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BitShares Core is the BitShares blockchain implementation and command-line interface. The web browser based wallet is BitShares UI.
Visit BitShares.org to learn about BitShares and join the community at BitSharesTalk.org.
Information for developers can be found in the Bitshares Developer Portal. Users interested in how bitshares works can go to the BitShares Documentation site.
For security issues and bug bounty program please visit Hack the DEX.
Build instructions and additional documentation are available in the wiki.
We recommend building on Ubuntu 16.04 LTS (64-bit)
Build Dependencies:
sudo apt-get update
sudo apt-get install autoconf cmake make automake libtool git libboost-all-dev libssl-dev g++ libcurl4-openssl-dev
Build Script:
git clone https://github.com/bitshares/bitshares-core.git
cd bitshares-core
git checkout master # may substitute "master" with current release tag
git submodule update --init --recursive
cmake -DCMAKE_BUILD_TYPE=RelWithDebInfo .
make
Upgrade Script: (prepend to the Build Script above if you built a prior release):
git remote set-url origin https://github.com/bitshares/bitshares-core.git
git checkout master
git remote set-head origin --auto
git pull
git submodule update --init --recursive # this command may fail
git submodule sync --recursive
git submodule update --init --recursive
NOTE: Versions of Boost 1.58 through 1.69 are supported. Newer versions may work, but have not been tested. If your system came pre-installed with a version of Boost that you do not wish to use, you may manually build your preferred version and use it with BitShares by specifying it on the CMake command line.
Example: cmake -DBOOST_ROOT=/path/to/boost .
NOTE: BitShares requires a 64-bit operating system to build, and will not build on a 32-bit OS.
NOTE: BitShares now supports Ubuntu 18.04 LTS
NOTE: BitShares now supports OpenSSL 1.1.0
After Building, the witness_node
can be launched with:
./programs/witness_node/witness_node
The node will automatically create a data directory including a config file. It may take several hours to fully synchronize
the blockchain. After syncing, you can exit the node using Ctrl+C and setup the command-line wallet by editing
witness_node_data_dir/config.ini
as follows:
rpc-endpoint = 127.0.0.1:8090
IMPORTANT: By default the witness node will start in reduced memory mode by using some of the commands detailed in Memory reduction for nodes.
In order to run a full node with all the account history you need to remove partial-operations
and max-ops-per-account
from your config file. Please note that currently(2018-10-17) a full node will need more than 160GB of RAM to operate and required memory is growing fast. Consider the following table as minimal requirements before running a node:
Default | Full | Minimal | ElasticSearch |
---|---|---|---|
100G HDD, 16G RAM | 640G SSD, 64G RAM * | 80G HDD, 4G RAM | 500G SSD, 32G RAM |
* For this setup, allocate at least 500GB of SSD as swap.
After starting the witness node again, in a separate terminal you can run:
./programs/cli_wallet/cli_wallet
Set your inital password:
>>> set_password <PASSWORD>
>>> unlock <PASSWORD>
IMPORTANT: The cli_wallet or API interfaces to the witness node wouldn't be fully functional unless the witness node is fully synchronized with the blockchain. The cli_wallet command info
will show result head_block_age
which will tell you how far you are from the live current block of the blockchain.
To check your current block:
>>> info
To import your initial balance:
>>> import_balance <ACCOUNT NAME> [<WIF_KEY>] true
If you send private keys over this connection, rpc-endpoint
should be bound to localhost for security.
Use help
to see all available wallet commands. Source definition and listing of all commands is available
here.
Technical support is available in the BitSharesTalk technical support subforum.
BitShares Core bugs can be reported directly to the issue tracker.
BitShares UI bugs should be reported to the UI issue tracker
Up to date online Doxygen documentation can be found at Doxygen
We provide several different API's. Each API has its own ID.
When running witness_node
, initially two API's are available:
API 0 provides read-only access to the database, while API 1 is
used to login and gain access to additional, restricted API's.
Here is an example using wscat
package from npm
for websockets:
$ npm install -g wscat
$ wscat -c ws://127.0.0.1:8090
> {"id":1, "method":"call", "params":[0,"get_accounts",[["1.2.0"]]]}
< {"id":1,"result":[{"id":"1.2.0","annotations":[],"membership_expiration_date":"1969-12-31T23:59:59","registrar":"1.2.0","referrer":"1.2.0","lifetime_referrer":"1.2.0","network_fee_percentage":2000,"lifetime_referrer_fee_percentage":8000,"referrer_rewards_percentage":0,"name":"committee-account","owner":{"weight_threshold":1,"account_auths":[],"key_auths":[],"address_auths":[]},"active":{"weight_threshold":6,"account_auths":[["1.2.5",1],["1.2.6",1],["1.2.7",1],["1.2.8",1],["1.2.9",1],["1.2.10",1],["1.2.11",1],["1.2.12",1],["1.2.13",1],["1.2.14",1]],"key_auths":[],"address_auths":[]},"options":{"memo_key":"GPH1111111111111111111111111111111114T1Anm","voting_account":"1.2.0","num_witness":0,"num_committee":0,"votes":[],"extensions":[]},"statistics":"2.7.0","whitelisting_accounts":[],"blacklisting_accounts":[]}]}
We can do the same thing using an HTTP client such as curl
for API's which do not require login or other session state:
$ curl --data '{"jsonrpc": "2.0", "method": "call", "params": [0, "get_accounts", [["1.2.0"]]], "id": 1}' http://127.0.0.1:8090/rpc
{"id":1,"result":[{"id":"1.2.0","annotations":[],"membership_expiration_date":"1969-12-31T23:59:59","registrar":"1.2.0","referrer":"1.2.0","lifetime_referrer":"1.2.0","network_fee_percentage":2000,"lifetime_referrer_fee_percentage":8000,"referrer_rewards_percentage":0,"name":"committee-account","owner":{"weight_threshold":1,"account_auths":[],"key_auths":[],"address_auths":[]},"active":{"weight_threshold":6,"account_auths":[["1.2.5",1],["1.2.6",1],["1.2.7",1],["1.2.8",1],["1.2.9",1],["1.2.10",1],["1.2.11",1],["1.2.12",1],["1.2.13",1],["1.2.14",1]],"key_auths":[],"address_auths":[]},"options":{"memo_key":"GPH1111111111111111111111111111111114T1Anm","voting_account":"1.2.0","num_witness":0,"num_committee":0,"votes":[],"extensions":[]},"statistics":"2.7.0","whitelisting_accounts":[],"blacklisting_accounts":[]}]}
API 0 is accessible using regular JSON-RPC:
$ curl --data '{"jsonrpc": "2.0", "method": "get_accounts", "params": [["1.2.0"]], "id": 1}' http://127.0.0.1:8090/rpc
You can restrict API's to particular users by specifying an api-access
file in config.ini
or by using the --api-access /full/path/to/api-access.json
startup node command. Here is an example api-access
file which allows
user bytemaster
with password supersecret
to access four different API's, while allowing any other user to access the three public API's
necessary to use the wallet:
{
"permission_map" :
[
[
"bytemaster",
{
"password_hash_b64" : "9e9GF7ooXVb9k4BoSfNIPTelXeGOZ5DrgOYMj94elaY=",
"password_salt_b64" : "INDdM6iCi/8=",
"allowed_apis" : ["database_api", "network_broadcast_api", "history_api", "network_node_api"]
}
],
[
"*",
{
"password_hash_b64" : "*",
"password_salt_b64" : "*",
"allowed_apis" : ["database_api", "network_broadcast_api", "history_api"]
}
]
]
}
Passwords are stored in base64
as salted sha256
hashes. A simple Python script, saltpass.py
is avaliable to obtain hash and salt values from a password.
A single asterisk "*"
may be specified as username or password hash to accept any value.
With the above configuration, here is an example of how to call add_node
from the network_node
API:
{"id":1, "method":"call", "params":[1,"login",["bytemaster", "supersecret"]]}
{"id":2, "method":"call", "params":[1,"network_node",[]]}
{"id":3, "method":"call", "params":[2,"add_node",["127.0.0.1:9090"]]}
Note, the call to network_node
is necessary to obtain the correct API identifier for the network API. It is not guaranteed that the network API identifier will always be 2
.
Since the network_node
API requires login, it is only accessible over the websocket RPC. Our doxygen
documentation contains the most up-to-date information
about API's for the witness node and the
wallet.
If you want information which is not available from an API, it might be available
from the database;
it is fairly simple to write API methods to expose database methods.
-
Is there a way to generate help with parameter names and method descriptions?
Yes. Documentation of the code base, including APIs, can be generated using Doxygen. Simply run
doxygen
in this directory.If both Doxygen and perl are available in your build environment, the CLI wallet's
help
andgethelp
commands will display help generated from the doxygen documentation.If your CLI wallet's
help
command displays descriptions without parameter names likesigned_transaction transfer(string, string, string, string, string, bool)
it means CMake was unable to find Doxygen or perl during configuration. If found, the output should look like this:signed_transaction transfer(string from, string to, string amount, string asset_symbol, string memo, bool broadcast)
-
Is there a way to allow external program to drive
cli_wallet
via websocket, JSONRPC, or HTTP?Yes. External programs may connect to the CLI wallet and make its calls over a websockets API. To do this, run the wallet in server mode, i.e.
cli_wallet -s "127.0.0.1:9999"
and then have the external program connect to it over the specified port (in this example, port 9999). -
Is there a way to access methods which require login over HTTP?
No. Login is inherently a stateful process (logging in changes what the server will do for certain requests, that's kind of the point of having it). If you need to track state across HTTP RPC calls, you must maintain a session across multiple connections. This is a famous source of security vulnerabilities for HTTP applications. Additionally, HTTP is not really designed for "server push" notifications, and we would have to figure out a way to queue notifications for a polling client.
Websockets solves all these problems. If you need to access Graphene's stateful methods, you need to use Websockets.
-
What is the meaning of
a.b.c
numbers?The first number specifies the space. Space 1 is for protocol objects, 2 is for implementation objects. Protocol space objects can appear on the wire, for example in the binary form of transactions. Implementation space objects cannot appear on the wire and solely exist for implementation purposes, such as optimization or internal bookkeeping.
The second number specifies the type. The type of the object determines what fields it has. For a complete list of type ID's, see
enum object_type
andenum impl_object_type
in types.hpp.The third number specifies the instance. The instance of the object is different for each individual object.
-
The answer to the previous question was really confusing. Can you make it clearer?
All account ID's are of the form
1.2.x
. If you were the 9735th account to be registered, your account's ID will be1.2.9735
. Account0
is special (it's the "committee account," which is controlled by the committee members and has a few abilities and restrictions other accounts do not).All asset ID's are of the form
1.3.x
. If you were the 29th asset to be registered, your asset's ID will be1.3.29
. Asset0
is special (it's BTS, which is considered the "core asset").The first and second number together identify the kind of thing you're talking about (
1.2
for accounts,1.3
for assets). The third number identifies the particular thing. -
How do I get the
network_add_nodes
command to work? Why is it so complicated?You need to follow the instructions in the "Accessing restricted API's" section to allow a username/password access to the
network_node
API. Then you need to pass the username/password to thecli_wallet
on the command line or in a config file.It's set up this way so that the default configuration is secure even if the RPC port is publicly accessible. It's fine if your
witness_node
allows the general public to query the database or broadcast transactions (in fact, this is how the hosted web UI works). It's less fine if yourwitness_node
allows the general public to control which p2p nodes it's connecting to. Therefore the API to add p2p connections needs to be set up with proper access controls.
BitShares Core is under the MIT license. See LICENSE for more information.