ppapi/tests/test_udp_socket_private.cc - Issue 10735056: AllowBroadcast() is exposed to NaCl.

Unified Diff: ppapi/tests/test_udp_socket_private.cc

Issue 10735056: AllowBroadcast() is exposed to NaCl. (Closed) Base URL: http://git.chromium.org/chromium/src.git@udp_broadcast

Patch Set: Sync. Created 8 years, 4 months ago

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Index: ppapi/tests/test_udp_socket_private.cc

diff --git a/ppapi/tests/test_udp_socket_private.cc b/ppapi/tests/test_udp_socket_private.cc

index 6251f76d0157aaa833f08dd19e9799947289a1ea..4680ff2a1390ff4cb091d6271262217cf6da383d 100644

--- a/ppapi/tests/test_udp_socket_private.cc

+++ b/ppapi/tests/test_udp_socket_private.cc

@@ -3,10 +3,12 @@

// found in the LICENSE file.

#include <cstring>

+#include <vector>

#include "ppapi/cpp/module.h"

#include "ppapi/cpp/private/net_address_private.h"

#include "ppapi/cpp/private/tcp_socket_private.h"

+#include "ppapi/cpp/var.h"

#include "ppapi/tests/test_udp_socket_private.h"

#include "ppapi/tests/test_utils.h"

#include "ppapi/tests/testing_instance.h"

@@ -54,6 +56,8 @@ bool TestUDPSocketPrivate::Init() {

void TestUDPSocketPrivate::RunTests(const std::string& filter) {

RUN_TEST_FORCEASYNC_AND_NOT(Connect, filter);

RUN_TEST_FORCEASYNC_AND_NOT(ConnectFailure, filter);

+ RUN_TEST_FORCEASYNC_AND_NOT(Broadcast, filter);

+ RUN_TEST_FORCEASYNC_AND_NOT(SetSocketFeatureErrors, filter);

}

std::string TestUDPSocketPrivate::GetLocalAddress(

@@ -73,8 +77,36 @@ std::string TestUDPSocketPrivate::GetLocalAddress(

PASS();

}

+std::string TestUDPSocketPrivate::SetBroadcastOptions(

+ pp::UDPSocketPrivate* socket) {

+ int32_t rv = socket->SetSocketFeature(PP_UDPSOCKETFEATURE_ADDRESS_REUSE,

+ pp::Var(true));

+ if (rv != PP_OK)

+ return ReportError("PPB_UDPSocket_Private::SetSocketFeature", rv);

+ rv = socket->SetSocketFeature(PP_UDPSOCKETFEATURE_BROADCAST, pp::Var(true));

+ if (rv != PP_OK)

+ return ReportError("PPB_UDPSocket_Private::SetSocketFeature", rv);

+ PASS();

std::string TestUDPSocketPrivate::BindUDPSocket(

pp::UDPSocketPrivate* socket,

+ PP_NetAddress_Private* address) {

+ TestCompletionCallback callback(instance_->pp_instance(), force_async_);

+ int32_t rv = socket->Bind(address, callback);

+ if (force_async_ && rv != PP_OK_COMPLETIONPENDING)

+ return ReportError("PPB_UDPSocket_Private::Bind force_async", rv);

+ if (rv == PP_OK_COMPLETIONPENDING)

+ rv = callback.WaitForResult();

+ if (rv != PP_OK)

+ return ReportError("PPB_UDPSocket_Private::Bind", rv);

+ PASS();

+std::string TestUDPSocketPrivate::LookupPortAndBindUDPSocket(

+ pp::UDPSocketPrivate* socket,

PP_NetAddress_Private *address) {

PP_NetAddress_Private base_address;

ASSERT_SUBTEST_SUCCESS(GetLocalAddress(&base_address));

@@ -83,13 +115,7 @@ std::string TestUDPSocketPrivate::BindUDPSocket(

for (uint16_t port = kPortScanFrom; port < kPortScanTo; ++port) {

if (!pp::NetAddressPrivate::ReplacePort(base_address, port, address))

return "PPB_NetAddress_Private::ReplacePort: Failed";

- TestCompletionCallback callback(instance_->pp_instance(), force_async_);

- int32_t rv = socket->Bind(address, callback);

- if (force_async_ && rv != PP_OK_COMPLETIONPENDING)

- return ReportError("PPB_UDPSocket_Private::Bind force_async", rv);

- if (rv == PP_OK_COMPLETIONPENDING)

- rv = callback.WaitForResult();

- if (rv == PP_OK) {

+ if (BindUDPSocket(socket, address).empty()) {

is_free_port_found = true;

break;

}

@@ -117,53 +143,67 @@ std::string TestUDPSocketPrivate::BindUDPSocketFailure(

PASS();

}

+std::string TestUDPSocketPrivate::ReadSocket(pp::UDPSocketPrivate* socket,

+ PP_NetAddress_Private* address,

+ size_t size,

+ std::string* message) {

+ std::vector<char> buffer(size);

+ TestCompletionCallback callback(instance_->pp_instance(), force_async_);

+ int32_t rv = socket->RecvFrom(&buffer[0], size, callback);

+ if (force_async_ && rv != PP_OK_COMPLETIONPENDING)

+ return ReportError("PPB_UDPSocket_Private::RecvFrom force_async", rv);

+ if (rv == PP_OK_COMPLETIONPENDING)

+ rv = callback.WaitForResult();

+ if (rv < 0 || size != static_cast<size_t>(rv))

+ return ReportError("PPB_UDPSocket_Private::RecvFrom", rv);

+ message->assign(buffer.begin(), buffer.end());

+ PASS();

+std::string TestUDPSocketPrivate::PassMessage(pp::UDPSocketPrivate* target,

+ pp::UDPSocketPrivate* source,

+ PP_NetAddress_Private* address,

+ const std::string& message) {

+ TestCompletionCallback callback(instance_->pp_instance(), force_async_);

+ int32_t rv = source->SendTo(message.c_str(), message.size(), address,

+ callback);

+ if (force_async_ && rv != PP_OK_COMPLETIONPENDING)

+ return ReportError("PPB_UDPSocket_Private::SendTo force_async", rv);

+ std::string str;

+ ASSERT_SUBTEST_SUCCESS(ReadSocket(target, address, message.size(), &str));

+ if (rv == PP_OK_COMPLETIONPENDING)

+ rv = callback.WaitForResult();

+ if (rv < 0 || message.size() != static_cast<size_t>(rv))

+ return ReportError("PPB_UDPSocket_Private::SendTo", rv);

+ ASSERT_EQ(message, str);

+ PASS();

std::string TestUDPSocketPrivate::TestConnect() {

pp::UDPSocketPrivate server_socket(instance_), client_socket(instance_);

PP_NetAddress_Private server_address, client_address;

- ASSERT_SUBTEST_SUCCESS(BindUDPSocket(&server_socket, &server_address));

- ASSERT_SUBTEST_SUCCESS(BindUDPSocket(&client_socket, &client_address));

- static const char* const kMessage =

- "Simple message that will be sent via UDP";

- static const size_t kMessageBufferSize = 1024;

- char message_buffer[kMessageBufferSize];

- TestCompletionCallback write_callback(instance_->pp_instance(), force_async_);

- int32_t write_rv = client_socket.SendTo(kMessage, strlen(kMessage),

- &server_address,

- write_callback);

- if (force_async_ && write_rv != PP_OK_COMPLETIONPENDING)

- return ReportError("PPB_UDPSocket_Private::SendTo force_async", write_rv);

- TestCompletionCallback read_callback(instance_->pp_instance(), force_async_);

- int32_t read_rv = server_socket.RecvFrom(message_buffer, strlen(kMessage),

- read_callback);

- if (force_async_ && read_rv != PP_OK_COMPLETIONPENDING)

- return ReportError("PPB_UDPSocket_Private::RecvFrom force_async", read_rv);

- if (read_rv == PP_OK_COMPLETIONPENDING)

- read_rv = read_callback.WaitForResult();

- if (read_rv < 0 || strlen(kMessage) != static_cast<size_t>(read_rv))

- return ReportError("PPB_UDPSocket_Private::RecvFrom", read_rv);

- if (write_rv == PP_OK_COMPLETIONPENDING)

- write_rv = write_callback.WaitForResult();

- if (write_rv < 0 || strlen(kMessage) != static_cast<size_t>(write_rv))

- return ReportError("PPB_UDPSocket_Private::SendTo", write_rv);

+ ASSERT_SUBTEST_SUCCESS(LookupPortAndBindUDPSocket(&server_socket,

+ &server_address));

+ ASSERT_SUBTEST_SUCCESS(LookupPortAndBindUDPSocket(&client_socket,

+ &client_address));

+ const std::string message = "Simple message that will be sent via UDP";

+ ASSERT_SUBTEST_SUCCESS(PassMessage(&server_socket, &client_socket,

+ &server_address,

+ message));

PP_NetAddress_Private recv_from_address;

ASSERT_TRUE(server_socket.GetRecvFromAddress(&recv_from_address));

ASSERT_TRUE(pp::NetAddressPrivate::AreEqual(recv_from_address,

client_address));

- ASSERT_EQ(0, strncmp(kMessage, message_buffer, strlen(kMessage)));

server_socket.Close();

client_socket.Close();

if (server_socket.GetBoundAddress(&server_address))

return "PPB_UDPSocket_Private::GetBoundAddress: expected Failure";

PASS();

}

@@ -177,3 +217,60 @@ std::string TestUDPSocketPrivate::TestConnectFailure() {

PASS();

}

+std::string TestUDPSocketPrivate::TestBroadcast() {

+ const uint8_t broadcast_ip[4] = { 0xff, 0xff, 0xff, 0xff };

+ pp::UDPSocketPrivate server1(instance_), server2(instance_);

+ ASSERT_SUBTEST_SUCCESS(SetBroadcastOptions(&server1));

+ ASSERT_SUBTEST_SUCCESS(SetBroadcastOptions(&server2));

+ PP_NetAddress_Private server_address;

+ ASSERT_TRUE(pp::NetAddressPrivate::GetAnyAddress(false, &server_address));

+ ASSERT_SUBTEST_SUCCESS(BindUDPSocket(&server1, &server_address));

+ // Fill port field of |server_address|.

+ ASSERT_TRUE(server1.GetBoundAddress(&server_address));

+ ASSERT_SUBTEST_SUCCESS(BindUDPSocket(&server2, &server_address));

+ const uint16_t port = pp::NetAddressPrivate::GetPort(server_address);

+ PP_NetAddress_Private broadcast_address;

+ ASSERT_TRUE(pp::NetAddressPrivate::CreateFromIPv4Address(

+ broadcast_ip, port, &broadcast_address));

+ std::string message;

+ const std::string first_message = "first message";

+ const std::string second_message = "second_message";

+ ASSERT_SUBTEST_SUCCESS(PassMessage(&server1, &server2,

+ &broadcast_address,

+ first_message));

+ // |first_message| also arrived to |server2|.

+ ASSERT_SUBTEST_SUCCESS(ReadSocket(&server2, &broadcast_address,

+ first_message.size(), &message));

+ ASSERT_EQ(first_message, message);

+ ASSERT_SUBTEST_SUCCESS(PassMessage(&server2, &server1,

+ &broadcast_address,

+ second_message));

+ // |second_message| also arrived to |server1|.

+ ASSERT_SUBTEST_SUCCESS(ReadSocket(&server1, &broadcast_address,

+ second_message.size(), &message));

+ ASSERT_EQ(second_message, message);

+ server1.Close();

+ server2.Close();

+ PASS();

+std::string TestUDPSocketPrivate::TestSetSocketFeatureErrors() {

+ pp::UDPSocketPrivate socket(instance_);

+ // Try to pass incorrect feature name.

+ int32_t rv = socket.SetSocketFeature(PP_UDPSOCKETFEATURE_COUNT,

+ pp::Var(true));

+ ASSERT_EQ(PP_ERROR_BADARGUMENT, rv);

+ // Try to pass incorrect feature value's type.

+ rv = socket.SetSocketFeature(PP_UDPSOCKETFEATURE_ADDRESS_REUSE, pp::Var(1));

+ ASSERT_EQ(PP_ERROR_BADARGUMENT, rv);

+ PASS();

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