d5d1131b75
For packages that we alter, we parse and modify the importcfg file. Parsing is necessary so we can locate obfuscated object files, which we use to remember what identifiers were obfuscated. Modifying the files is necessary when we obfuscate import paths, and those import paths have entries in an importcfg file. However, we made one crucial mistake when writing the code. When handling importmap entries such as: importmap golang.org/x/net/idna=vendor/golang.org/x/net/idna we would name the two sides beforePath and afterPath, respectively. They were added to importMap with afterPath as the key, but when we iterated over the map to write a modified importcfg file, we would then assume the key is beforepath. All in all, we would end up writing the opposite direction: importmap vendor/golang.org/x/net/idna=golang.org/x/net/idna This would ultimately result in the importmap never being useful, and some rather confusing error messages such as: cannot find package golang.org/x/net/idna (using -importcfg) Add a test case that reproduces this error, and fix the code so it always uses beforePath as the key. Note that we were also updating importCfgEntries with such entries. I could not reproduce any failure when just removing that code, nor could I explain why it was added there in the first place. As such, remove that bit of code as well. Finally, a reasonable question might be why we never noticed the bug. In practice, such "importmap"s, represented as ImportMap by "go list", only currently appear for packages vendored into the standard library. Until very recently, we didn't support obfuscating most of std, so we would usually not alter the affected importcfg files. Now that we do parse and modify them, the bug surfaced. Fixes #408. |
4 years ago | |
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| .github | 4 years ago | |
| internal | 4 years ago | |
| scripts | 4 years ago | |
| testdata | 4 years ago | |
| .gitattributes | 6 years ago | |
| .gitignore | 5 years ago | |
| AUTHORS | 5 years ago | |
| CHANGELOG.md | 4 years ago | |
| CONTRIBUTING.md | 4 years ago | |
| LICENSE | 5 years ago | |
| README.md | 4 years ago | |
| bench_test.go | 4 years ago | |
| go.mod | 4 years ago | |
| go.sum | 4 years ago | |
| hash.go | 4 years ago | |
| main.go | 4 years ago | |
| main_test.go | 4 years ago | |
| position.go | 4 years ago | |
| reverse.go | 4 years ago | |
| runtime_strip.go | 4 years ago | |
| shared.go | 4 years ago | |
README.md
garble
go install mvdan.cc/garble@latest
Obfuscate Go code by wrapping the Go toolchain. Requires Go 1.17 or later.
garble build [build flags] [packages]
The tool also supports garble test to run tests with obfuscated code,
and garble reverse to de-obfuscate text such as stack traces.
See garble -h for up to date usage information.
Purpose
Produce a binary that works as well as a regular build, but that has as little information about the original source code as possible.
The tool is designed to be:
- Coupled with
cmd/go, to support modules and build caching - Deterministic and reproducible, given the same initial source code
- Reversible given the original source, to de-obfuscate panic stack traces
Mechanism
The tool wraps calls to the Go compiler and linker to transform the Go build, in order to:
- Replace as many useful identifiers as possible with short base64 hashes
- Replace package paths with short base64 hashes
- Remove all build and module information
- Strip filenames and shuffle position information
- Strip debugging information and symbol tables via
-ldflags="-w -s" - Obfuscate literals, if the
-literalsflag is given - Remove extra information, if the
-tinyflag is given
By default, the tool obfuscates the packages under the current module. If not
running in module mode, then only the main package is obfuscated. To specify
what packages to obfuscate, set GOPRIVATE, documented at go help private.
Note that commands like garble build will use the go version found in your
$PATH. To use different versions of Go, you can
install them
and set up $PATH with them. For example, for Go 1.17.1:
$ go install golang.org/dl/go1.17.1@latest
$ go1.17.1 download
$ PATH=$(go1.17.1 env GOROOT)/bin:${PATH} garble build
Literal obfuscation
Using the -literals flag causes literal expressions such as strings to be
replaced with more complex variants, resolving to the same value at run-time.
This feature is opt-in, as it can cause slow-downs depending on the input code.
Literal expressions used as constants cannot be obfuscated, since they are
resolved at compile time. This includes any expressions part of a const
declaration.
Tiny mode
When the -tiny flag is passed, extra information is stripped from the resulting
Go binary. This includes line numbers, filenames, and code in the runtime that
prints panics, fatal errors, and trace/debug info. All in all this can make binaries
2-5% smaller in our testing, as well as prevent extracting some more information.
With this flag, no panics or fatal runtime errors will ever be printed, but they
can still be handled internally with recover as normal. In addition, the
GODEBUG environmental variable will be ignored.
Note that this flag can make debugging crashes harder, as a panic will simply
exit the entire program without printing a stack trace, and all source code
positions are set to line 1. Similarly, garble reverse is generally not useful
in this mode.
Speed
garble build should take about twice as long as go build, as it needs to
complete two builds. The original build, to be able to load and type-check the
input code, and then the obfuscated build.
Garble obfuscates one package at a time, mirroring how Go compiles one package
at a time. This allows Garble to fully support Go's build cache; incremental
garble build calls should only re-build and re-obfuscate modified code.
Determinism and seeds
Just like Go, garble builds are deterministic and reproducible if the inputs
remain the same: the version of Go, the version of Garble, and the input code.
This has significant benefits, such as caching builds or being able to use
garble reverse to de-obfuscate stack traces.
However, it also means that an input package will be obfuscated in exactly the
same way if none of those inputs change. If you want two builds of your program
to be entirely different, you can use -seed to provide a new seed for the
entire build, which will cause a full rebuild.
If any open source packages are being obfuscated, providing a custom seed can also provide extra protection. It could be possible to guess the versions of Go and garble given how a public package was obfuscated without a seed.
Caveats
Most of these can improve with time and effort. The purpose of this section is to document the current shortcomings of this tool.
-
Exported methods are never obfuscated at the moment, since they could be required by interfaces. This area is a work in progress; see #3.
-
Garble aims to automatically detect which Go types are used with reflection, as obfuscating those types might break your program. Note that Garble obfuscates one package at a time, so if your reflection code inspects a type from an imported package, and your program broke, you may need to add a "hint" in the imported package:
type Message struct { Command string Args string } // Never obfuscate the Message type. var _ = reflect.TypeOf(Message{}) -
Go declarations exported for cgo via
//exportare not obfuscated. -
Go plugins are not currently supported; see #87.
Contributing
We welcome new contributors. If you would like to contribute, see CONTRIBUTING.md as a starting point.