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// Copyright (c) 2012 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "net/base/server_bound_cert_service.h"
#include <algorithm>
#include <limits>
#include "base/bind.h"
#include "base/bind_helpers.h"
#include "base/compiler_specific.h"
#include "base/location.h"
#include "base/logging.h"
#include "base/memory/ref_counted.h"
#include "base/memory/scoped_ptr.h"
#include "base/message_loop.h"
#include "base/metrics/histogram.h"
#include "base/rand_util.h"
#include "base/stl_util.h"
#include "base/task_runner.h"
#include "crypto/ec_private_key.h"
#include "googleurl/src/gurl.h"
#include "net/base/net_errors.h"
#include "net/base/registry_controlled_domain.h"
#include "net/base/server_bound_cert_store.h"
#include "net/base/x509_certificate.h"
#include "net/base/x509_util.h"
#if defined(USE_NSS)
#include <private/pprthred.h> // PR_DetachThread
#endif
namespace net {
namespace {
const int kKeySizeInBits = 1024;
const int kValidityPeriodInDays = 365;
bool IsSupportedCertType(uint8 type) {
switch(type) {
case CLIENT_CERT_ECDSA_SIGN:
return true;
default:
return false;
}
}
// Used by the GetDomainBoundCertResult histogram to record the final
// outcome of each GetDomainBoundCert call. Do not re-use values.
enum GetCertResult {
// Synchronously found and returned an existing domain bound cert.
SYNC_SUCCESS = 0,
// Generated and returned a domain bound cert asynchronously.
ASYNC_SUCCESS = 1,
// Generation request was cancelled before the cert generation completed.
ASYNC_CANCELLED = 2,
// Cert generation failed.
ASYNC_FAILURE_KEYGEN = 3,
ASYNC_FAILURE_CREATE_CERT = 4,
ASYNC_FAILURE_EXPORT_KEY = 5,
ASYNC_FAILURE_UNKNOWN = 6,
// GetDomainBoundCert was called with invalid arguments.
INVALID_ARGUMENT = 7,
// We don't support any of the cert types the server requested.
UNSUPPORTED_TYPE = 8,
// Server asked for a different type of certs while we were generating one.
TYPE_MISMATCH = 9,
// Couldn't start a worker to generate a cert.
WORKER_FAILURE = 10,
GET_CERT_RESULT_MAX
};
void RecordGetDomainBoundCertResult(GetCertResult result) {
UMA_HISTOGRAM_ENUMERATION("DomainBoundCerts.GetDomainBoundCertResult", result,
GET_CERT_RESULT_MAX);
}
void RecordGetCertTime(base::TimeDelta request_time) {
UMA_HISTOGRAM_CUSTOM_TIMES("DomainBoundCerts.GetCertTime",
request_time,
base::TimeDelta::FromMilliseconds(1),
base::TimeDelta::FromMinutes(5),
50);
}
} // namespace
// Represents the output and result callback of a request.
class ServerBoundCertServiceRequest {
public:
ServerBoundCertServiceRequest(base::TimeTicks request_start,
const CompletionCallback& callback,
SSLClientCertType* type,
std::string* private_key,
std::string* cert)
: request_start_(request_start),
callback_(callback),
type_(type),
private_key_(private_key),
cert_(cert) {
}
// Ensures that the result callback will never be made.
void Cancel() {
RecordGetDomainBoundCertResult(ASYNC_CANCELLED);
callback_.Reset();
type_ = NULL;
private_key_ = NULL;
cert_ = NULL;
}
// Copies the contents of |private_key| and |cert| to the caller's output
// arguments and calls the callback.
void Post(int error,
SSLClientCertType type,
const std::string& private_key,
const std::string& cert) {
switch (error) {
case OK: {
base::TimeDelta request_time = base::TimeTicks::Now() - request_start_;
UMA_HISTOGRAM_CUSTOM_TIMES("DomainBoundCerts.GetCertTimeAsync",
request_time,
base::TimeDelta::FromMilliseconds(1),
base::TimeDelta::FromMinutes(5),
50);
RecordGetCertTime(request_time);
RecordGetDomainBoundCertResult(ASYNC_SUCCESS);
break;
}
case ERR_KEY_GENERATION_FAILED:
RecordGetDomainBoundCertResult(ASYNC_FAILURE_KEYGEN);
break;
case ERR_ORIGIN_BOUND_CERT_GENERATION_FAILED:
RecordGetDomainBoundCertResult(ASYNC_FAILURE_CREATE_CERT);
break;
case ERR_PRIVATE_KEY_EXPORT_FAILED:
RecordGetDomainBoundCertResult(ASYNC_FAILURE_EXPORT_KEY);
break;
default:
RecordGetDomainBoundCertResult(ASYNC_FAILURE_UNKNOWN);
break;
}
if (!callback_.is_null()) {
*type_ = type;
*private_key_ = private_key;
*cert_ = cert;
callback_.Run(error);
}
delete this;
}
bool canceled() const { return callback_.is_null(); }
private:
base::TimeTicks request_start_;
CompletionCallback callback_;
SSLClientCertType* type_;
std::string* private_key_;
std::string* cert_;
};
// ServerBoundCertServiceWorker runs on a worker thread and takes care of the
// blocking process of performing key generation. Deletes itself eventually
// if Start() succeeds.
// TODO(mattm): don't use locking and explicit cancellation.
class ServerBoundCertServiceWorker {
public:
ServerBoundCertServiceWorker(
const std::string& server_identifier,
SSLClientCertType type,
ServerBoundCertService* server_bound_cert_service)
: server_identifier_(server_identifier),
type_(type),
serial_number_(base::RandInt(0, std::numeric_limits<int>::max())),
origin_loop_(MessageLoop::current()),
server_bound_cert_service_(server_bound_cert_service),
canceled_(false),
error_(ERR_FAILED) {
}
bool Start(const scoped_refptr<base::TaskRunner>& task_runner) {
DCHECK_EQ(MessageLoop::current(), origin_loop_);
return task_runner->PostTask(
FROM_HERE,
base::Bind(&ServerBoundCertServiceWorker::Run, base::Unretained(this)));
}
// Cancel is called from the origin loop when the ServerBoundCertService is
// getting deleted.
void Cancel() {
DCHECK_EQ(MessageLoop::current(), origin_loop_);
base::AutoLock locked(lock_);
canceled_ = true;
}
private:
void Run() {
// Runs on a worker thread.
error_ = ServerBoundCertService::GenerateCert(server_identifier_,
type_,
serial_number_,
&creation_time_,
&expiration_time_,
&private_key_,
&cert_);
#if defined(USE_NSS)
// Detach the thread from NSPR.
// Calling NSS functions attaches the thread to NSPR, which stores
// the NSPR thread ID in thread-specific data.
// The threads in our thread pool terminate after we have called
// PR_Cleanup. Unless we detach them from NSPR, net_unittests gets
// segfaults on shutdown when the threads' thread-specific data
// destructors run.
PR_DetachThread();
#endif
Finish();
}
// DoReply runs on the origin thread.
void DoReply() {
DCHECK_EQ(MessageLoop::current(), origin_loop_);
{
// We lock here because the worker thread could still be in Finished,
// after the PostTask, but before unlocking |lock_|. If we do not lock in
// this case, we will end up deleting a locked Lock, which can lead to
// memory leaks or worse errors.
base::AutoLock locked(lock_);
if (!canceled_) {
server_bound_cert_service_->HandleResult(
server_identifier_, error_, type_, creation_time_, expiration_time_,
private_key_, cert_);
}
}
delete this;
}
void Finish() {
// Runs on the worker thread.
// We assume that the origin loop outlives the ServerBoundCertService. If
// the ServerBoundCertService is deleted, it will call Cancel on us. If it
// does so before the Acquire, we'll delete ourselves and return. If it's
// trying to do so concurrently, then it'll block on the lock and we'll
// call PostTask while the ServerBoundCertService (and therefore the
// MessageLoop) is still alive. If it does so after this function, we
// assume that the MessageLoop will process pending tasks. In which case
// we'll notice the |canceled_| flag in DoReply.
bool canceled;
{
base::AutoLock locked(lock_);
canceled = canceled_;
if (!canceled) {
origin_loop_->PostTask(
FROM_HERE, base::Bind(&ServerBoundCertServiceWorker::DoReply,
base::Unretained(this)));
}
}
if (canceled)
delete this;
}
const std::string server_identifier_;
const SSLClientCertType type_;
// Note that serial_number_ must be initialized on a non-worker thread
// (see documentation for ServerBoundCertService::GenerateCert).
uint32 serial_number_;
MessageLoop* const origin_loop_;
ServerBoundCertService* const server_bound_cert_service_;
// lock_ protects canceled_.
base::Lock lock_;
// If canceled_ is true,
// * origin_loop_ cannot be accessed by the worker thread,
// * server_bound_cert_service_ cannot be accessed by any thread.
bool canceled_;
int error_;
base::Time creation_time_;
base::Time expiration_time_;
std::string private_key_;
std::string cert_;
DISALLOW_COPY_AND_ASSIGN(ServerBoundCertServiceWorker);
};
// A ServerBoundCertServiceJob is a one-to-one counterpart of an
// ServerBoundCertServiceWorker. It lives only on the ServerBoundCertService's
// origin message loop.
class ServerBoundCertServiceJob {
public:
ServerBoundCertServiceJob(ServerBoundCertServiceWorker* worker,
SSLClientCertType type)
: worker_(worker), type_(type) {
}
~ServerBoundCertServiceJob() {
if (worker_) {
worker_->Cancel();
DeleteAllCanceled();
}
}
SSLClientCertType type() const { return type_; }
void AddRequest(ServerBoundCertServiceRequest* request) {
requests_.push_back(request);
}
void HandleResult(int error,
SSLClientCertType type,
const std::string& private_key,
const std::string& cert) {
worker_ = NULL;
PostAll(error, type, private_key, cert);
}
private:
void PostAll(int error,
SSLClientCertType type,
const std::string& private_key,
const std::string& cert) {
std::vector<ServerBoundCertServiceRequest*> requests;
requests_.swap(requests);
for (std::vector<ServerBoundCertServiceRequest*>::iterator
i = requests.begin(); i != requests.end(); i++) {
(*i)->Post(error, type, private_key, cert);
// Post() causes the ServerBoundCertServiceRequest to delete itself.
}
}
void DeleteAllCanceled() {
for (std::vector<ServerBoundCertServiceRequest*>::iterator
i = requests_.begin(); i != requests_.end(); i++) {
if ((*i)->canceled()) {
delete *i;
} else {
LOG(DFATAL) << "ServerBoundCertServiceRequest leaked!";
}
}
}
std::vector<ServerBoundCertServiceRequest*> requests_;
ServerBoundCertServiceWorker* worker_;
SSLClientCertType type_;
};
// static
const char ServerBoundCertService::kEPKIPassword[] = "";
ServerBoundCertService::ServerBoundCertService(
ServerBoundCertStore* server_bound_cert_store,
const scoped_refptr<base::TaskRunner>& task_runner)
: server_bound_cert_store_(server_bound_cert_store),
task_runner_(task_runner),
requests_(0),
cert_store_hits_(0),
inflight_joins_(0) {}
ServerBoundCertService::~ServerBoundCertService() {
STLDeleteValues(&inflight_);
}
//static
std::string ServerBoundCertService::GetDomainForHost(const std::string& host) {
std::string domain =
RegistryControlledDomainService::GetDomainAndRegistry(host);
if (domain.empty())
return host;
return domain;
}
int ServerBoundCertService::GetDomainBoundCert(
const std::string& origin,
const std::vector<uint8>& requested_types,
SSLClientCertType* type,
std::string* private_key,
std::string* cert,
const CompletionCallback& callback,
RequestHandle* out_req) {
DCHECK(CalledOnValidThread());
base::TimeTicks request_start = base::TimeTicks::Now();
*out_req = NULL;
if (callback.is_null() || !private_key || !cert || origin.empty() ||
requested_types.empty()) {
RecordGetDomainBoundCertResult(INVALID_ARGUMENT);
return ERR_INVALID_ARGUMENT;
}
std::string domain = GetDomainForHost(GURL(origin).host());
if (domain.empty()) {
RecordGetDomainBoundCertResult(INVALID_ARGUMENT);
return ERR_INVALID_ARGUMENT;
}
SSLClientCertType preferred_type = CLIENT_CERT_INVALID_TYPE;
for (size_t i = 0; i < requested_types.size(); ++i) {
if (IsSupportedCertType(requested_types[i])) {
preferred_type = static_cast<SSLClientCertType>(requested_types[i]);
break;
}
}
if (preferred_type == CLIENT_CERT_INVALID_TYPE) {
RecordGetDomainBoundCertResult(UNSUPPORTED_TYPE);
// None of the requested types are supported.
return ERR_CLIENT_AUTH_CERT_TYPE_UNSUPPORTED;
}
requests_++;
// Check if a domain bound cert of an acceptable type already exists for this
// domain, and that it has not expired.
base::Time now = base::Time::Now();
base::Time creation_time;
base::Time expiration_time;
if (server_bound_cert_store_->GetServerBoundCert(domain,
type,
&creation_time,
&expiration_time,
private_key,
cert)) {
if (expiration_time < now) {
DVLOG(1) << "Cert store had expired cert for " << domain;
} else if (!IsSupportedCertType(*type) ||
std::find(requested_types.begin(), requested_types.end(),
*type) == requested_types.end()) {
DVLOG(1) << "Cert store had cert of wrong type " << *type << " for "
<< domain;
} else {
cert_store_hits_++;
RecordGetDomainBoundCertResult(SYNC_SUCCESS);
base::TimeDelta request_time = base::TimeTicks::Now() - request_start;
UMA_HISTOGRAM_TIMES("DomainBoundCerts.GetCertTimeSync", request_time);
RecordGetCertTime(request_time);
return OK;
}
}
// |server_bound_cert_store_| has no cert for this domain. See if an
// identical request is currently in flight.
ServerBoundCertServiceJob* job = NULL;
std::map<std::string, ServerBoundCertServiceJob*>::const_iterator j;
j = inflight_.find(domain);
if (j != inflight_.end()) {
// An identical request is in flight already. We'll just attach our
// callback.
job = j->second;
// Check that the job is for an acceptable type of cert.
if (std::find(requested_types.begin(), requested_types.end(), job->type())
== requested_types.end()) {
DVLOG(1) << "Found inflight job of wrong type " << job->type()
<< " for " << domain;
// If we get here, the server is asking for different types of certs in
// short succession. This probably means the server is broken or
// misconfigured. Since we only store one type of cert per domain, we
// are unable to handle this well. Just return an error and let the first
// job finish.
RecordGetDomainBoundCertResult(TYPE_MISMATCH);
return ERR_ORIGIN_BOUND_CERT_GENERATION_TYPE_MISMATCH;
}
inflight_joins_++;
} else {
// Need to make a new request.
ServerBoundCertServiceWorker* worker = new ServerBoundCertServiceWorker(
domain,
preferred_type,
this);
job = new ServerBoundCertServiceJob(worker, preferred_type);
if (!worker->Start(task_runner_)) {
delete job;
delete worker;
// TODO(rkn): Log to the NetLog.
LOG(ERROR) << "ServerBoundCertServiceWorker couldn't be started.";
RecordGetDomainBoundCertResult(WORKER_FAILURE);
return ERR_INSUFFICIENT_RESOURCES; // Just a guess.
}
inflight_[domain] = job;
}
ServerBoundCertServiceRequest* request = new ServerBoundCertServiceRequest(
request_start, callback, type, private_key, cert);
job->AddRequest(request);
*out_req = request;
return ERR_IO_PENDING;
}
ServerBoundCertStore* ServerBoundCertService::GetCertStore() {
return server_bound_cert_store_.get();
}
// static
int ServerBoundCertService::GenerateCert(const std::string& server_identifier,
SSLClientCertType type,
uint32 serial_number,
base::Time* creation_time,
base::Time* expiration_time,
std::string* private_key,
std::string* cert) {
base::TimeTicks start = base::TimeTicks::Now();
base::Time not_valid_before = base::Time::Now();
base::Time not_valid_after =
not_valid_before + base::TimeDelta::FromDays(kValidityPeriodInDays);
std::string der_cert;
std::vector<uint8> private_key_info;
switch (type) {
case CLIENT_CERT_ECDSA_SIGN: {
scoped_ptr<crypto::ECPrivateKey> key(crypto::ECPrivateKey::Create());
if (!key.get()) {
DLOG(ERROR) << "Unable to create key pair for client";
return ERR_KEY_GENERATION_FAILED;
}
if (!x509_util::CreateDomainBoundCertEC(
key.get(),
server_identifier,
serial_number,
not_valid_before,
not_valid_after,
&der_cert)) {
DLOG(ERROR) << "Unable to create x509 cert for client";
return ERR_ORIGIN_BOUND_CERT_GENERATION_FAILED;
}
if (!key->ExportEncryptedPrivateKey(
kEPKIPassword, 1, &private_key_info)) {
DLOG(ERROR) << "Unable to export private key";
return ERR_PRIVATE_KEY_EXPORT_FAILED;
}
break;
}
default:
NOTREACHED();
return ERR_INVALID_ARGUMENT;
}
// TODO(rkn): Perhaps ExportPrivateKey should be changed to output a
// std::string* to prevent this copying.
std::string key_out(private_key_info.begin(), private_key_info.end());
private_key->swap(key_out);
cert->swap(der_cert);
*creation_time = not_valid_before;
*expiration_time = not_valid_after;
UMA_HISTOGRAM_CUSTOM_TIMES("DomainBoundCerts.GenerateCertTime",
base::TimeTicks::Now() - start,
base::TimeDelta::FromMilliseconds(1),
base::TimeDelta::FromMinutes(5),
50);
return OK;
}
void ServerBoundCertService::CancelRequest(RequestHandle req) {
DCHECK(CalledOnValidThread());
ServerBoundCertServiceRequest* request =
reinterpret_cast<ServerBoundCertServiceRequest*>(req);
request->Cancel();
}
// HandleResult is called by ServerBoundCertServiceWorker on the origin message
// loop. It deletes ServerBoundCertServiceJob.
void ServerBoundCertService::HandleResult(const std::string& server_identifier,
int error,
SSLClientCertType type,
base::Time creation_time,
base::Time expiration_time,
const std::string& private_key,
const std::string& cert) {
DCHECK(CalledOnValidThread());
if (error == OK) {
server_bound_cert_store_->SetServerBoundCert(
server_identifier, type, creation_time, expiration_time, private_key,
cert);
}
std::map<std::string, ServerBoundCertServiceJob*>::iterator j;
j = inflight_.find(server_identifier);
if (j == inflight_.end()) {
NOTREACHED();
return;
}
ServerBoundCertServiceJob* job = j->second;
inflight_.erase(j);
job->HandleResult(error, type, private_key, cert);
delete job;
}
int ServerBoundCertService::cert_count() {
return server_bound_cert_store_->GetCertCount();
}
} // namespace net
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