pzittlau/loader
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity

Compare commits

base: pzittlau:4382dda192818508540e25424b8da6f729733dcc
Branches Tags
pzittlau:main
..
compare: pzittlau:main
Branches Tags
pzittlau:main

3 Commits
4382dda192 ... main

Author SHA1 Message Date
Pascal Zittlau
5825d12b97 simplify loading interpreter 2025-10-24 16:34:36 +02:00
Pascal Zittlau
8fb72a9928 use faller for logging 2025-10-24 15:01:17 +02:00
Pascal Zittlau
57f74fddf2 refactor tests 2025-10-20 10:46:22 +02:00
3 changed files with 93 additions and 116 deletions
Expand all files Collapse all files

15
build.zig
View File

@@ -42,17 +42,20 @@ pub fn build(b: *std.Build) !void {
const target = b.standardTargetOptions(.{});
const optimize = b.standardOptimizeOption(.{});
try compileTestApplications(b, target, optimize, false, false);
try compileTestApplications(b, target, optimize, false, true);
try compileTestApplications(b, target, optimize, true, true);
const faller = b.dependency("faller", .{
.target = target,
.optimize = optimize,
});
const mod = b.addModule("loader", .{
const mod = b.createModule(.{
.root_source_file = b.path("src/main.zig"),
.optimize = optimize,
.target = target,
.link_libc = false,
.link_libcpp = false,
});
mod.addImport("faller", faller.module("faller"));
const exe = b.addExecutable(.{
.name = "loader",
.root_module = mod,
@@ -68,6 +71,10 @@ pub fn build(b: *std.Build) !void {
run_cmd.addArgs(args);
}
try compileTestApplications(b, target, optimize, false, false);
try compileTestApplications(b, target, optimize, false, true);
try compileTestApplications(b, target, optimize, true, true);
const exe_tests = b.addTest(.{ .root_module = mod });
const run_exe_tests = b.addRunArtifact(exe_tests);
const test_step = b.step("test", "Run tests");

6
build.zig.zon
View File

@@ -1,6 +1,12 @@
.{
.name = .loader,
.version = "0.0.1",
.dependencies = .{
.faller = .{
.url = "git+https://git.pascalzittlau.de/pzittlau/faller.git#2dea92dcd9184c3a37f07761009944bc8fd4d352",
.hash = "faller-0.1.0-nNGNDT07AADmPJe_o0ERuMpZJGgXbdb_5B7VAMs2SmEt",
},
},
.minimum_zig_version = "0.15.1",
.paths = .{""},
.fingerprint = 0xbf53f276a39b2af9,

188
src/main.zig
View File

@@ -1,3 +1,4 @@
const faller = @import("faller");
const std = @import("std");
const elf = std.elf;
@@ -5,10 +6,11 @@ const mem = std.mem;
const posix = std.posix;
const testing = std.testing;
const assert = std.debug.assert;
pub const faller_options: faller.Options = .{ .tags_disabled = &.{.debug} };
const Logger = faller.Logger(&.{.loader});
const log = std.log.scoped(.loader);
pub const std_options = std.Options{ .log_level = .info };
const assert = std.debug.assert;
const log = Logger.log;
const page_size = std.heap.pageSize();
const max_interp_path_length = 128;
@@ -41,51 +43,41 @@ pub fn main() !void {
// Map file into memory
const file = try lookupFile(mem.sliceTo(std.os.argv[arg_index], 0));
var buffer: [128]u8 = undefined;
var file_reader = file.reader(&buffer);
log.info("--- Loading executable: {s} ---", .{std.os.argv[arg_index]});
var file_buffer: [128]u8 = undefined;
var file_reader = file.reader(&file_buffer);
log(.info, "--- Loading executable: {s} ---", .{std.os.argv[arg_index]});
const ehdr = try elf.Header.read(&file_reader.interface);
const base = try loadStaticElf(ehdr, &file_reader);
const entry = ehdr.entry + if (ehdr.type == .DYN) base else 0;
log.info("Executable loaded: base=0x{x}, entry=0x{x}", .{ base, entry });
log(.info, "Executable loaded: base=0x{x}, entry=0x{x}", .{ base, entry });
// Check for dynamic linker
const maybe_interp: ?std.fs.File = interp: {
var phdrs = ehdr.iterateProgramHeaders(&file_reader);
while (try phdrs.next()) |phdr| {
if (phdr.p_type != elf.PT_INTERP) continue;
var interp_path: [max_interp_path_length]u8 = undefined;
try file_reader.seekTo(phdr.p_offset);
if (try file_reader.read(interp_path[0..phdr.p_filesz]) != phdr.p_filesz)
return UnfinishedReadError.UnfinishedRead;
assert(interp_path[phdr.p_filesz - 1] == 0); // Must be zero terminated
log.info("Found interpreter path: {s}", .{interp_path[0 .. phdr.p_filesz - 1]});
break :interp try std.fs.cwd().openFile(
interp_path[0 .. phdr.p_filesz - 1],
.{ .mode = .read_only },
);
}
break :interp null;
};
// We don't need the file anymore. But we reuse the buffer if we need to load the interpreter.
// Therefore deinit everything to make sure we don't use it anymore.
file_reader = undefined;
file.close();
var maybe_interp_base: ?usize = null;
var maybe_interp_entry: ?usize = null;
if (maybe_interp) |interp| {
// TODO: If we have an interpreter we could/should unload the elf file because it will be
// loaded by the dynamic linker anyway.
log.info("--- Loading interpreter ---", .{});
var interp_reader = interp.reader(&buffer);
var phdrs = ehdr.iterateProgramHeaders(&file_reader);
while (try phdrs.next()) |phdr| {
if (phdr.p_type != elf.PT_INTERP) continue;
var interp_path: [max_interp_path_length]u8 = undefined;
try file_reader.seekTo(phdr.p_offset);
if (try file_reader.read(interp_path[0..phdr.p_filesz]) != phdr.p_filesz)
return UnfinishedReadError.UnfinishedRead;
assert(interp_path[phdr.p_filesz - 1] == 0); // Must be zero terminated
log(.info, "Found interpreter path: {s}", .{interp_path[0 .. phdr.p_filesz - 1]});
const interp = try std.fs.cwd().openFile(
interp_path[0 .. phdr.p_filesz - 1],
.{ .mode = .read_only },
);
log(.info, "--- Loading interpreter ---", .{});
var interp_buffer: [128]u8 = undefined;
var interp_reader = interp.reader(&interp_buffer);
const interp_ehdr = try elf.Header.read(&interp_reader.interface);
assert(interp_ehdr.type == elf.ET.DYN);
const interp_base = try loadStaticElf(interp_ehdr, &interp_reader);
maybe_interp_base = interp_base;
maybe_interp_entry = interp_ehdr.entry + if (interp_ehdr.type == .DYN) interp_base else 0;
log.info("Interpreter loaded: base=0x{x}, entry=0x{x}", .{ interp_base, maybe_interp_entry.? });
log(.info, "Interpreter loaded: base=0x{x}, entry=0x{x}", .{ interp_base, maybe_interp_entry.? });
interp.close();
}
@@ -113,7 +105,8 @@ pub fn main() !void {
const dest_ptr = @as([*]u8, @ptrCast(std.os.argv.ptr));
const src_ptr = @as([*]u8, @ptrCast(&std.os.argv[arg_index]));
const len = @intFromPtr(end_of_auxv) - @intFromPtr(src_ptr);
log.debug(
log(
.debug,
"Copying stack from {*} to {*} with length 0x{x}",
.{ src_ptr, dest_ptr, len },
);
@@ -124,10 +117,10 @@ pub fn main() !void {
// start of the stack.
const argc: [*]usize = @as([*]usize, @ptrCast(@alignCast(&std.os.argv.ptr[0]))) - 1;
argc[0] = std.os.argv.len - arg_index;
log.debug("new argc: {x}", .{argc[0]});
log(.debug, "new argc: {x}", .{argc[0]});
const final_entry = maybe_interp_entry orelse entry;
log.info("Trampolining to final entry: 0x{x} with sp: {*}", .{ final_entry, argc });
log(.info, "Trampolining to final entry: 0x{x} with sp: {*}", .{ final_entry, argc });
trampoline(final_entry, argc);
}
@@ -153,15 +146,15 @@ fn loadStaticElf(ehdr: elf.Header, file_reader: *std.fs.File.Reader) !usize {
}
minva = mem.alignBackward(usize, minva, page_size);
maxva = mem.alignForward(usize, maxva, page_size);
log.debug("Calculated bounds: minva=0x{x}, maxva=0x{x}", .{ minva, maxva });
log(.debug, "Calculated bounds: minva=0x{x}, maxva=0x{x}", .{ minva, maxva });
break :bounds .{ minva, maxva };
};
// Check, that the needed memory region can be allocated as a whole. We do this
const dynamic = ehdr.type == elf.ET.DYN;
log.debug("ELF type is {s}", .{if (dynamic) "DYN" else "EXEC (static)"});
log(.debug, "ELF type is {s}", .{if (dynamic) "DYN" else "EXEC (static)"});
const hint = if (dynamic) null else @as(?[*]align(page_size) u8, @ptrFromInt(minva));
log.debug("mmap pre-flight hint: {*}", .{hint});
log(.debug, "mmap pre-flight hint: {*}", .{hint});
const base = try posix.mmap(
hint,
maxva - minva,
@@ -170,7 +163,7 @@ fn loadStaticElf(ehdr: elf.Header, file_reader: *std.fs.File.Reader) !usize {
-1,
0,
);
log.debug("Pre-flight reservation successful at: {*}, size: 0x{x}", .{ base.ptr, base.len });
log(.debug, "Pre-flight reservation successful at: {*}, size: 0x{x}", .{ base.ptr, base.len });
posix.munmap(base);
const flags = posix.MAP{ .TYPE = .PRIVATE, .ANONYMOUS = true, .FIXED = true };
@@ -186,7 +179,8 @@ fn loadStaticElf(ehdr: elf.Header, file_reader: *std.fs.File.Reader) !usize {
var start = mem.alignBackward(usize, phdr.p_vaddr, page_size);
const base_for_dyn = if (dynamic) @intFromPtr(base.ptr) else 0;
start += base_for_dyn;
log.debug(
log(
.debug,
" - phdr[{}]: mapping 0x{x} bytes at 0x{x} (vaddr=0x{x}, dyn_base=0x{x})",
.{ phdr_idx, size, start, phdr.p_vaddr, base_for_dyn },
);
@@ -206,7 +200,7 @@ fn loadStaticElf(ehdr: elf.Header, file_reader: *std.fs.File.Reader) !usize {
return UnfinishedReadError.UnfinishedRead;
try posix.mprotect(ptr, elfToMmapProt(phdr.p_flags));
}
log.debug("loadElf returning base: 0x{x}", .{@intFromPtr(base.ptr)});
log(.debug, "loadElf returning base: 0x{x}", .{@intFromPtr(base.ptr)});
return @intFromPtr(base.ptr);
}
@@ -260,98 +254,68 @@ fn trampoline(entry: usize, sp: [*]usize) noreturn {
// TODO: make this be passed in from the build system
const bin_path = "zig-out/bin/";
fn getExePath(comptime name: []const u8) []const u8 {
return bin_path ++ name;
fn getTestExePath(comptime name: []const u8) []const u8 {
return bin_path ++ "test_" ++ name;
}
const loader_path = getExePath("loader");
const loader_path = bin_path ++ "loader";
test "test_nolibc_nopie_exit" {
try testExit("test_nolibc_nopie_exit");
test "nolibc_nopie_exit" {
try testHelper(&.{ loader_path, getTestExePath("nolibc_nopie_exit") }, "");
}
test "test_nolibc_pie_exit" {
try testExit("test_nolibc_pie_exit");
test "nolibc_pie_exit" {
try testHelper(&.{ loader_path, getTestExePath("nolibc_pie_exit") }, "");
}
test "test_libc_pie_exit" {
try testExit("test_libc_pie_exit");
test "libc_pie_exit" {
try testHelper(&.{ loader_path, getTestExePath("libc_pie_exit") }, "");
}
test "test_nolibc_nopie_helloWorld" {
try testHelloWorld("test_nolibc_nopie_helloWorld");
test "nolibc_nopie_helloWorld" {
try testHelper(&.{ loader_path, getTestExePath("nolibc_nopie_helloWorld") }, "Hello World!\n");
}
test "test_nolibc_pie_helloWorld" {
try testHelloWorld("test_nolibc_pie_helloWorld");
test "nolibc_pie_helloWorld" {
try testHelper(&.{ loader_path, getTestExePath("nolibc_pie_helloWorld") }, "Hello World!\n");
}
test "test_libc_pie_helloWorld" {
try testHelloWorld("test_libc_pie_helloWorld");
test "libc_pie_helloWorld" {
try testHelper(&.{ loader_path, getTestExePath("libc_pie_helloWorld") }, "Hello World!\n");
}
test "test_nolibc_nopie_printArgs" {
try testPrintArgs("test_nolibc_nopie_printArgs");
test "nolibc_nopie_printArgs" {
try testPrintArgs("nolibc_nopie_printArgs");
}
test "test_nolibc_pie_printArgs" {
try testPrintArgs("test_nolibc_pie_printArgs");
test "nolibc_pie_printArgs" {
try testPrintArgs("nolibc_pie_printArgs");
}
test "test_libc_pie_printArgs" {
try testPrintArgs("test_libc_pie_printArgs");
test "libc_pie_printArgs" {
try testPrintArgs("libc_pie_printArgs");
}
fn testExit(comptime name: []const u8) !void {
const exe_path = comptime getExePath(name);
const argv = &.{ loader_path, exe_path };
log.info("Running test: {s}", .{name});
const result = try std.process.Child.run(.{
.allocator = testing.allocator,
.argv = argv,
});
defer testing.allocator.free(result.stdout);
defer testing.allocator.free(result.stderr);
errdefer std.log.err("term: {}", .{result.term});
errdefer std.log.err("stdout: {s}", .{result.stdout});
try testing.expectEqualStrings("", result.stdout);
try testing.expect(result.term == .Exited);
try testing.expectEqual(0, result.term.Exited);
}
fn testHelloWorld(comptime name: []const u8) !void {
const exe_path = comptime getExePath(name);
const argv = &.{ loader_path, exe_path };
log.info("Running test: {s}", .{name});
const result = try std.process.Child.run(.{
.allocator = testing.allocator,
.argv = argv,
});
defer testing.allocator.free(result.stdout);
defer testing.allocator.free(result.stderr);
errdefer std.log.err("term: {}", .{result.term});
errdefer std.log.err("stdout: {s}", .{result.stdout});
try testing.expectEqualStrings("Hello World!\n", result.stdout);
try testing.expect(result.term == .Exited);
try testing.expectEqual(0, result.term.Exited);
test "echo" {
try testHelper(&.{ "echo", "Hello", "There" }, "Hello There\n");
}
fn testPrintArgs(comptime name: []const u8) !void {
const exe_path = comptime getExePath(name);
const loader_argv: []const []const u8 = &.{ loader_path, exe_path, "foo", "bar", "baz", "hi" };
const exe_path = getTestExePath(name);
const loader_argv: []const []const u8 = &.{ loader_path, exe_path, "foo", "bar", "baz hi" };
const target_argv = loader_argv[1..];
log.info("Running test: {s}", .{name});
const expected_stout = try mem.join(testing.allocator, " ", target_argv);
defer testing.allocator.free(expected_stout);
try testHelper(loader_argv, expected_stout);
}
fn testHelper(
argv: []const []const u8,
expected_stdout: []const u8,
) !void {
const result = try std.process.Child.run(.{
.allocator = testing.allocator,
.argv = loader_argv,
.argv = argv,
});
defer testing.allocator.free(result.stdout);
defer testing.allocator.free(result.stderr);
errdefer std.log.err("term: {}", .{result.term});
errdefer std.log.err("stdout: {s}", .{result.stdout});
errdefer log(.err, "term: {}", .{result.term});
errdefer log(.err, "stdout: {s}", .{result.stdout});
const expected_stout = try mem.join(testing.allocator, " ", target_argv);
defer testing.allocator.free(expected_stout);
try testing.expectEqualStrings(expected_stout, result.stdout);
try testing.expectEqualStrings(expected_stdout, result.stdout);
try testing.expect(result.term == .Exited);
try testing.expectEqual(0, result.term.Exited);
}