This tutorial was created to assist you in setting up Raiko and its SGX dependencies using a Docker container. Configuring SGX can be complex without a detailed guide to walk you through each step. This tutorial strives to provide a comprehensive walkthrough, leaving no detail unaddressed.
NOTE: Currently, raiko v1.3.0 sometimes encounters OOM errors (Out of Memory). We recommend that you do NOT use 1.3.0 in production as this can lead to losses. Please instead use 1.3.0-edmm ONLY if you have a SGX-2 enabled machine (i.e. pull the image with
docker pull us-docker.pkg.dev/evmchain/images/raiko:1.3.0-edmm
and proceed as normal). If you have bootstrapped and started using the 1.3.0 image, you will have to redo the process with the 1.3.0-edmm image if you wish to continue proving without error. We are working on a hotfixed version at the moment, thank you for your patience.
We recommended 4 cores and 8GB memory for running Raiko. 8 cores and 16GB memory is ideal; the bare minimum is 2 cores and 4GB memory (tentative).
We also recommend an EPC (Enclave memory) size of 4GB for mainnet, to prevent OOM errors. You can check your machine's EPC size by running ./script/check-epc-size.sh
.
Intel SGX is a technology that involves a considerable amount of configuration. Given its high level of configurability, the setup of your infrastructure may vary significantly depending on the attestation type (EPID, ECDSA) and other parameters. While we've strived to minimize the manual effort required to prepare the development environment, there are certain prerequisites that are challenging, if not impossible, to automate using Dockerfiles. This section outlines these prerequisites.
Ensure that your machine has an Intel SGX-enabled CPU to run Raiko. You can verify if your CPU supports SGX (Software Guard Extensions) on Linux by using the cpuid
tool.
-
If
cpuid
isn't already installed, you can install it. On Ubuntu, use the following command:sudo apt-get install cpuid
-
Run
cpuid
andgrep
forsgx
:cpuid | grep -i sgx
If your CPU supports SGX, the output should resemble the following:
SGX: Software Guard Extensions supported = true
If this line doesn't appear, your CPU either doesn't support SGX, or it isn't enabled in the BIOS.
As an alternative, you can execute grep sgx /proc/cpuinfo
. If the command doesn't return any output, your CPU doesn't support SGX.
Starting with Linux kernel version 5.11
, the kernel provides built-in support for SGX. However, it doesn't support one of its latest features, EDMM (Enclave Dynamic Memory Management), which Raiko requires. EDMM support was first introduced in Linux 6.0
, so ensure that your Linux kernel version is 6.0
or above.
To check the version of your kernel, run:
uname -a
If you're using Ubuntu and want to see the available Linux kernel versions, run the following command:
apt search linux-image
Once you have determined the version of the kernel that you want to downgrade or upgrade, run the following command to install:
sudo apt-get install linux-image-{version}-generic
Then reboot the system
To use ECDSA Attestation, you need to subscribe to the Intel PCS service, following the steps in Intel's how-to guide. After subscribing to the service, you will get two keys: a primary API key and a secondary API key.
NOTE: You do NOT need to follow the entirety of the linked guide, just the
Subscribe to the Intel PCS
section.
At the moment Raiko only supports certain fmspc
, so to prevent wasted time check if your machine is on our supported fmspc list.
To retrieve this information, you will need to use the PCKIDRetrievalTool
and query the Intel API.
- Install the
PCKIDRetrievalTool
You can install either from the Ubuntu repository:
echo "deb [arch=amd64] https://download.01.org/intel-sgx/sgx_repo/ubuntu focal main" | sudo tee /etc/apt/sources.list.d/intel-sgx.list > /dev/null
wget -O - https://download.01.org/intel-sgx/sgx_repo/ubuntu/intel-sgx-deb.key | sudo apt-key add -
sudo apt update
sudo apt install sgx-pck-id-retrieval-tool
Or, you can build and install it yourself.
- Retrieve your machine's FMSPC by running the following command:
echo "Please enter Intel's PCS Service API key" && read -r API_KEY && PCKIDRetrievalTool -f /tmp/pckid.csv && pckid=$(cat /tmp/pckid.csv) && ppid=$(echo "$pckid" | awk -F "," '{print $1}') && cpusvn=$(echo "$pckid" | awk -F "," '{print $3}') && pcesvn=$(echo "$pckid" | awk -F "," '{print $4}') && pceid=$(echo "$pckid" | awk -F "," '{print $2}') && curl -v "https://api.trustedservices.intel.com/sgx/certification/v4/pckcert?encrypted_ppid=${ppid}&cpusvn=${cpusvn}&pcesvn=${pcesvn}&pceid=${pceid}" -H "Ocp-Apim-Subscription-Key:${API_KEY}" 2>&1 | grep -i "SGX-FMSPC"
Or you can retrieve FMSPC step by step
After you have installed PCKIDRetrievalTool, You should be ready to retrieve fetch Intel's certificates!
- Run the following command:
PCKIDRetrievalTool
If successful, it should generate a pckid_retrieval.csv
. This is a csv string which consists of:
1. EncryptedPPID(384 BE byte array)
2. PCE_ID(LE 16 bit integer)
3. CPUSVN(16 byte BE byte array)
4. PCE ISVSVN (LE 16 bit integer)
5. QE_ID (16 byte BE byte array)
You will need this info to retrieve your FMSPC.
- Query Intel's API to get your machine's FMSPC
curl -v "https://api.trustedservices.intel.com/sgx/certification/v4/pckcert?encrypted_ppid={}&cpusvn={}&pcesvn={}&pceid={}" -H "Ocp-Apim-Subscription-Key:{YOUR_API_KEY}"
Replace the curly braces in the above command with the values acquired from pckid_retrieval.csv
and YOUR_API_KEY
with your API key from subsribing to Intel's PCS Service.
The response should look as follows:
< HTTP/1.1 200 OK
< Content-Length: 1777
< Content-Type: application/x-pem-file
< Request-ID: e3a32aaf6cd046c69674d5bd1f1af251
< SGX-TCBm: 0B0B0303FFFF000000000000000000000D00
< SGX-PCK-Certificate-Issuer-Chain: -----BEGIN%20CERTIFICATE----- ...
-----END%20CERTIFICATE-----%0A
< SGX-PCK-Certificate-CA-Type: platform
< SGX-FMSPC: 00606A000000 <-- The FMSPC we want!
< Date: Wed, 10 Jan 2024 02:57:40 GMT
<
-----BEGIN CERTIFICATE-----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-----END CERTIFICATE-----
Currently Supported FMSPCs (on Mainnet):
- 00606A000000
- 00A067110000
- 00906ED50000
Currently Supported FMSPCs (on Hekla):
- 00606A000000
- 00A067110000
- 00906ED50000
- 30606A000000
- 00706A100000
Please reach out to us in discord channels or create an issue on Github if your machine doesn't have a listed FMSPC, if you've done the bootstrap process and obtained a quote we can try adding them to the On Chain RA process. We can't guarantee all FMSPCs will work, so you might have to switch machines. Please include your FMSPC, CPU and your machine's EPC Size in the Github issue! This helps us decide whether the machine/FMSPC is a suitable candidate to add.
NOTE: At the moment, we are aware of three cloud providers who offer compatible SGX machines: Tencent Cloud, Alibaba Cloud and Azure. (Tencent Cloud is one of our ecosystem partners!) Specifically, Tencent Cloud's
M6ce
model, Alibaba Cloud'sg7t
model supportSGX-FMSPC 00606A000000
and Azure'sconfidential compute
machines supportSGX-FMSPC 00906ED50000
.If you'd like to use Tencent Cloud, they have reserved compatible
M6ce
machines available for Taiko's community with a limited time special offer. Please register here to purchaseM6ce
machines with discount.
You will need to clone our raiko
repository and taiko-mono
repository to run Raiko and perform on-chain attestation to begin proving. An easy way to do this is with git.
You will need docker
CLI installed, please find your respective distribution here and follow the install guide.
Raiko leverages Intel SGX via Gramine. As Gramine only supports a limited number of distributions, including Ubuntu. The Docker image is derived from Gramine's base image, which uses Ubuntu. Install your respective distribution here.
Once you have satisfied all the prerequisites, you can follow this section.
- Prepare your system with some necessary installations
sudo apt-get update && sudo apt-get install -y build-essential wget python-is-python3 debhelper zip libcurl4-openssl-dev pkgconf libboost-dev libboost-system-dev libboost-thread-dev protobuf-c-compiler libprotobuf-c-dev protobuf-compiler
- Generating PCCS Certificates
Before running the Raiko Docker container, you need to fulfill some SGX-specific prerequisites, which include setting up the PCCS (Provisioning Certificate Caching Service) configuration. The PCCS service is responsible for retrieving PCK Certificates and other collaterals on-demand from the internet at runtime, and then caching them in a local database. The PCCS exposes similar HTTPS interfaces as Intel's Provisioning Certificate Service.
Begin the configuration process by generating an SSL certificate:
mkdir ~/.config
mkdir ~/.config/sgx-pccs
cd ~/.config/sgx-pccs
openssl genrsa -out private.pem 2048
chmod 644 private.pem # Docker container needs access
openssl req -new -key private.pem -out csr.pem
openssl x509 -req -days 365 -in csr.pem -signkey private.pem -out file.crt
rm csr.pem
- Curl the config file
curl -s https://raw.githubusercontent.com/taikoxyz/raiko/refs/heads/main/docs/default.json > ~/.config/sgx-pccs/default.json
Make sure you've copied the default.json
into the .config/sgx-pccs directory you created earlier. The raiko
container will mount this as a volume. After copying the file, open it for editing and fill in the below listed parameters as recommended by Intel's manual:
-
ApiKey
: The PCCS uses this API key to request collaterals from Intel's Provisioning Certificate Service. User needs to subscribe first to obtain an API key. Use either the primary or secondary key you obtained from the previous stepSubscribing to Intel PCS Service
. -
UserTokenHash
: SHA512 hash of the user token for the PCCS client user to register a platform. For example, PCK Cert ID retrieval tool will use the user token to send platform information to PCCS. (echo -n "user_password" | sha512sum | tr -d '[:space:]-'
). -
AdminTokenHash
: SHA512 hash of the administrator token for the PCCS administrator to perform a manual refresh of cached artifacts (echo -n "admin_password" | sha512sum | tr -d '[:space:]-'
). -
hosts
: replace it with "0.0.0.0".
Ensure docker can use it by modifying permissions to the file:
chmod 644 default.json
- Make some directories to prevent errors
mkdir ~/.config/raiko
mkdir ~/.config/raiko/config
mkdir ~/.config/raiko/secrets
- Now, clone raiko and check out the
main
branch and navigate to thedocker
folder. From here you can build the docker images that we will be using.
git clone https://github.com/taikoxyz/raiko.git
cd raiko/docker
docker compose build raiko
NOTE: This step will take some time, sometimes ~5 minutes. Do NOT do
docker compose build
alone, this will build the zk image which will take >30mins and will not be used!
If you do not wish to build the image locally, you can optionally pull them from our registry.
docker pull us-docker.pkg.dev/evmchain/images/raiko:1.3.0-edmm
docker pull us-docker.pkg.dev/evmchain/images/pccs:latest
If you do this step, you need to change your raiko docker-compose.yml to use this image. Navigate to raiko/docker
and search for raiko:latest
and change all instances to raiko:1.3.0-edmm
.
You can continue on with the following steps as usual after this.
- Check that the images have been built
docker image ls
You should see at least two images, us-docker.pkg.dev/evmchain/raiko
and us-docker.pkg.dev/evmchain/pccs
.
- If both are present, bootstrap Raiko with the following command:
docker compose up init
If everything is configured correctly, raiko-init should run without errors and generate a bootstrap.json
. Check that it exists with the following command:
cat ~/.config/raiko/config/bootstrap.json
It should look something like this:
{
"public_key": "0x0319c008667385c53cc66202eb961c624481f7317bff679d2f3c7571e06e4d9877",
"new_instance": "0x768691497b3e5de5c5b7a8bd5e0910eba0672992",
"quote": "03000200000000000a....................................000f00939a7"
}
You've now prepared your machine for running Raiko through Docker. Now, you need to perform On-Chain Remote Attestation to receive TTKOh from moderators and begin proving for Taiko!
NOTE: We are no longer automatically distributing TTKOh to people who perform on-chain RA, please reach out to a moderator for TTKOh if you'd like to test SGX proving.
- Clone taiko-mono, checkout the appropriate tag and navigate to the protocol directory.
git clone https://github.com/taikoxyz/taiko-mono.git
git checkout tags/{release-tag}
cd taiko-mono/packages/protocol
curl -fsSL https://get.pnpm.io/install.sh | sh -
curl -L https://foundry.paradigm.xyz | bash
source ~/.bashrc
foundryup
Once you have installed them, run the following:
pnpm install
pnpm compile
- Prepare your prover's private key
export PRIVATE_KEY={PROVER_PRIVATE_KEY}
- Ensure the values in the
script/config_dcap_sgx_verifier.sh
script match whichever network you are registering for. (script/layer1/config_dcap_sgx_verifier.sh
forprotocol-v1.9.0
release.)
Hekla Addresses:
SGX_VERIFIER_ADDRESS
=0x532EFBf6D62720D0B2a2Bb9d11066E8588cAE6D9
ATTESTATION_ADDRESS
=0xC6cD3878Fc56F2b2BaB0769C580fc230A95e1398
PEM_CERTCHAIN_ADDRESS
=0x08d7865e7F534d743Aba5874A9AD04bcB223a92E
Mainnet Addresses:
SGX_VERIFIER_ADDRESS
=0xb0f3186FC1963f774f52ff455DC86aEdD0b31F81
ATTESTATION_ADDRESS
=0x8d7C954960a36a7596d7eA4945dDf891967ca8A3
PEM_CERTCHAIN_ADDRESS
=0x02772b7B3a5Bea0141C993Dbb8D0733C19F46169
These values are already in the script, it defaults to Hekla; please comment those lines out and uncomment the Mainnet ones if performing RA on Mainnet.
- If you've followed the Raiko Docker guide, you will have bootstrapped raiko and obtained a quote:
"public_key": "0x02ab85f14dcdc93832f4bb9b40ad908a5becb840d36f64d21645550ba4a2b28892",
"new_instance": "0xc369eedf4c69cacceda551390576ead2383e6f9e",
"quote": "0x030002......f00939a7233f79c4ca......9434154452d2d2d2d2d0a00"
You can find it with cat ~/.config/raiko/config/bootstrap.json
as shown above.
Copy your quote and use in the following step.
NOTE: If you are on
protocol-v1.9.0
, the script is located atscript/layer1/config_dcap_sgx_verifier.sh
. Use this for the following steps. The script is also bugged in this release (has been fixed on main), you will need to change L150 toforge script script/layer1/SetDcapParams.s.sol:SetDcapParams
.
-
In the
script/config_dcap_sgx_verifier.sh
script, replace--fork-url https://any-holesky-rpc-url/
with the RPC URL of the respective network. Alternatively, export it like so:export FORK_URL="https://any-holesky-rpc-url/"
. -
Call the script with
PRIVATE_KEY=0x{YOUR_PRIVATE_KEY} ./script/config_dcap_sgx_verifier.sh --quote {YOUR_QUOTE_HERE}
. -
If you've been successful, you will get a SGX instance
id
which can be used to run Raiko!
It should look like this:
emit InstanceAdded(id: 1, instance: 0xc369eedf4C69CacceDa551390576EAd2383E6f9E, replaced: 0x0000000000000000000000000000000000000000, validSince: 1708704201 [1.708e9])
Once you've completed the above steps, you can actually run a prover.
Raiko now supports more configurations, which need to be carefully checked to avoid errors.
- SGX_INSTANCE_ID: Your `SGX_INSTANCE_ID` is the one emitted in the `InstanceAdded` event above.
- ETHEREUM_RPC: ethereum node url, from which you query the ethereum data.
- ETHEREUM_BEACON_RPC: ethereum beacon node url, from which you query the ethereum data.
- HOLESKY_RPC: ethereum holesky test node url.
- HOLESKY_BEACON_RPC: ethereum holesky test beacon node url.
- TAIKO_A7_RPC: taiko hekla(a7) testnet node url.
- TAIKO_MAINNET_RPC: taiko mainnet node url.
- L1_NETWORK: specify the l1 network if exist, default is "holesky".
- NETWORK: specify the network to be proven, could be one of ["taiko_a7", "taiko_mainnet", "ethereum", "holesky"], default is "taiko_a7". make sure both L1_NETWORK & NETWORK in chain_spec_list.docker.json
A most common setup for hekla is:
cd ~/raiko/docker
export SGX_INSTANCE_ID={YOUR_INSTANCE_ID}
export L1_NETWORK="holesky"
export NETWORK="taiko_a7"
export HOLESKY_RPC={YOUR_FAST_HOLESKY_NODE}
export HOLESKY_BEACON_RPC={YOUR_FAST_HOLESKY_BEACON_NODE}
export TAIKO_A7_RPC={YOUR_FAST_A7_NODE}
docker compose up raiko -d
If everything is working, you should see something like the following when executing docker compose logs raiko
:
Start config:
Object {
"address": String("0.0.0.0:8080"),
"cache_path": Null,
"concurrency_limit": Number(16),
"config_path": String("/etc/raiko/config.sgx.json"),
"log_level": String("info"),
"log_path": Null,
"max_log": Number(7),
"network": String("taiko_a7"),
"sgx": Object {
"instance_id": Number(19), <--- sgx instance id
},
}
Args:
Opt {
address: "0.0.0.0:8080",
concurrency_limit: 16,
log_path: None,
max_log: 7,
config_path: "/etc/raiko/config.sgx.json",
cache_path: None,
log_level: "info",
}
2024-04-18T12:50:09.400319Z INFO raiko_host::server: Listening on http://0.0.0.0:8080
Once your Raiko instance is running, you can verify if it was started properly as follows:
curl --location 'http://localhost:8080/proof' \
--header 'Content-Type: application/json' \
--data '{
"proof_type": "sgx",
"block_number": 99999,
"prover": "0x7b399987d24fc5951f3e94a4cb16e87414bf2229",
"graffiti": "0x0000000000000000000000000000000000000000000000000000000000000000",
"sgx": {
"setup": false,
"bootstrap": false,
"prove": true
}
}'
Or use ./script/prove-block
like ./script/prove-block.sh taiko_a7 native 99999
to check readiness.
The response should look like this:
{
"data": {
"output": null,
"proof": "0x00000206c3694ecb5c....6e0e7a36546bf98caa7bb4ac2cd4f917c2102116167e42c54849f15044c032e1c",
"quote": "03000200000000000a000f00939a72....0a2d2d2d2d2d454e442043455254494649434154452d2d2d2d2d0a00"
},
"status": "ok"
}
If you received this response, then at this point, your prover is up and running: you can provide the raiko_host endpoint to your taiko-client instance for SGX proving!
If you've successfully set up your raiko instance as above, you may want to change the RPCs raiko uses to ones you trust / your own deployed L1 Node and Beacon Node. Doing so will prevent random outages on PublicNode from affecting your proving, which you will want to do when running a mainnet prover/proposer.
If your raiko instance is still running, take it down temporarily with docker compose down
.
Navigate to the docker
folder in the raiko repo, export the below variables as necessary in the docker-compose.yml
on L69-74 depending on which network you are running an SGX prover for.
- ETHEREUM_RPC=${ETHEREUM_RPC}
- ETHEREUM_BEACON_RPC=${ETHEREUM_BEACON_RPC}
- HOLESKY_RPC=${HOLESKY_RPC}
- HOLESKY_BEACON_RPC=${HOLESKY_BEACON_RPC}
- TAIKO_A7_RPC=${TAIKO_A7_RPC}
- TAIKO_MAINNET_RPC=${TAIKO_MAINNET_RPC}
You can now restart your raiko instance (skipping the init/bootstrapping step) and operate as normal with docker compose up raiko -d
! Monitor the logs and run the above ./script/prove-block
script to make sure it's functioning normally.