lix/src/libstore/s3-binary-cache-store.cc

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#include "config.h"
#if ENABLE_S3
#if __linux__
#include "s3-binary-cache-store.hh"
#include "nar-info.hh"
#include "nar-info-disk-cache.hh"
#include "globals.hh"
#include <aws/core/Aws.h>
#include <aws/core/client/ClientConfiguration.h>
#include <aws/s3/S3Client.h>
#include <aws/s3/model/CreateBucketRequest.h>
#include <aws/s3/model/GetBucketLocationRequest.h>
#include <aws/s3/model/GetObjectRequest.h>
#include <aws/s3/model/HeadObjectRequest.h>
#include <aws/s3/model/ListObjectsRequest.h>
#include <aws/s3/model/PutObjectRequest.h>
namespace nix {
struct istringstream_nocopy : public std::stringstream
{
istringstream_nocopy(const std::string & s)
{
rdbuf()->pubsetbuf(
(char *) s.data(), s.size());
}
};
struct S3Error : public Error
{
Aws::S3::S3Errors err;
S3Error(Aws::S3::S3Errors err, const FormatOrString & fs)
: Error(fs), err(err) { };
};
/* Helper: given an Outcome<R, E>, return R in case of success, or
throw an exception in case of an error. */
template<typename R, typename E>
R && checkAws(const FormatOrString & fs, Aws::Utils::Outcome<R, E> && outcome)
{
if (!outcome.IsSuccess())
throw S3Error(
outcome.GetError().GetErrorType(),
fs.s + ": " + outcome.GetError().GetMessage());
return outcome.GetResultWithOwnership();
}
static void initAWS()
{
static std::once_flag flag;
std::call_once(flag, []() {
Aws::SDKOptions options;
/* We install our own OpenSSL locking function (see
shared.cc), so don't let aws-sdk-cpp override it. */
options.cryptoOptions.initAndCleanupOpenSSL = false;
Aws::InitAPI(options);
});
}
struct S3BinaryCacheStoreImpl : public S3BinaryCacheStore
{
std::string bucketName;
ref<Aws::Client::ClientConfiguration> config;
ref<Aws::S3::S3Client> client;
Stats stats;
S3BinaryCacheStoreImpl(
const Params & params, const std::string & bucketName)
: S3BinaryCacheStore(params)
, bucketName(bucketName)
, config(makeConfig())
, client(make_ref<Aws::S3::S3Client>(*config))
{
diskCache = getNarInfoDiskCache();
}
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std::string getUri() override
{
return "s3://" + bucketName;
}
ref<Aws::Client::ClientConfiguration> makeConfig()
{
initAWS();
auto res = make_ref<Aws::Client::ClientConfiguration>();
res->region = Aws::Region::US_EAST_1; // FIXME: make configurable
res->requestTimeoutMs = 600 * 1000;
return res;
}
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void init() override
{
if (!diskCache->cacheExists(getUri(), wantMassQuery_, priority)) {
/* Create the bucket if it doesn't already exists. */
// FIXME: HeadBucket would be more appropriate, but doesn't return
// an easily parsed 404 message.
auto res = client->GetBucketLocation(
Aws::S3::Model::GetBucketLocationRequest().WithBucket(bucketName));
if (!res.IsSuccess()) {
if (res.GetError().GetErrorType() != Aws::S3::S3Errors::NO_SUCH_BUCKET)
throw Error(format("AWS error checking bucket %s: %s") % bucketName % res.GetError().GetMessage());
checkAws(format("AWS error creating bucket %s") % bucketName,
client->CreateBucket(
Aws::S3::Model::CreateBucketRequest()
.WithBucket(bucketName)
.WithCreateBucketConfiguration(
Aws::S3::Model::CreateBucketConfiguration()
/* .WithLocationConstraint(
Aws::S3::Model::BucketLocationConstraint::US) */ )));
}
BinaryCacheStore::init();
diskCache->createCache(getUri(), storeDir, wantMassQuery_, priority);
}
}
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const Stats & getS3Stats() override
{
return stats;
}
/* This is a specialisation of isValidPath() that optimistically
fetches the .narinfo file, rather than first checking for its
existence via a HEAD request. Since .narinfos are small, doing
a GET is unlikely to be slower than HEAD. */
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bool isValidPathUncached(const Path & storePath) override
{
try {
queryPathInfo(storePath);
return true;
} catch (InvalidPath & e) {
return false;
}
}
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bool fileExists(const std::string & path) override
{
stats.head++;
auto res = client->HeadObject(
Aws::S3::Model::HeadObjectRequest()
.WithBucket(bucketName)
.WithKey(path));
if (!res.IsSuccess()) {
auto & error = res.GetError();
if (error.GetErrorType() == Aws::S3::S3Errors::UNKNOWN // FIXME
&& error.GetMessage().find("404") != std::string::npos)
return false;
throw Error(format("AWS error fetching %s: %s") % path % error.GetMessage());
}
return true;
}
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void upsertFile(const std::string & path, const std::string & data) override
{
auto request =
Aws::S3::Model::PutObjectRequest()
.WithBucket(bucketName)
.WithKey(path);
auto stream = std::make_shared<istringstream_nocopy>(data);
request.SetBody(stream);
stats.put++;
stats.putBytes += data.size();
auto now1 = std::chrono::steady_clock::now();
auto result = checkAws(format("AWS error uploading %s") % path,
client->PutObject(request));
auto now2 = std::chrono::steady_clock::now();
auto duration = std::chrono::duration_cast<std::chrono::milliseconds>(now2 - now1).count();
printInfo(format("uploaded s3://%1%/%2% (%3% bytes) in %4% ms")
% bucketName % path % data.size() % duration);
stats.putTimeMs += duration;
}
void getFile(const std::string & path,
std::function<void(std::shared_ptr<std::string>)> success,
std::function<void(std::exception_ptr exc)> failure) override
{
sync2async<std::shared_ptr<std::string>>(success, failure, [&]() {
debug(format("fetching s3://%1%/%2%...") % bucketName % path);
auto request =
Aws::S3::Model::GetObjectRequest()
.WithBucket(bucketName)
.WithKey(path);
request.SetResponseStreamFactory([&]() {
return Aws::New<std::stringstream>("STRINGSTREAM");
});
stats.get++;
try {
auto now1 = std::chrono::steady_clock::now();
auto result = checkAws(format("AWS error fetching %s") % path,
client->GetObject(request));
auto now2 = std::chrono::steady_clock::now();
auto res = dynamic_cast<std::stringstream &>(result.GetBody()).str();
auto duration = std::chrono::duration_cast<std::chrono::milliseconds>(now2 - now1).count();
printMsg(lvlTalkative, format("downloaded s3://%1%/%2% (%3% bytes) in %4% ms")
% bucketName % path % res.size() % duration);
stats.getBytes += res.size();
stats.getTimeMs += duration;
return std::make_shared<std::string>(res);
} catch (S3Error & e) {
if (e.err == Aws::S3::S3Errors::NO_SUCH_KEY) return std::shared_ptr<std::string>();
throw;
}
});
}
PathSet queryAllValidPaths() override
{
PathSet paths;
std::string marker;
do {
debug(format("listing bucket s3://%s from key %s...") % bucketName % marker);
auto res = checkAws(format("AWS error listing bucket %s") % bucketName,
client->ListObjects(
Aws::S3::Model::ListObjectsRequest()
.WithBucket(bucketName)
.WithDelimiter("/")
.WithMarker(marker)));
auto & contents = res.GetContents();
debug(format("got %d keys, next marker %s")
% contents.size() % res.GetNextMarker());
for (auto object : contents) {
auto & key = object.GetKey();
if (key.size() != 40 || !hasSuffix(key, ".narinfo")) continue;
paths.insert(storeDir + "/" + key.substr(0, key.size() - 8));
}
marker = res.GetNextMarker();
} while (!marker.empty());
return paths;
}
};
static RegisterStoreImplementation regStore([](
const std::string & uri, const Store::Params & params)
-> std::shared_ptr<Store>
{
if (std::string(uri, 0, 5) != "s3://") return 0;
auto store = std::make_shared<S3BinaryCacheStoreImpl>(params, std::string(uri, 5));
store->init();
return store;
});
}
#endif
#endif