// Simple Extensible Binary Markup Language (ebml) reader and writer on a // cursor model. See the specification here: // http://www.matroska.org/technical/specs/rfc/index.html import core::option; import option::{some, none}; type ebml_tag = {id: uint, size: uint}; type ebml_state = {ebml_tag: ebml_tag, tag_pos: uint, data_pos: uint}; // TODO: When we have module renaming, make "reader" and "writer" separate // modules within this file. // ebml reading type doc = {data: @[u8], start: uint, end: uint}; fn vint_at(data: [u8], start: uint) -> {val: uint, next: uint} { let a = data[start]; if a & 0x80u8 != 0u8 { ret {val: a & 0x7fu8 as uint, next: start + 1u}; } if a & 0x40u8 != 0u8 { ret {val: (a & 0x3fu8 as uint) << 8u | (data[start + 1u] as uint), next: start + 2u}; } else if a & 0x20u8 != 0u8 { ret {val: (a & 0x1fu8 as uint) << 16u | (data[start + 1u] as uint) << 8u | (data[start + 2u] as uint), next: start + 3u}; } else if a & 0x10u8 != 0u8 { ret {val: (a & 0x0fu8 as uint) << 24u | (data[start + 1u] as uint) << 16u | (data[start + 2u] as uint) << 8u | (data[start + 3u] as uint), next: start + 4u}; } else { #error("vint too big"); fail; } } fn new_doc(data: @[u8]) -> doc { ret {data: data, start: 0u, end: vec::len::(*data)}; } fn doc_at(data: @[u8], start: uint) -> doc { let elt_tag = vint_at(*data, start); let elt_size = vint_at(*data, elt_tag.next); let end = elt_size.next + elt_size.val; ret {data: data, start: elt_size.next, end: end}; } fn maybe_get_doc(d: doc, tg: uint) -> option { let pos = d.start; while pos < d.end { let elt_tag = vint_at(*d.data, pos); let elt_size = vint_at(*d.data, elt_tag.next); pos = elt_size.next + elt_size.val; if elt_tag.val == tg { ret some::({data: d.data, start: elt_size.next, end: pos}); } } ret none::; } fn get_doc(d: doc, tg: uint) -> doc { alt maybe_get_doc(d, tg) { some(d) { ret d; } none { #error("failed to find block with enum %u", tg); fail; } } } fn docs(d: doc, it: fn(uint, doc)) { let pos = d.start; while pos < d.end { let elt_tag = vint_at(*d.data, pos); let elt_size = vint_at(*d.data, elt_tag.next); pos = elt_size.next + elt_size.val; it(elt_tag.val, {data: d.data, start: elt_size.next, end: pos}); } } fn tagged_docs(d: doc, tg: uint, it: fn(doc)) { let pos = d.start; while pos < d.end { let elt_tag = vint_at(*d.data, pos); let elt_size = vint_at(*d.data, elt_tag.next); pos = elt_size.next + elt_size.val; if elt_tag.val == tg { it({data: d.data, start: elt_size.next, end: pos}); } } } fn doc_data(d: doc) -> [u8] { ret vec::slice::(*d.data, d.start, d.end); } fn be_uint_from_bytes(data: @[u8], start: uint, size: uint) -> uint { let sz = size; assert (sz <= 4u); let val = 0u; let pos = start; while sz > 0u { sz -= 1u; val += (data[pos] as uint) << sz * 8u; pos += 1u; } ret val; } fn doc_as_uint(d: doc) -> uint { ret be_uint_from_bytes(d.data, d.start, d.end - d.start); } // ebml writing type writer = {writer: io::writer, mutable size_positions: [uint]}; fn write_sized_vint(w: io::writer, n: uint, size: uint) { let buf: [u8]; alt size { 1u { buf = [0x80u8 | (n as u8)]; } 2u { buf = [0x40u8 | (n >> 8u as u8), n & 0xffu as u8]; } 3u { buf = [0x20u8 | (n >> 16u as u8), n >> 8u & 0xffu as u8, n & 0xffu as u8]; } 4u { buf = [0x10u8 | (n >> 24u as u8), n >> 16u & 0xffu as u8, n >> 8u & 0xffu as u8, n & 0xffu as u8]; } _ { #error("vint to write too big"); fail; } } w.write(buf); } fn write_vint(w: io::writer, n: uint) { if n < 0x7fu { write_sized_vint(w, n, 1u); ret; } if n < 0x4000u { write_sized_vint(w, n, 2u); ret; } if n < 0x200000u { write_sized_vint(w, n, 3u); ret; } if n < 0x10000000u { write_sized_vint(w, n, 4u); ret; } #error("vint to write too big"); fail; } fn create_writer(w: io::writer) -> writer { let size_positions: [uint] = []; ret {writer: w, mutable size_positions: size_positions}; } // TODO: Provide a function to write the standard ebml header. fn start_tag(w: writer, tag_id: uint) { // Write the enum ID: write_vint(w.writer, tag_id); // Write a placeholder four-byte size. w.size_positions += [w.writer.tell()]; let zeroes: [u8] = [0u8, 0u8, 0u8, 0u8]; w.writer.write(zeroes); } fn end_tag(w: writer) { let last_size_pos = vec::pop::(w.size_positions); let cur_pos = w.writer.tell(); w.writer.seek(last_size_pos as int, io::seek_set); write_sized_vint(w.writer, cur_pos - last_size_pos - 4u, 4u); w.writer.seek(cur_pos as int, io::seek_set); } // TODO: optionally perform "relaxations" on end_tag to more efficiently // encode sizes; this is a fixed point iteration