turbonss/lib/PackedUser.zig
2022-04-19 13:17:23 +03:00

296 lines
9.1 KiB
Zig

const std = @import("std");
const assert = std.debug.assert;
const mem = std.mem;
const math = std.math;
const Allocator = mem.Allocator;
const ArrayList = std.ArrayList;
const StringHashMap = std.StringHashMap;
const fieldInfo = std.meta.fieldInfo;
const pad = @import("padding.zig");
const validate = @import("validate.zig");
const compress = @import("compress.zig");
const shellImport = @import("shell.zig");
const InvalidRecord = validate.InvalidRecord;
const User = @import("User.zig");
const PackedUser = @This();
pub const alignment_bits = 3;
const Inner = packed struct {
uid: u32,
gid: u32,
shell_len_or_idx: u8,
shell_here: bool,
name_is_a_suffix: bool,
home_len: u6,
name_len: u5,
gecos_len: u11,
fn homeLen(self: *const Inner) usize {
return @as(u32, self.home_len) + 1;
}
fn nameStart(self: *const Inner) usize {
const name_len = self.nameLen();
if (self.name_is_a_suffix) {
return self.homeLen() - name_len;
} else return self.homeLen();
}
fn nameLen(self: *const Inner) usize {
return @as(u32, self.name_len) + 1;
}
fn gecosStart(self: *const Inner) usize {
if (self.name_is_a_suffix) {
return self.homeLen();
} else return self.homeLen() + self.nameLen();
}
fn gecosLen(self: *const Inner) usize {
return self.gecos_len;
}
fn maybeShellStart(self: *const Inner) usize {
assert(self.shell_here);
return self.gecosStart() + self.gecosLen();
}
fn shellLen(self: *const Inner) usize {
return @as(u32, self.shell_len_or_idx) + 1;
}
// stringLength returns the length of the blob storing string values.
fn stringLength(self: *const Inner) usize {
var result: usize = self.homeLen() + self.gecosLen();
if (!self.name_is_a_suffix)
result += self.nameLen();
if (self.shell_here)
result += self.shellLen();
return result;
}
};
// PackedUser does not allocate; it re-interprets the "bytes" blob
// field. Both of those fields are pointers to "our representation" of
// that field.
inner: *const Inner,
bytes: []const u8,
additional_gids_offset: u64,
pub const Entry = struct {
user: PackedUser,
next: ?[]const u8,
};
// TODO(motiejus) provide a way to return an entry without decoding the
// additional_gids_offset:
// - will not return the 'next' slice.
// - cannot throw an Overflow error.
pub fn fromBytes(bytes: []const u8) Entry {
const inner = mem.bytesAsValue(Inner, bytes[0..@sizeOf(Inner)]);
const start_blob = @sizeOf(Inner);
const end_strings = start_blob + inner.stringLength();
const gids_offset = compress.uvarint(bytes[end_strings..]) catch |err| switch (err) {
error.Overflow => unreachable,
};
const end_blob = end_strings + gids_offset.bytes_read;
const nextStart = pad.roundUp(usize, alignment_bits, end_blob);
var next: ?[]const u8 = null;
if (nextStart < bytes.len)
next = bytes[nextStart..];
return Entry{
.user = PackedUser{
.inner = inner,
.bytes = bytes[start_blob..end_blob],
.additional_gids_offset = gids_offset.value,
},
.next = next,
};
}
pub const Iterator = struct {
section: ?[]const u8,
shell_reader: shellImport.ShellReader,
pub fn next(it: *Iterator) ?PackedUser {
if (it.section) |section| {
const entry = PackedUser.fromBytes(section);
it.section = entry.next;
return entry.user;
}
return null;
}
};
pub fn iterator(section: []const u8, shell_reader: shellImport.ShellReader) Iterator {
return Iterator{ .section = section, .shell_reader = shell_reader };
}
// packTo packs the User record and copies it to the given arraylist.
pub fn packTo(
arr: *ArrayList(u8),
user: User,
additional_gids_offset: u64,
idxFn: StringHashMap(u8),
) error{ InvalidRecord, OutOfMemory }!void {
std.debug.assert(arr.items.len & 7 == 0);
// function arguments are consts. We need to mutate the underlying
// slice, so passing it via pointer instead.
//const home_len = try validate.downCast(u6, user.home.len - 1);
const home_len = try validate.downCast(fieldInfo(Inner, .home_len).field_type, user.home.len - 1);
const name_len = try validate.downCast(fieldInfo(Inner, .name_len).field_type, user.name.len - 1);
const shell_len = try validate.downCast(fieldInfo(Inner, .shell_len_or_idx).field_type, user.shell.len - 1);
const gecos_len = try validate.downCast(fieldInfo(Inner, .gecos_len).field_type, user.gecos.len);
try validate.utf8(user.home);
try validate.utf8(user.name);
try validate.utf8(user.shell);
try validate.utf8(user.gecos);
const inner = Inner{
.uid = user.uid,
.gid = user.gid,
.shell_here = idxFn.get(user.shell) == null,
.shell_len_or_idx = idxFn.get(user.shell) orelse shell_len,
.home_len = home_len,
.name_is_a_suffix = mem.endsWith(u8, user.home, user.name),
.name_len = name_len,
.gecos_len = gecos_len,
};
try arr.*.appendSlice(mem.asBytes(&inner)[0..@sizeOf(Inner)]);
try arr.*.appendSlice(user.home);
if (!inner.name_is_a_suffix)
try arr.*.appendSlice(user.name);
try arr.*.appendSlice(user.gecos);
if (inner.shell_here)
try arr.*.appendSlice(user.shell);
try compress.appendUvarint(arr, additional_gids_offset);
}
pub fn uid(self: PackedUser) u32 {
return self.inner.uid;
}
pub fn gid(self: PackedUser) u32 {
return self.inner.gid;
}
pub fn additionalGidsOffset(self: PackedUser) u64 {
return self.additional_gids_offset;
}
pub fn home(self: PackedUser) []const u8 {
return self.bytes[0..self.inner.homeLen()];
}
pub fn name(self: PackedUser) []const u8 {
const name_pos = self.inner.nameStart();
const name_len = self.inner.nameLen();
return self.bytes[name_pos .. name_pos + name_len];
}
pub fn gecos(self: PackedUser) []const u8 {
const gecos_pos = self.inner.gecosStart();
const gecos_len = self.inner.gecosLen();
return self.bytes[gecos_pos .. gecos_pos + gecos_len];
}
pub fn shell(self: PackedUser, shell_reader: shellImport.ShellReader) []const u8 {
if (self.inner.shell_here) {
const shell_pos = self.inner.maybeShellStart();
const shell_len = self.inner.shellLen();
return self.bytes[shell_pos .. shell_pos + shell_len];
}
return shell_reader.get(self.inner.shell_len_or_idx);
}
pub const max_str_len =
math.maxInt(fieldInfo(Inner, .shell_len_or_idx).field_type) + 1 +
math.maxInt(fieldInfo(Inner, .home_len).field_type) + 1 +
math.maxInt(fieldInfo(Inner, .name_len).field_type) + 1 +
math.maxInt(fieldInfo(Inner, .gecos_len).field_type);
const testing = std.testing;
test "PackedUser internal and external alignment" {
try testing.expectEqual(
@sizeOf(PackedUser.Inner) * 8,
@bitSizeOf(PackedUser.Inner),
);
}
fn testShellIndex(allocator: Allocator) StringHashMap(u8) {
var result = StringHashMap(u8).init(allocator);
result.put("/bin/bash", 0) catch unreachable;
result.put("/bin/zsh", 1) catch unreachable;
return result;
}
const test_shell_reader = shellImport.ShellReader{
.blob = "/bin/bash/bin/zsh",
.index = &[_]u16{ 0, 9, 17 },
};
test "pack max_user" {
var arr = ArrayList(u8).init(testing.allocator);
defer arr.deinit();
var idx_noop = StringHashMap(u8).init(testing.allocator);
defer idx_noop.deinit();
try packTo(&arr, User.max_user, 0, idx_noop);
}
test "construct PackedUser section" {
var buf = ArrayList(u8).init(testing.allocator);
defer buf.deinit();
const users = [_]User{ User{
.uid = 1000,
.gid = 1000,
.name = "vidmantas",
.gecos = "Vidmantas Kaminskas",
.home = "/home/vidmantas",
.shell = "/bin/bash",
}, User{
.uid = 1001,
.gid = 1001,
.name = "svc-foo",
.gecos = "Service Account",
.home = "/home/service1",
.shell = "/usr/bin/nologin",
}, User.max_user, User{
.uid = 1002,
.gid = 1002,
.name = "svc-bar",
.gecos = "",
.home = "/",
.shell = "/bin/zsh",
} };
var shellIndex = testShellIndex(testing.allocator);
const additional_gids = math.maxInt(u64);
defer shellIndex.deinit();
for (users) |user| {
try PackedUser.packTo(&buf, user, additional_gids, shellIndex);
try pad.arrayList(&buf, PackedUser.alignment_bits);
}
var i: u29 = 0;
var it1 = PackedUser.iterator(buf.items, test_shell_reader);
while (it1.next()) |user| : (i += 1) {
try testing.expectEqual(users[i].uid, user.uid());
try testing.expectEqual(users[i].gid, user.gid());
try testing.expectEqual(user.additionalGidsOffset(), additional_gids);
try testing.expectEqualStrings(users[i].name, user.name());
try testing.expectEqualStrings(users[i].gecos, user.gecos());
try testing.expectEqualStrings(users[i].home, user.home());
try testing.expectEqualStrings(users[i].shell, user.shell(test_shell_reader));
}
try testing.expectEqual(users.len, i);
}