Added bitrpc.py which allows for sending of all standard Bitcoin commands via RPC rather than as command line args.
### [Debian](/contrib/debian) ###
Contains files used to package bitcoind/bitcoin-qt
for Debian-based Linux systems. If you compile bitcoind/bitcoin-qt yourself, there are some useful files here.
@ -11,7 +14,10 @@ Gavin's notes on getting gitian builds up and running using KVM.
@@ -11,7 +14,10 @@ Gavin's notes on getting gitian builds up and running using KVM.
You need the right hardware: you need a 64-bit-capable CPU with hardware virtualization support (Intel VT-x or AMD-V). Not all modern CPUs support hardware virtualization.
@ -9,11 +9,13 @@ You need the right hardware: you need a 64-bit-capable CPU with hardware virtual
@@ -9,11 +9,13 @@ You need the right hardware: you need a 64-bit-capable CPU with hardware virtual
You probably need to enable hardware virtualization in your machine's BIOS.
You need to be running a recent version of 64-bit-Ubuntu, and you need to install several prerequisites:
... for how to get LXC up and running under Ubuntu.
If your main machine is a 64-bit Mac or PC with a few gigabytes of memory
and at least 10 gigabytes of free disk space, you can gitian-build using
and at least 10 gigabytes of free disk space, you can `gitian-build` using
LXC running inside a virtual machine.
Here's a description of Gavin's setup on OSX 10.6:
1. Download and install VirtualBox from https://www.virtualbox.org/
1. Download and install VirtualBox from [https://www.virtualbox.org/](https://www.virtualbox.org/)
2. Download the 64-bit Ubuntu Desktop 12.04 LTS .iso CD image from
http://www.ubuntu.com/
[http://www.ubuntu.com/](http://www.ubuntu.com/)
3. Run VirtualBox and create a new virtual machine, using the
Ubuntu .iso (see the VirtualBox documentation for details).
Create it with at least 2 gigabytes of memory and a disk
that is at least 20 gigabytes big.
3. Run VirtualBox and create a new virtual machine, using the Ubuntu .iso (see the [VirtualBox documentation](https://www.virtualbox.org/wiki/Documentation) for details). Create it with at least 2 gigabytes of memory and a disk that is at least 20 gigabytes big.
This is a Linux bash script that will set up tc to limit the outgoing bandwidth for connections to the Bitcoin network. It limits outbound TCP traffic with a source or destination port of 8333, but not if the destination IP is within a LAN (defined as 192.168.x.x).
This means one can have an always-on bitcoind instance running, and another local bitcoind/bitcoin-qt instance which connects to this node and receives blocks from it.
With no arguments, outputs a list of amounts associated with addresses.
With arguments, sends coins received by the FROMADDRESS addresses to the TOADDRESS.
With arguments, sends coins received by the `FROMADDRESS` addresses to the `TOADDRESS`.
You may explictly specify how much fee to pay (a fee more than 1% of the amount
will fail, though, to prevent bitcoin-losing accidents). Spendfrom may fail if
@ -18,11 +20,11 @@ it thinks the transaction would never be confirmed (if the amount being sent is
@@ -18,11 +20,11 @@ it thinks the transaction would never be confirmed (if the amount being sent is
too small, or if the transaction is too many bytes for the fee).
If a change output needs to be created, the change will be sent to the last
FROMADDRESS (if you specify just one FROMADDRESS, change will go back to it).
`FROMADDRESS` (if you specify just one `FROMADDRESS`, change will go back to it).
If --datadir is not specified, the default datadir is used.
If `--datadir` is not specified, the default datadir is used.
The --dry_run option will just create and sign the the transaction and print
The `--dry_run` option will just create and sign the the transaction and print
the transaction data (as hexadecimal), instead of broadcasting it.
If the transaction is created and broadcast successfully, a transaction id