This source file includes following definitions.
- classname
- RunCompletionCallback
- Create
- GetCanonicalName
- GetNetAddressCount
- GetNetAddress
#include "fake_ppapi/fake_host_resolver_interface.h"
#include <netinet/in.h>
#include "fake_ppapi/fake_pepper_interface.h"
#include "fake_ppapi/fake_resource_manager.h"
#include "fake_ppapi/fake_var_manager.h"
#include "gtest/gtest.h"
namespace {
class FakeHostResolverResource : public FakeResource {
public:
FakeHostResolverResource() : resolved(false) {}
static const char* classname() { return "FakeHostResolverResource"; }
bool resolved;
PP_HostResolver_Hint hints;
};
int32_t RunCompletionCallback(PP_CompletionCallback* callback, int32_t result) {
if (callback->func) {
PP_RunCompletionCallback(callback, result);
return PP_OK_COMPLETIONPENDING;
}
return result;
}
}
FakeHostResolverInterface::FakeHostResolverInterface(FakePepperInterface* ppapi)
: ppapi_(ppapi) {}
PP_Resource FakeHostResolverInterface::Create(PP_Instance instance) {
if (instance != ppapi_->GetInstance())
return PP_ERROR_BADRESOURCE;
FakeHostResolverResource* resolver_resource = new FakeHostResolverResource();
return CREATE_RESOURCE(ppapi_->resource_manager(),
FakeHostResolverResource,
resolver_resource);
}
int32_t FakeHostResolverInterface::Resolve(PP_Resource resource,
const char* hostname,
uint16_t,
const PP_HostResolver_Hint* hints,
PP_CompletionCallback callback) {
FakeHostResolverResource* resolver =
ppapi_->resource_manager()->Get<FakeHostResolverResource>(resource);
resolver->resolved = false;
resolver->hints = *hints;
if (!fake_hostname.empty() && fake_hostname == hostname) {
resolver->resolved = true;
return RunCompletionCallback(&callback, PP_OK);
}
return RunCompletionCallback(&callback, PP_ERROR_NAME_NOT_RESOLVED);
}
PP_Var FakeHostResolverInterface::GetCanonicalName(PP_Resource resource) {
FakeHostResolverResource* res =
ppapi_->resource_manager()->Get<FakeHostResolverResource>(resource);
if (!res->resolved)
return PP_Var();
return ppapi_->GetVarInterface()->VarFromUtf8(fake_hostname.data(),
fake_hostname.length());
}
uint32_t FakeHostResolverInterface::GetNetAddressCount(PP_Resource resolver) {
FakeHostResolverResource* res =
ppapi_->resource_manager()->Get<FakeHostResolverResource>(resolver);
if (!res->resolved)
return 0;
uint32_t rtn = 0;
if (res->hints.family == PP_NETADDRESS_FAMILY_IPV6 ||
res->hints.family == PP_NETADDRESS_FAMILY_UNSPECIFIED)
rtn += fake_addresses_v6.size();
if (res->hints.family == PP_NETADDRESS_FAMILY_IPV4 ||
res->hints.family == PP_NETADDRESS_FAMILY_UNSPECIFIED)
rtn += fake_addresses_v4.size();
return rtn;
}
PP_Resource FakeHostResolverInterface::GetNetAddress(PP_Resource resource,
uint32_t index) {
FakeHostResolverResource* res =
ppapi_->resource_manager()->Get<FakeHostResolverResource>(resource);
if (!res->resolved)
return 0;
bool include_v4 = false;
int max_index = 0;
switch (res->hints.family) {
case PP_NETADDRESS_FAMILY_IPV4:
max_index = fake_addresses_v4.size();
include_v4 = true;
break;
case PP_NETADDRESS_FAMILY_IPV6:
max_index = fake_addresses_v6.size();
break;
case PP_NETADDRESS_FAMILY_UNSPECIFIED:
include_v4 = true;
max_index = fake_addresses_v4.size() + fake_addresses_v6.size();
break;
default:
return 0;
}
if (index >= max_index)
return 0;
nacl_io::NetAddressInterface* iface = ppapi_->GetNetAddressInterface();
if (include_v4 && index < fake_addresses_v4.size()) {
PP_NetAddress_IPv4 addr;
sockaddr_in& addr4 = fake_addresses_v4[index];
memcpy(addr.addr, &addr4.sin_addr, sizeof(addr4.sin_addr));
return iface->CreateFromIPv4Address(ppapi_->GetInstance(), &addr);
} else {
if (include_v4)
index -= fake_addresses_v4.size();
PP_NetAddress_IPv6 addr;
sockaddr_in6& addr6 = fake_addresses_v6[index];
memcpy(addr.addr, &addr6.sin6_addr, sizeof(addr6.sin6_addr));
return iface->CreateFromIPv6Address(ppapi_->GetInstance(), &addr);
}
}