Application Context Implementation #4
58
src/oar.zig
58
src/oar.zig
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@ -24,7 +24,7 @@ pub const Archive = struct {
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///
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///
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///
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const IndexCache = table.Hashed([]const u8, Entry.Header, table.string_context);
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const IndexCache = table.Hashed([]const u8, u64, table.string_context);
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///
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/// Finds an entry matching `entry_path` in `archive`.
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@ -34,40 +34,50 @@ pub const Archive = struct {
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pub fn find(archive: *Archive, entry_path: []const u8) FindError!Entry {
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return Entry{
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.header = find_header: {
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if (archive.index_cache.lookup(entry_path)) |entry_header|
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break: find_header entry_header.*;
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// Start from beginning of archive.
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try archive.file_access.seek(0);
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var entry_header = Entry.Header{
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var header = Entry.Header{
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.revision = 0,
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.file_size = 0,
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.file_offset = 0
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.absolute_offset = 0
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};
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const read_buffer = std.mem.asBytes(&entry_header);
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const header_size = @sizeOf(Entry.Header);
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// Read first entry.
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while ((try archive.file_access.read(read_buffer)) == @sizeOf(Entry.Header)) {
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if (std.mem.eql(u8, entry_path, entry_header.
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name_buffer[0 .. entry_header.name_length])) {
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if (archive.index_cache.lookup(entry_path)) |cursor| {
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try archive.file_access.seek(cursor);
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// If caching fails... oh well...
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archive.index_cache.insert(entry_path, entry_header) catch {};
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if ((try archive.file_access.read(std.mem.asBytes(&header))) != header_size) {
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std.debug.assert(archive.index_cache.remove(entry_path) != null);
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break: find_header entry_header;
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return error.EntryNotFound;
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}
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// Move over file data following the entry.
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var to_skip = entry_header.file_size;
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break: find_header header;
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} else {
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const mem = std.mem;
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while (to_skip != 0) {
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const skipped = std.math.min(to_skip, std.math.maxInt(i64));
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// Start from beginning of archive.
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try archive.file_access.seek(0);
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try archive.file_access.skip(@intCast(i64, skipped));
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// Read first entry.
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while ((try archive.file_access.read(mem.asBytes(&header))) == header_size) {
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if (mem.eql(u8, entry_path, header.name_buffer[0 .. header.name_length])) {
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// If caching fails... oh well...
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archive.index_cache.insert(entry_path, header.absolute_offset) catch {};
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to_skip -= skipped;
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break: find_header header;
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}
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// Move over file data following the entry.
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var to_skip = header.file_size;
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while (to_skip != 0) {
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const math = std.math;
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const skipped = math.min(to_skip, math.maxInt(i64));
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try archive.file_access.skip(@intCast(i64, skipped));
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to_skip -= skipped;
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}
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}
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}
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@ -109,7 +119,7 @@ pub const Entry = struct {
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name_buffer: [255]u8 = std.mem.zeroes([255]u8),
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name_length: u8 = 0,
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file_size: u64,
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file_offset: u64,
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absolute_offset: u64,
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padding: [232]u8 = std.mem.zeroes([232]u8),
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comptime {
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@ -487,7 +487,7 @@ pub const FileSystem = union(enum) {
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if (archive_entry.cursor >= archive_entry.header.file_size)
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return error.FileInaccessible;
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try file_access.seek(archive_entry.header.file_offset);
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try file_access.seek(archive_entry.header.absolute_offset);
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return file_access.read(buffer[0 .. std.math.min(
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buffer.len, archive_entry.header.file_size)]);
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