https://github.com/google/tink
Tip revision: 9b23d09421c3fe4df1cfabfe6fe1376df98786f8 authored by thaidn on 12 March 2020, 02:16:59 UTC
Rename 1.3.0-rc4 to 1.3.0.
Rename 1.3.0-rc4 to 1.3.0.
Tip revision: 9b23d09
OBJC-HOWTO.md
# Tink for Obj-C HOW-TO
This document contains instructions and Obj-C code snippets for common tasks in
[Tink](https://github.com/google/tink).
## Setup intructions
Tink is released as a [Cocoapod](https://cocoapods.org/). It can be installed by
using the pod command as described below, which is the recommended way to use
Tink.
We also provide step-by-step instructions on building and using Tink from
source.
#### Supported platforms
* iOS 9.0 or newer
* Xcode 9.2 or newer
### Installing via Cocoapods
1. Change into the directory that contains your Xcode project.
```sh
cd /path/to/your/Xcode project/
```
2. Initialize Cocoapods.
```sh
pod init
```
This command creates a file called Podfile.
3. Edit the Podfile.
For the current stable release, add the following line:
```
pod 'Tink'
```
For a particular version, use a line like the following instead:
```
pod 'Tink', '1.2.0-rc2'
```
Note: Replace 1.2.0-rc2 with the pre-release version you want to install.
4. Install the pod.
```sh
$ pod install
```
5. Open the newly generated .xcworkspace and start using Tink.
You can import the umbrella header:
```objc
#import "Tink/Tink.h"
```
Or individual headers:
```objc
#import "Tink/TINKAeadConfig.h"
#import "Tink/TINKAeadKeyTemplate.h"
#import "Tink/TINKAead.h"
```
### Installing from source
#### Prerequisites
To install Tink from the source code, the following prerequisites must be
installed:
* [git](https://git-scm.com/) - to download the source of Tink
* [Bazel](https://www.bazel.build) v0.15.0 or newer - to build Tink
#### Step-by-step instructions
1. Clone Tink from GitHub.
```sh
git clone https://github.com/google/tink/
```
2. Build the library and generate a static iOS framework.
```sh
cd tink
export XCODE_VERSION=9.2
export IOS_SDK=11.2
bazel build -c opt --ios_multi_cpus=i386,x86_64,armv7,arm64 --xcode_version="${XCODE_VERSION}" --ios_sdk_version="${IOS_SDK}" //objc:Tink_framework
```
Adjust the following options according to your build environment:
* Set `XCODE_VERSION` to the Xcode version you are using to build your
application.
* Set `IOS_SDK` to the version of the iOS SDK you are using in your
application.
* The option `ios_multi_cpus` is used to generate a fat library that
includes multiple architectures. Before submitting your application to
the App Store you should generate a framework that includes only the ARM
architectures and link it to your binary.
3. Unzip Tink\_framework.zip into your Xcode project folder.
```sh
unzip bazel-bin/objc/Tink_framework.zip -d /path/to/your/project/folder/
```
4. Add the static framework to your Xcode project options:
* Open your Xcode project
* Navigate to your project's folder and drag Tink.framework into your
Xcode's left pane.
* In the following dialog select `Copy items if needed` and the target of
your application that will use Tink. Click `Finish`.
* Select your project on the left pane and click on "Build Settings"
* Find `Other Linker Flags` and add `-lc++`
5. Start using Tink in your code.
You can import the umbrella header:
```objc
#import "Tink/Tink.h"
```
Or individual headers:
```objc
#import "Tink/TINKAeadConfig.h"
#import "Tink/TINKAeadKeyTemplate.h"
#import "Tink/TINKAead.h"
```
## Initializing Tink
Tink provides customizable initialization, which allows for choosing specific
implementations (identified by _key types_) of desired primitives. This
initialization happens via _registration_ of the implementations.
For example, if you want to use all implementations of all primitives in the
current version of Tink, the initialization would look as follows:
```objc
#import "Tink/TINKAllConfig.h"
#import "Tink/TINKConfig.h"
NSError *error = nil;
TINKAllConfig *config = [[TINKAllConfig alloc] initWithError:&error];
if (!config || error) {
// handle error.
}
if (![TINKConfig registerConfig:config error:&error]) {
// handle error.
}
```
To use only implementations of the AEAD primitive:
```objc
#import "Tink/TINKAeadConfig.h"
#import "Tink/TINKConfig.h"
NSError *error = nil;
TINKAeadConfig *aeadConfig = [[TINKAeadConfig alloc] initWithError:&error];
if (!aeadConfig || error) {
// handle error.
}
if (![TINKConfig registerConfig:aeadConfig error:&error]) {
// handle error.
}
```
## Generating new keys and keysets
To avoid accidental leakage of sensitive key material, you should avoid mixing
keyset generation and usage in code. To support the separation between these
activities the Tink package provides a command-line tool called
[Tinkey](TINKEY.md), which can be used for common key management tasks.
Still, if there is a need to generate a KeysetHandle with fresh key material
directly in Obj-C code, one can use
[`TINKKeysetHandle`](https://github.com/google/tink/blob/master/objc/TINKKeysetHandle.h)
with one of the available KeyTemplates (AeadKeyTemplate, HybridKeyTemplate, etc.):
```objc
#import "Tink/TINKAeadKeyTemplate.h"
#import "Tink/TINKKeysetHandle.h"
NSError *error = nil;
TINKAeadKeyTemplate *tpl = [[TINKAeadKeyTemplate alloc] initWithKeyTemplate:TINKAes128Gcm error:&error];
if (!tpl || error) {
// handle error.
}
TINKKeysetHandle *handle = [[TINKKeysetHandle alloc] initWithKeyTemplate:tpl error:&error];
if (!handle || error) {
// handle error.
}
```
## Storing keysets
After generating key material, you might want to persist it to a storage system.
Tink supports storing keysets to the iOS keychain where they remain encrypted:
```objc
#import "Tink/TINKKeysetHandle.h"
NSError *error = nil;
TINKKeysetHandle *handle = [[TINKKeysetHandle alloc] initWithKeyTemplate:tpl error:&error];
if (!handle || error) {
// handle error.
}
NSString *keysetName = @"com.yourcompany.yourapp.uniqueKeysetName";
if (![handle writeToKeychainWithName:keysetName overwrite:NO error:&error]) {
// handle error.
}
```
The keysets are stored in the keychain with the following options set:
* kSecAttrAccessible = kSecAttrAccessibleAfterFirstUnlockThisDeviceOnly
* kSecAttrSynchronizable = False
These settings prevent the keysets from leaving the device and keep them
encrypted until the device is unlocked once.
## Loading existing keysets
To load keysets from the iOS keychain:
```objc
#import "Tink/TINKKeysetHandle.h"
NSError *error = nil;
NSString *keysetName = @"com.yourcompany.yourapp.uniqueKeysetName";
TINKKeysetHandle *handle = [[TINKKeysetHandle alloc] initFromKeychainWithName:keysetName error:&error];
if (!handle || error) {
// handle error.
}
```
To load cleartext keysets, use
[`TINKKeysetHandle+Cleartext`](https://github.com/google/tink/blob/master/objc/TINKKeysetHandle+Cleartext.h)
and an appropriate
[`KeysetReader`](https://github.com/google/tink/blob/master/objc/TINKKeysetReader.h),
depending on the wire format of the stored keyset, for example a
[`TINKBinaryKeysetReader`](https://github.com/google/tink/blob/master/objc/TINKBinaryKeysetReader.h).
Note: We don't recommend storing keysets in cleartext in the filesystem.
Instead, use the iOS keychain as demonstrated above.
```objc
#import "Tink/TINKBinaryKeysetReader.h"
#import "Tink/TINKKeysetHandle+Cleartext.h"
NSError *error = nil;
NSData *binaryKeyset = ...;
TINKBinaryKeysetReader *reader = [[TINKBinaryKeysetReader alloc] initWithSerializedKeyset:binaryKeyset
error:&error];
if (!reader || error) {
// handle error.
}
TINKKeysetHandle *handle = [[TINKKeysetHandle alloc] initCleartextKeysetHandleWithKeysetReader:reader
error:&error];
if (!handle || error) {
// handle error.
}
```
## Obtaining and using primitives
[_Primitives_](PRIMITIVES.md) represent cryptographic operations offered by
Tink, hence they form the core of Tink API. A primitive is just an interface
that specifies what operations are offered by the primitive. A primitive can
have multiple implementations, and you choose a desired implementation by using
a key of corresponding type (see the [this
section](KEY-MANAGEMENT.md#key-keyset-and-keysethandle) for details). A list of
primitives and their implemenations currently supported by Tink in Objective-C
can be found [here](PRIMITIVES.md#objective-c).
You access implementations of a primitive via a factory that corresponds to the
primitive which offers corresponding `primitiveWithKeysetHandle:error:` methods.
* AEAD via `TINKAeadFactory`
* MAC via `TINKMacFactory`
* etc.
### Symmetric key encryption
You can use an [AEAD (Authenticated Encryption with Associated
Data)](PRIMITIVES.md#authenticated-encryption-with-associated-data) primitive to
encrypt or decrypt data:
```objc
#import "Tink/TINKAead.h"
#import "Tink/TINKKeysetHandle.h"
#import "Tink/TINKAeadFactory.h"
// 1. Get a handle to the key material.
TINKKeysetHandle *keysetHandle = ...;
// 2. Get the primitive.
NSError *error = nil;
id<TINKAead> aead = [TINKAeadFactory primitiveWithKeysetHandle:keysetHandle error:&error];
if (!aead || error) {
// handle error.
}
// 3. Use the primitive.
NSData *ciphertext = [aead encrypt:plaintext withAdditionalData:aad error:&error];
if (!ciphertext || error) {
// handle error.
}
```
### Hybrid encryption
To decrypt using [a combination of public key encryption and symmetric key
encryption](PRIMITIVES.md#hybrid-encryption):
```objc
#import "Tink/TINKHybridDecrypt.h"
#import "Tink/TINKKeysetHandle.h"
#import "Tink/TINKHybridDecryptFactory.h"
// 1. Get a handle to the key material.
TINKKeysetHandle *keysetHandle = ...;
// 2. Get the primitive.
NSError *error = nil;
id<TINKHybridDecrypt> hybridDecrypt = [TINKHybridDecryptFactory primitiveWithKeysetHandle:keysetHandle
error:&error];
if (!hybridDecrypt || error) {
// handle error.
}
// 3. Use the primitive.
NSData *plaintext = [hybridDecrypt decrypt:ciphertext withContextInfo:contextInfo error:&error];
if (!plaintext || error) {
// handle error.
}
```
