Warning
The API has not been frozen yet. It will be changed on the course of the development.
The libaria2 is a C++ library and offers the core functionality of aria2. The library takes care of all networking and downloading stuff, so its usage is very straight forward right now. See the following Tutorial section to see how to use API.
This section is a step by step guide to create a program to download files using libaria2. The complete source is located at libaria2ex.cc in examples directory.
The libaria2ex program takes one or more URIs and downloads each of them in parallel. The usage is:
Usage: libaria2ex URI [URI...]
Download given URIs in parallel in the current directory.
The source code uses C++11 features, so C++11 enabled compiler is required. GCC 4.7 works well here.
OK, let’s look into the source code. First, include aria2.h header file:
#include <aria2/aria2.h>
Skip to the main()
function. After checking command-line
arguments, we initialize libaria2:
aria2::libraryInit();
And create aria2 session object:
aria2::Session* session;
// Create default configuration. The libaria2 takes care of signal
// handling.
aria2::SessionConfig config;
// Add event callback
config.downloadEventCallback = downloadEventCallback;
session = aria2::sessionNew(aria2::KeyVals(), config);
Session
session
is an aria2 session object. You need this
object through out the download process. Please keep in mind that only
one Session
object can be allowed per process due to the heavy
use of static objects in aria2 code base. SessionConfig
config
holds configuration for the session object. The constructor
initializes it with the default values. In this setup,
SessionConfig::keepRunning
is false
which means
run()
returns when all downloads are processed, just like
aria2c utility without RPC enabled. And
SessionConfig::useSignalHandler
is true
, which means
libaria2 will setup signal handlers and catches certain signals to
halt download process gracefully. We also setup event handler callback
function downloadEventCallback
. It will be called when an event
occurred such as download is started, completed, etc. In this example
program, we handle 2 events: download completion and error. For each
event, we print the GID of the download and several other
information:
int downloadEventCallback(aria2::Session* session, aria2::DownloadEvent event,
const aria2::A2Gid& gid, void* userData)
{
switch(event) {
case aria2::EVENT_ON_DOWNLOAD_COMPLETE:
std::cerr << "COMPLETE";
break;
case aria2::EVENT_ON_DOWNLOAD_ERROR:
std::cerr << "ERROR";
break;
default:
return 0;
}
std::cerr << " [" << aria2::gidToHex(gid) << "] ";
...
}
The userData
object is specified by
SessionConfig::userData
. In this example, we don’t specify
it, so it is nullptr
.
The first argument to sessionNew()
is aria2::KeyVals()
.
This type is used in API to specify vector of key/value pairs, mostly
representing aria2 options. For example, specify an option
file-allocation
to none
:
aria2::KeyVals options;
options.push_back(aria2::KeyVals("file-allocation", "none"));
The first argument of sessionNew()
is analogous to the
command-line argument to aria2c program. In the example program, we
provide no options, so just pass empty vector.
After the creation of session object, let’s add downloads given in the command-line:
// Add download item to session
for(int i = 1; i < argc; ++i) {
std::vector<std::string> uris = {argv[i]};
aria2::KeyVals options;
rv = aria2::addUri(session, nullptr, uris, options);
if(rv < 0) {
std::cerr << "Failed to add download " << uris[0] << std::endl;
}
}
We iterate command-line arguments and add each of them as a separate
download. addUri()
can take one or more URIs to download
several sources, just like aria2c does, but in this example, we just
give just one URI. We provide no particular option for the download,
so pass the empty vector as options. The second argument of
addUri()
takes a pointer to A2Gid
. If it is not
NULL
, the function assigns the GID of the new download to it. In
this example code, we have no interest for it, so just pass
nullptr
.
We have set up everything at this stage. So let’s start download. To
perform the download, call run()
repeatedly until it returns
the value other than 1
:
for(;;) {
rv = aria2::run(session, aria2::RUN_ONCE);
if(rv != 1) {
break;
}
...
}
Here, we call run()
with RUN_ONCE
. It means
run()
returns after one event polling and its action handling
or polling timeout (which is approximately 1 second). If run()
returns 1
, it means the download is in progress and the
application must call it again. If it returns 0
, then no download
is left (or it is stopped by signal handler or shutdown()
).
If the function catches error, it returns -1
. The good point of
using RUN_ONCE
is that the application can use libaria2 API
when run()
returns. In the example program, we print the
progress of the download in every no less than 500 millisecond:
// Print progress information once per 500ms
if(count >= 500) {
start = now;
aria2::GlobalStat gstat = aria2::getGlobalStat(session);
std::cerr << "Overall #Active:" << gstat.numActive
<< " #waiting:" << gstat.numWaiting
<< " D:" << gstat.downloadSpeed/1024 << "KiB/s"
<< " U:"<< gstat.uploadSpeed/1024 << "KiB/s " << std::endl;
std::vector<aria2::A2Gid> gids = aria2::getActiveDownload(session);
for(const auto& gid : gids) {
aria2::DownloadHandle* dh = aria2::getDownloadHandle(session, gid);
if(dh) {
std::cerr << " [" << aria2::gidToHex(gid) << "] "
<< dh->getCompletedLength() << "/"
<< dh->getTotalLength() << "("
<< (dh->getTotalLength() > 0 ?
(100*dh->getCompletedLength()/dh->getTotalLength())
: 0) << "%)"
<< " D:"
<< dh->getDownloadSpeed()/1024 << "KiB/s, U:"
<< dh->getUploadSpeed()/1024 << "KiB/s"
<< std::endl;
aria2::deleteDownloadHandle(dh);
}
}
}
We first call getGlobalStat()
function to get global
statistics of the downloads. Then, call getActiveDownload()
function to get the vector of active download’s GID. For each GID, we
retrieve DownloadHandle
object using
getDownloadHandle()
function and get detailed information.
Please don’t forget to delete DownloadHandle
after the use
and before the next call of run()
. Keep in mind that the life
time of DownloadHandle
object is before the next call of
run()
function.
After the loop, finalize download calling sessionFinal()
function and call libraryDeinit()
to release resources for the
library:
rv = aria2::sessionFinal(session);
aria2::libraryDeinit();
return rv;
Calling sessionFinal()
is important because it performs
post-download action, including saving sessions and destroys session
object. So failing to call this function will lead to lose the
download progress and memory leak. The sessionFinal()
returns
the code defined in EXIT STATUS. aria2c program also returns
the same value as exist status, so do the same in this tiny example
program.
See also libaria2wx.cc which uses wx GUI component as UI and use background thread to run download.
To use the API function, include aria2/aria2.h
:
#include <aria2/aria2.h>
All enums, types and functions are under aria2
namespace. To link
with libaria2, use linker flag -laria2
.