 // sha1 hmac digest, useful for verifying that this is, indeed, save data. //:skip 8 const type1 = u32le(56); const type2 = u32le(60); if(type1 !== 0x2c && type2 !== 2) { throw `Not parsing, this is not a PS2 save export (was ${type1}:${type2}, expected 44:2)`; } const displayedSize = u32le(64); const ps2dOffset = u32le(68); const ps2dSize = u32le(72); // don't know why this is included if its always 964 const nModelOffset = u32le(76); const nModelSize = u32le(80); const cModelOffset = u32le(84); const cModelSize = u32le(88); const dModelOffset = u32le(92); const dModelSize = u32le(96); const numberOfFiles = u32le(100); // in-case this library changes stance on other files // file = {t64le created, t64le modified, u32 size, u32 permissions, byte[32] title} // and if it's not the root directory, add another u32 for offset/location const rootDirectoryData = input.slice(104, 162); const timestamps = {created: t64le(104), modified: t64le(112)}; let offset = 162; let fileData = new Array(); for (let index = 0; index < numberOfFiles; index++) { fileData.push(input.slice(offset,offset+0x3c)); offset += 0x3c; }; //then file data after this but we already have pointers to the files we care about const icons = { n: input.slice(nModelOffset, nModelOffset+nModelSize), c: input.slice(cModelOffset, cModelOffset+cModelSize), d: input.slice(dModelOffset, dModelOffset+dModelSize), } if (ICONJS_DEBUG) { console.log({magic, type1, type2, displayedSize, ps2dOffset, ps2dSize, nModelOffset, nModelSize, cModelOffset, cModelSize, dModelOffset, dModelSize, numberOfFiles, rootDirectoryData, fileData}) } return {icons, "icon.sys": input.slice(ps2dOffset, ps2dOffset+ps2dSize), timestamps}; } function readSxpsDescriptor(input) { const view = new DataView(input); const u32le = function(i){return view.getUint32(i, 1)}; const t64le = function(i){return { seconds: view.getUint8(i+1), minutes: view.getUint8(i+2), hours: view.getUint8(i+3), day: view.getUint8(i+4), month: view.getUint8(i+5), year: view.getUint16(i+6, 1) }}; //NOTE: times are in JST timezone (GMT+09:00), so clients should implement correctly! //!pattern sps-xps_file.hexpat //:skip 2 // ... it's the file descriptor block size (including the bytes themselves, so 250) const int_filename = input.slice(2, 66); const filename = stringScrubber((new TextDecoder("utf-8")).decode(int_filename)); const size = u32le(66); const startSector = u32le(70); const endSector = u32le(74); const permissions = u32le(78); // the first two bytes are *swapped*. The comments that ensued were not kept. let type; if (permissions>0xffff) { throw `Not a SharkPort (SPS) or X-Port (XPS) export file (was ${permissions}, expected less than ${0xffff})`; } if((permissions & 0b0010000000000000)>=1){ type = "directory"; } if((permissions & 0b0001000000000000)>=1){ type = "file"; } if((permissions & 0b00011000)>=1){ throw `I don't parse portable applications or legacy save data. (${permissions} has bits 4 or 5 set)`; } const timestamps = {created: t64le(82), modified: t64le(90)}; //:skip 4 //:skip 4 - u32 optional (98) //:skip 8 - t64 optionalTime (102) // I don't know why this is here. const int_asciiName = input.slice(114, 178); const int_shiftjisName = input.slice(178, 242); // Because why parse a PS2D when you can hard-code it? //:skip 8 if(ICONJS_DEBUG) { console.log({int_filename, size, startSector, endSector, permissions, type, timestamps, int_asciiName, int_shiftjisName}); } return {type, size, filename, timestamps}; } function readSharkXPortSxpsFile(input) { const view = new DataView(input); const u32le = function(i){return view.getUint32(i, 1)}; //!pattern sps-xps_file.hexpat const identLength = u32le(0); if(identLength !== 13) { throw `Not a SharkPort (SPS) or X-Port (XPS) export file (was ${identLength}, expected 13)`; } let offset = 4; const ident = input.slice(offset, offset+identLength); if((new TextDecoder("utf-8")).decode(ident) !== "SharkPortSave") { throw `Unrecognized file identification string. Expected "SharkPortSave".` } offset += (identLength + 4); const titleLength = u32le(offset); const title = input.slice(offset + 4, (offset + 4) + titleLength); offset += (titleLength + 4); const descriptionLength = u32le(offset); const description = input.slice(offset + 4, (offset + 4) + descriptionLength); offset += (descriptionLength + 8); const comments = { "game": stringScrubber((new TextDecoder("utf-8")).decode(title)), "name": stringScrubber((new TextDecoder("utf-8")).decode(description)) } const totalSize = u32le(offset); offset += 4; const header = readSxpsDescriptor(input.slice(offset, offset + 250)); offset += 250; // alright now lets parse some actual data let fsOut = {length: header.size, rootDirectory: header.filename, timestamps: header.timestamps, comments}; let output = new Object(); for (let index = 0; index < (header.size - 2); index++) { fdesc = readSxpsDescriptor(input.slice(offset, offset + 250)); switch(fdesc.type) { case "directory": { offset += 250; output[fdesc.filename] = null; break; } case "file": { if(ICONJS_DEBUG){ console.log(`PARSING | F: "${fdesc.filename}" O: ${offset} S: ${fdesc.size}`); } offset += 250; output[fdesc.filename] = { size: fdesc.size, data: input.slice(offset, offset+fdesc.size) }; offset += fdesc.size; break; } } } fsOut[header.filename] = output; //:skip 4 // then here lies, at offset (the end of file), a u32 checksum. return fsOut; } if(typeof module !== "undefined") { // for C6JS module.exports = {readIconFile, readPS2D, readEmsPsuFile, readPsvFile, readSharkXPortSxpsFile, setDebug, setStrictness}; }