// Copyright (c) 2010 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.
#ifndef NET_SPDY_SPDY_TEST_UTIL_H_
#define NET_SPDY_SPDY_TEST_UTIL_H_
#pragma once
#include "base/basictypes.h"
#include "net/base/mock_host_resolver.h"
#include "net/base/request_priority.h"
#include "net/base/ssl_config_service_defaults.h"
#include "net/http/http_auth_handler_factory.h"
#include "net/http/http_cache.h"
#include "net/http/http_network_session.h"
#include "net/http/http_network_layer.h"
#include "net/http/http_transaction_factory.h"
#include "net/proxy/proxy_service.h"
#include "net/socket/socket_test_util.h"
#include "net/spdy/spdy_framer.h"
#include "net/spdy/spdy_session_pool.h"
#include "net/url_request/url_request_context.h"
namespace net {
// Default upload data used by both, mock objects and framer when creating
// data frames.
const char kDefaultURL[] = "http://www.google.com";
const char kUploadData[] = "hello!";
const int kUploadDataSize = arraysize(kUploadData)-1;
// NOTE: In GCC, on a Mac, this can't be in an anonymous namespace!
// This struct holds information used to construct spdy control and data frames.
struct SpdyHeaderInfo {
spdy::SpdyControlType kind;
spdy::SpdyStreamId id;
spdy::SpdyStreamId assoc_id;
spdy::SpdyPriority priority;
spdy::SpdyControlFlags control_flags;
bool compressed;
spdy::SpdyStatusCodes status;
const char* data;
uint32 data_length;
spdy::SpdyDataFlags data_flags;
};
// Chop a frame into an array of MockWrites.
// |data| is the frame to chop.
// |length| is the length of the frame to chop.
// |num_chunks| is the number of chunks to create.
MockWrite* ChopWriteFrame(const char* data, int length, int num_chunks);
// Chop a SpdyFrame into an array of MockWrites.
// |frame| is the frame to chop.
// |num_chunks| is the number of chunks to create.
MockWrite* ChopWriteFrame(const spdy::SpdyFrame& frame, int num_chunks);
// Chop a frame into an array of MockReads.
// |data| is the frame to chop.
// |length| is the length of the frame to chop.
// |num_chunks| is the number of chunks to create.
MockRead* ChopReadFrame(const char* data, int length, int num_chunks);
// Chop a SpdyFrame into an array of MockReads.
// |frame| is the frame to chop.
// |num_chunks| is the number of chunks to create.
MockRead* ChopReadFrame(const spdy::SpdyFrame& frame, int num_chunks);
// Adds headers and values to a map.
// |extra_headers| is an array of { name, value } pairs, arranged as strings
// where the even entries are the header names, and the odd entries are the
// header values.
// |headers| gets filled in from |extra_headers|.
void AppendHeadersToSpdyFrame(const char* const extra_headers[],
int extra_header_count,
spdy::SpdyHeaderBlock* headers);
// Writes |str| of the given |len| to the buffer pointed to by |buffer_handle|.
// Uses a template so buffer_handle can be a char* or an unsigned char*.
// Updates the |*buffer_handle| pointer by |len|
// Returns the number of bytes written into *|buffer_handle|
template<class T>
int AppendToBuffer(const char* str,
int len,
T** buffer_handle,
int* buffer_len_remaining) {
DCHECK_GT(len, 0);
DCHECK(NULL != buffer_handle) << "NULL buffer handle";
DCHECK(NULL != *buffer_handle) << "NULL pointer";
DCHECK(NULL != buffer_len_remaining)
<< "NULL buffer remainder length pointer";
DCHECK_GE(*buffer_len_remaining, len) << "Insufficient buffer size";
memcpy(*buffer_handle, str, len);
*buffer_handle += len;
*buffer_len_remaining -= len;
return len;
}
// Writes |val| to a location of size |len|, in big-endian format.
// in the buffer pointed to by |buffer_handle|.
// Updates the |*buffer_handle| pointer by |len|
// Returns the number of bytes written
int AppendToBuffer(int val,
int len,
unsigned char** buffer_handle,
int* buffer_len_remaining);
// Construct a SPDY packet.
// |head| is the start of the packet, up to but not including
// the header value pairs.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// |tail| is any (relatively constant) header-value pairs to add.
// |buffer| is the buffer we're filling in.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyPacket(const SpdyHeaderInfo& header_info,
const char* const extra_headers[],
int extra_header_count,
const char* const tail[],
int tail_header_count);
// Construct a generic SpdyControlFrame.
spdy::SpdyFrame* ConstructSpdyControlFrame(const char* const extra_headers[],
int extra_header_count,
bool compressed,
int stream_id,
RequestPriority request_priority,
spdy::SpdyControlType type,
spdy::SpdyControlFlags flags,
const char* const* kHeaders,
int kHeadersSize);
spdy::SpdyFrame* ConstructSpdyControlFrame(const char* const extra_headers[],
int extra_header_count,
bool compressed,
int stream_id,
RequestPriority request_priority,
spdy::SpdyControlType type,
spdy::SpdyControlFlags flags,
const char* const* kHeaders,
int kHeadersSize,
int associated_stream_id);
// Construct an expected SPDY reply string.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// |buffer| is the buffer we're filling in.
// Returns the number of bytes written into |buffer|.
int ConstructSpdyReplyString(const char* const extra_headers[],
int extra_header_count,
char* buffer,
int buffer_length);
// Construct an expected SPDY SETTINGS frame.
// |settings| are the settings to set.
// Returns the constructed frame. The caller takes ownership of the frame.
spdy::SpdyFrame* ConstructSpdySettings(spdy::SpdySettings settings);
// Construct a SPDY GOAWAY frame.
// Returns the constructed frame. The caller takes ownership of the frame.
spdy::SpdyFrame* ConstructSpdyGoAway();
// Construct a SPDY WINDOW_UPDATE frame.
// Returns the constructed frame. The caller takes ownership of the frame.
spdy::SpdyFrame* ConstructSpdyWindowUpdate(spdy::SpdyStreamId,
uint32 delta_window_size);
// Construct a SPDY RST_STREAM frame.
// Returns the constructed frame. The caller takes ownership of the frame.
spdy::SpdyFrame* ConstructSpdyRstStream(spdy::SpdyStreamId stream_id,
spdy::SpdyStatusCodes status);
// Construct a single SPDY header entry, for validation.
// |extra_headers| are the extra header-value pairs.
// |buffer| is the buffer we're filling in.
// |index| is the index of the header we want.
// Returns the number of bytes written into |buffer|.
int ConstructSpdyHeader(const char* const extra_headers[],
int extra_header_count,
char* buffer,
int buffer_length,
int index);
// Constructs a standard SPDY GET SYN packet, optionally compressed
// for the url |url|.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyGet(const char* const url,
bool compressed,
int stream_id,
RequestPriority request_priority);
// Constructs a standard SPDY GET SYN packet, optionally compressed.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyGet(const char* const extra_headers[],
int extra_header_count,
bool compressed,
int stream_id,
RequestPriority request_priority);
// Constructs a standard SPDY GET SYN packet, optionally compressed.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls. If |direct| is false, the
// the full url will be used instead of simply the path.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyGet(const char* const extra_headers[],
int extra_header_count,
bool compressed,
int stream_id,
RequestPriority request_priority,
bool direct);
// Constructs a standard SPDY push SYN packet.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyPush(const char* const extra_headers[],
int extra_header_count,
int stream_id,
int associated_stream_id);
spdy::SpdyFrame* ConstructSpdyPush(const char* const extra_headers[],
int extra_header_count,
int stream_id,
int associated_stream_id,
const char* path);
spdy::SpdyFrame* ConstructSpdyPush(const char* const extra_headers[],
int extra_header_count,
int stream_id,
int associated_stream_id,
const char* path,
const char* status,
const char* location,
const char* url);
// Constructs a standard SPDY SYN_REPLY packet to match the SPDY GET.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyGetSynReply(const char* const extra_headers[],
int extra_header_count,
int stream_id);
// Constructs a standard SPDY SYN_REPLY packet to match the SPDY GET.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyGetSynReplyRedirect(int stream_id);
// Constructs a standard SPDY POST SYN packet.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyPost(int64 content_length,
const char* const extra_headers[],
int extra_header_count);
// Constructs a standard SPDY SYN_REPLY packet to match the SPDY POST.
// |extra_headers| are the extra header-value pairs, which typically
// will vary the most between calls.
// Returns a SpdyFrame.
spdy::SpdyFrame* ConstructSpdyPostSynReply(const char* const extra_headers[],
int extra_header_count);
// Constructs a single SPDY data frame with the contents "hello!"
spdy::SpdyFrame* ConstructSpdyBodyFrame(int stream_id,
bool fin);
// Constructs a single SPDY data frame with the given content.
spdy::SpdyFrame* ConstructSpdyBodyFrame(int stream_id, const char* data,
uint32 len, bool fin);
// Create an async MockWrite from the given SpdyFrame.
MockWrite CreateMockWrite(const spdy::SpdyFrame& req);
// Create an async MockWrite from the given SpdyFrame and sequence number.
MockWrite CreateMockWrite(const spdy::SpdyFrame& req, int seq);
MockWrite CreateMockWrite(const spdy::SpdyFrame& req, int seq, bool async);
// Create a MockRead from the given SpdyFrame.
MockRead CreateMockRead(const spdy::SpdyFrame& resp);
// Create a MockRead from the given SpdyFrame and sequence number.
MockRead CreateMockRead(const spdy::SpdyFrame& resp, int seq);
MockRead CreateMockRead(const spdy::SpdyFrame& resp, int seq, bool async);
// Combines the given SpdyFrames into the given char array and returns
// the total length.
int CombineFrames(const spdy::SpdyFrame** frames, int num_frames,
char* buff, int buff_len);
// Helper to manage the lifetimes of the dependencies for a
// HttpNetworkTransaction.
class SpdySessionDependencies {
public:
// Default set of dependencies -- "null" proxy service.
SpdySessionDependencies()
: host_resolver(new MockHostResolver),
proxy_service(ProxyService::CreateNull()),
ssl_config_service(new SSLConfigServiceDefaults),
socket_factory(new MockClientSocketFactory),
deterministic_socket_factory(new DeterministicMockClientSocketFactory),
http_auth_handler_factory(HttpAuthHandlerFactory::CreateDefault()),
spdy_session_pool(new SpdySessionPool()) {
// Note: The CancelledTransaction test does cleanup by running all
// tasks in the message loop (RunAllPending). Unfortunately, that
// doesn't clean up tasks on the host resolver thread; and
// TCPConnectJob is currently not cancellable. Using synchronous
// lookups allows the test to shutdown cleanly. Until we have
// cancellable TCPConnectJobs, use synchronous lookups.
host_resolver->set_synchronous_mode(true);
}
// Custom proxy service dependency.
explicit SpdySessionDependencies(ProxyService* proxy_service)
: host_resolver(new MockHostResolver),
proxy_service(proxy_service),
ssl_config_service(new SSLConfigServiceDefaults),
socket_factory(new MockClientSocketFactory),
deterministic_socket_factory(new DeterministicMockClientSocketFactory),
http_auth_handler_factory(HttpAuthHandlerFactory::CreateDefault()),
spdy_session_pool(new SpdySessionPool()) {}
scoped_refptr<MockHostResolverBase> host_resolver;
scoped_refptr<ProxyService> proxy_service;
scoped_refptr<SSLConfigService> ssl_config_service;
scoped_ptr<MockClientSocketFactory> socket_factory;
scoped_ptr<DeterministicMockClientSocketFactory> deterministic_socket_factory;
scoped_ptr<HttpAuthHandlerFactory> http_auth_handler_factory;
scoped_refptr<SpdySessionPool> spdy_session_pool;
static HttpNetworkSession* SpdyCreateSession(
SpdySessionDependencies* session_deps) {
return new HttpNetworkSession(session_deps->host_resolver,
session_deps->proxy_service,
session_deps->socket_factory.get(),
session_deps->ssl_config_service,
session_deps->spdy_session_pool,
session_deps->http_auth_handler_factory.get(),
NULL,
NULL);
}
static HttpNetworkSession* SpdyCreateSessionDeterministic(
SpdySessionDependencies* session_deps) {
return new HttpNetworkSession(session_deps->host_resolver,
session_deps->proxy_service,
session_deps->
deterministic_socket_factory.get(),
session_deps->ssl_config_service,
session_deps->spdy_session_pool,
session_deps->http_auth_handler_factory.get(),
NULL,
NULL);
}
};
class SpdyURLRequestContext : public URLRequestContext {
public:
SpdyURLRequestContext() {
host_resolver_ = new MockHostResolver;
proxy_service_ = ProxyService::CreateNull();
spdy_session_pool_ = new SpdySessionPool();
ssl_config_service_ = new SSLConfigServiceDefaults;
http_auth_handler_factory_ = HttpAuthHandlerFactory::CreateDefault();
http_transaction_factory_ = new net::HttpCache(
new HttpNetworkLayer(&socket_factory_,
host_resolver_,
proxy_service_,
ssl_config_service_,
spdy_session_pool_.get(),
http_auth_handler_factory_,
network_delegate_,
NULL),
net::HttpCache::DefaultBackend::InMemory(0));
}
MockClientSocketFactory& socket_factory() { return socket_factory_; }
protected:
virtual ~SpdyURLRequestContext() {
delete http_transaction_factory_;
delete http_auth_handler_factory_;
}
private:
MockClientSocketFactory socket_factory_;
scoped_refptr<SpdySessionPool> spdy_session_pool_;
};
const SpdyHeaderInfo make_spdy_header(spdy::SpdyControlType type);
} // namespace net
#endif // NET_SPDY_SPDY_TEST_UTIL_H_