Gitiles
Code Review Sign In
gerrit-public.fairphone.software / platform / packages / modules / adb / refs/heads/odm/rc/qssi/12/fp4 / . / client / mdnsresponder_client.cpp
blob: 8ff38b5573963fcff07ab30c3861aaa8e4082fa5 [file] [log] [blame]
/*
* Copyright (C) 2020 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define TRACE_TAG TRANSPORT
#include "transport.h"
#ifdef _WIN32
#include <winsock2.h>
#else
#include <arpa/inet.h>
#endif
#include <memory>
#include <thread>
#include <vector>
#include <android-base/stringprintf.h>
#include <android-base/strings.h>
#include <dns_sd.h>
#include "adb_client.h"
#include "adb_mdns.h"
#include "adb_trace.h"
#include "adb_utils.h"
#include "adb_wifi.h"
#include "client/mdns_utils.h"
#include "fdevent/fdevent.h"
#include "sysdeps.h"
// TODO: Remove this file once openscreen has bonjour client APIs implemented.
namespace {
DNSServiceRef g_service_refs[kNumADBDNSServices];
fdevent* g_service_ref_fdes[kNumADBDNSServices];
// Use adb_DNSServiceRefSockFD() instead of calling DNSServiceRefSockFD()
// directly so that the socket is put through the appropriate compatibility
// layers to work with the rest of ADB's internal APIs.
int adb_DNSServiceRefSockFD(DNSServiceRef ref) {
return adb_register_socket(DNSServiceRefSockFD(ref));
}
#define DNSServiceRefSockFD ___xxx_DNSServiceRefSockFD
void DNSSD_API register_service_ip(DNSServiceRef sdref, DNSServiceFlags flags,
uint32_t interface_index, DNSServiceErrorType error_code,
const char* hostname, const sockaddr* address, uint32_t ttl,
void* context);
void pump_service_ref(int /*fd*/, unsigned ev, void* data) {
DNSServiceRef* ref = reinterpret_cast<DNSServiceRef*>(data);
if (ev & FDE_READ) DNSServiceProcessResult(*ref);
}
class AsyncServiceRef {
public:
bool Initialized() const { return initialized_; }
void DestroyServiceRef() {
if (!initialized_) {
return;
}
// Order matters here! Must destroy the fdevent first since it has a
// reference to |sdref_|.
fdevent_destroy(fde_);
D("DNSServiceRefDeallocate(sdref=%p)", sdref_);
DNSServiceRefDeallocate(sdref_);
initialized_ = false;
}
virtual ~AsyncServiceRef() { DestroyServiceRef(); }
protected:
DNSServiceRef sdref_;
void Initialize() {
fde_ = fdevent_create(adb_DNSServiceRefSockFD(sdref_), pump_service_ref, &sdref_);
if (fde_ == nullptr) {
D("Unable to create fdevent");
return;
}
fdevent_set(fde_, FDE_READ);
initialized_ = true;
}
private:
bool initialized_ = false;
fdevent* fde_;
};
class ResolvedService : public AsyncServiceRef {
public:
virtual ~ResolvedService() = default;
ResolvedService(const std::string& service_name, const std::string& reg_type,
uint32_t interface_index, const std::string& host_target, uint16_t port,
int version)
: service_name_(service_name),
reg_type_(reg_type),
host_target_(host_target),
port_(port),
sa_family_(0),
service_version_(version) {
/* TODO: We should be able to get IPv6 support by adding
* kDNSServiceProtocol_IPv6 to the flags below. However, when we do
* this, we get served link-local addresses that are usually useless to
* connect to. What's more, we seem to /only/ get those and nothing else.
* If we want IPv6 in the future we'll have to figure out why.
*/
DNSServiceErrorType ret = DNSServiceGetAddrInfo(
&sdref_, 0, interface_index, kDNSServiceProtocol_IPv4, host_target_.c_str(),
register_service_ip, reinterpret_cast<void*>(this));
if (ret != kDNSServiceErr_NoError) {
D("Got %d from DNSServiceGetAddrInfo.", ret);
} else {
D("DNSServiceGetAddrInfo(sdref=%p, host_target=%s)", sdref_, host_target_.c_str());
Initialize();
}
D("Client version: %d Service version: %d\n", clientVersion_, service_version_);
}
bool ConnectSecureWifiDevice() {
if (!adb_wifi_is_known_host(service_name_)) {
LOG(INFO) << "service_name=" << service_name_ << " not in keystore";
return false;
}
std::string response;
connect_device(
android::base::StringPrintf("%s.%s", service_name_.c_str(), reg_type_.c_str()),
&response);
D("Secure connect to %s regtype %s (%s:%hu) : %s", service_name_.c_str(), reg_type_.c_str(),
ip_addr_.c_str(), port_, response.c_str());
return true;
}
bool RegisterIpAddress(const sockaddr* address) {
sa_family_ = address->sa_family;
const void* ip_addr_data;
if (sa_family_ == AF_INET) {
ip_addr_data = &reinterpret_cast<const sockaddr_in*>(address)->sin_addr;
addr_format_ = "%s:%hu";
} else if (sa_family_ == AF_INET6) {
ip_addr_data = &reinterpret_cast<const sockaddr_in6*>(address)->sin6_addr;
addr_format_ = "[%s]:%hu";
} else { // Should be impossible
D("mDNS resolved non-IP address.");
return false;
}
// Winsock version requires the const cast mingw defines inet_ntop differently from msvc.
char ip_addr[INET6_ADDRSTRLEN] = {};
if (!inet_ntop(sa_family_, const_cast<void*>(ip_addr_data), ip_addr, sizeof(ip_addr))) {
D("Could not convert IP address to string.");
return false;
}
ip_addr_ = ip_addr;
return true;
}
static void AddToServiceRegistry(std::unique_ptr<ResolvedService> service) {
// Add to the service registry before trying to auto-connect, since socket_spec_connect will
// check these registries for the ip address when connecting via mdns instance name.
auto service_index = service->service_index();
if (!service_index) {
return;
}
// Remove any services with the same instance name, as it may be a stale registration.
RemoveDNSService(service->reg_type(), service->service_name());
ServiceRegistry* services = nullptr;
switch (*service_index) {
case kADBTransportServiceRefIndex:
services = sAdbTransportServices;
break;
case kADBSecurePairingServiceRefIndex:
services = sAdbSecurePairingServices;
break;
case kADBSecureConnectServiceRefIndex:
services = sAdbSecureConnectServices;
break;
default:
LOG(WARNING) << "No registry available for reg_type=[" << service->reg_type()
<< "]";
return;
}
services->push_back(std::move(service));
const auto& s = services->back();
auto reg_type = s->reg_type();
auto service_name = s->service_name();
auto ip_addr = s->ip_address();
auto port = s->port();
if (adb_DNSServiceShouldAutoConnect(reg_type, service_name)) {
std::string response;
D("Attempting to connect service_name=[%s], regtype=[%s] ip_addr=(%s:%hu)",
service_name.c_str(), reg_type.c_str(), ip_addr.c_str(), port);
if (*service_index == kADBSecureConnectServiceRefIndex) {
s->ConnectSecureWifiDevice();
} else {
connect_device(android::base::StringPrintf("%s.%s", service_name.c_str(),
reg_type.c_str()),
&response);
D("Connect to %s regtype %s (%s:%hu) : %s", service_name.c_str(), reg_type.c_str(),
ip_addr.c_str(), port, response.c_str());
}
} else {
D("Not immediately connecting to service_name=[%s], regtype=[%s] ip_addr=(%s:%hu)",
service_name.c_str(), reg_type.c_str(), ip_addr.c_str(), port);
}
}
std::optional<int> service_index() const {
return adb_DNSServiceIndexByName(reg_type_.c_str());
}
const std::string& host_target() const { return host_target_; }
const std::string& service_name() const { return service_name_; }
const std::string& reg_type() const { return reg_type_; }
const std::string& ip_address() const { return ip_addr_; }
uint16_t port() const { return port_; }
using ServiceRegistry = std::vector<std::unique_ptr<ResolvedService>>;
// unencrypted tcp connections
static ServiceRegistry* sAdbTransportServices;
static ServiceRegistry* sAdbSecurePairingServices;
static ServiceRegistry* sAdbSecureConnectServices;
static void InitAdbServiceRegistries();
static void ForEachService(const ServiceRegistry& services, const std::string& hostname,
adb_secure_foreach_service_callback cb);
static bool ConnectByServiceName(const ServiceRegistry& services,
const std::string& service_name);
static void RemoveDNSService(const std::string& reg_type, const std::string& service_name);
private:
int clientVersion_ = ADB_SECURE_CLIENT_VERSION;
std::string addr_format_;
std::string service_name_;
std::string reg_type_;
std::string host_target_;
const uint16_t port_;
int sa_family_;
std::string ip_addr_;
int service_version_;
};
// static
ResolvedService::ServiceRegistry* ResolvedService::sAdbTransportServices = NULL;
// static
ResolvedService::ServiceRegistry* ResolvedService::sAdbSecurePairingServices = NULL;
// static
ResolvedService::ServiceRegistry* ResolvedService::sAdbSecureConnectServices = NULL;
// static
void ResolvedService::InitAdbServiceRegistries() {
if (!sAdbTransportServices) {
sAdbTransportServices = new ServiceRegistry;
}
if (!sAdbSecurePairingServices) {
sAdbSecurePairingServices = new ServiceRegistry;
}
if (!sAdbSecureConnectServices) {
sAdbSecureConnectServices = new ServiceRegistry;
}
}
// static
void ResolvedService::ForEachService(const ServiceRegistry& services,
const std::string& wanted_service_name,
adb_secure_foreach_service_callback cb) {
InitAdbServiceRegistries();
for (const auto& service : services) {
auto service_name = service->service_name();
auto reg_type = service->reg_type();
auto ip = service->ip_address();
auto port = service->port();
if (wanted_service_name.empty()) {
cb(service_name.c_str(), reg_type.c_str(), ip.c_str(), port);
} else if (service_name == wanted_service_name) {
cb(service_name.c_str(), reg_type.c_str(), ip.c_str(), port);
}
}
}
// static
bool ResolvedService::ConnectByServiceName(const ServiceRegistry& services,
const std::string& service_name) {
InitAdbServiceRegistries();
for (const auto& service : services) {
auto wanted_name = service->service_name();
if (wanted_name == service_name) {
D("Got service_name match [%s]", wanted_name.c_str());
return service->ConnectSecureWifiDevice();
}
}
D("No registered service_names matched [%s]", service_name.c_str());
return false;
}
// static
void ResolvedService::RemoveDNSService(const std::string& reg_type,
const std::string& service_name) {
D("%s: reg_type=[%s] service_name=[%s]", __func__, reg_type.c_str(), service_name.c_str());
auto index = adb_DNSServiceIndexByName(reg_type);
if (!index) {
return;
}
ServiceRegistry* services;
switch (*index) {
case kADBTransportServiceRefIndex:
services = sAdbTransportServices;
break;
case kADBSecurePairingServiceRefIndex:
services = sAdbSecurePairingServices;
break;
case kADBSecureConnectServiceRefIndex:
services = sAdbSecureConnectServices;
break;
default:
return;
}
if (services->empty()) {
return;
}
services->erase(std::remove_if(services->begin(), services->end(),
[&service_name](std::unique_ptr<ResolvedService>& service) {
return (service_name == service->service_name());
}),
services->end());
}
void DNSSD_API register_service_ip(DNSServiceRef sdref, DNSServiceFlags flags,
uint32_t /*interface_index*/, DNSServiceErrorType error_code,
const char* hostname, const sockaddr* address, uint32_t ttl,
void* context) {
D("%s: sdref=%p flags=0x%08x error_code=%u ttl=%u", __func__, sdref, flags, error_code, ttl);
std::unique_ptr<ResolvedService> data(static_cast<ResolvedService*>(context));
// Only resolve the address once. If the address or port changes, we'll just get another
// registration.
data->DestroyServiceRef();
if (error_code != kDNSServiceErr_NoError) {
D("Got error while looking up ip_addr [%u]", error_code);
return;
}
if (flags & kDNSServiceFlagsAdd) {
if (data->RegisterIpAddress(address)) {
D("Resolved IP address for [%s]. Adding to service registry.", hostname);
ResolvedService::AddToServiceRegistry(std::move(data));
}
}
}
void DNSSD_API register_resolved_mdns_service(DNSServiceRef sdref, DNSServiceFlags flags,
uint32_t interface_index,
DNSServiceErrorType error_code, const char* fullname,
const char* host_target, uint16_t port,
uint16_t txt_len, const unsigned char* txt_record,
void* context);
class DiscoveredService : public AsyncServiceRef {
public:
DiscoveredService(uint32_t interface_index, const char* service_name, const char* regtype,
const char* domain)
: service_name_(service_name), reg_type_(regtype) {
DNSServiceErrorType ret =
DNSServiceResolve(&sdref_, 0, interface_index, service_name, regtype, domain,
register_resolved_mdns_service, reinterpret_cast<void*>(this));
D("DNSServiceResolve for "
"interface_index %u "
"service_name %s "
"regtype %s "
"domain %s "
": %d",
interface_index, service_name, regtype, domain, ret);
if (ret == kDNSServiceErr_NoError) {
Initialize();
}
}
const std::string& service_name() { return service_name_; }
const std::string& reg_type() { return reg_type_; }
private:
std::string service_name_;
std::string reg_type_;
};
// Returns the version the device wanted to advertise,
// or -1 if parsing fails.
int ParseVersionFromTxtRecord(uint16_t txt_len, const unsigned char* txt_record) {
if (!txt_len) return -1;
if (!txt_record) return -1;
// https://tools.ietf.org/html/rfc6763
// """
// 6.1. General Format Rules for DNS TXT Records
//
// A DNS TXT record can be up to 65535 (0xFFFF) bytes long. The total
// length is indicated by the length given in the resource record header
// in the DNS message. There is no way to tell directly from the data
// alone how long it is (e.g., there is no length count at the start, or
// terminating NULL byte at the end).
// """
// Let's trust the TXT record's length byte
// Worst case, it wastes 255 bytes
std::vector<char> record_str(txt_len + 1, '\0');
char* str = record_str.data();
memcpy(str, txt_record + 1 /* skip the length byte */, txt_len);
// Check if it's the version key
static const char* version_key = "v=";
size_t version_key_len = strlen(version_key);
if (strncmp(version_key, str, version_key_len)) return -1;
auto value_start = str + version_key_len;
long parsed_number = strtol(value_start, 0, 10);
// No valid conversion. Also, 0
// is not a valid version.
if (!parsed_number) return -1;
// Outside bounds of int.
if (parsed_number < INT_MIN || parsed_number > INT_MAX) return -1;
// Possibly valid version
return static_cast<int>(parsed_number);
}
void DNSSD_API register_resolved_mdns_service(DNSServiceRef sdref, DNSServiceFlags flags,
uint32_t interface_index,
DNSServiceErrorType error_code, const char* fullname,
const char* host_target, uint16_t port,
uint16_t txt_len, const unsigned char* txt_record,
void* context) {
D("Resolved a service.");
std::unique_ptr<DiscoveredService> discovered(reinterpret_cast<DiscoveredService*>(context));
if (error_code != kDNSServiceErr_NoError) {
D("Got error %d resolving service.", error_code);
return;
}
// TODO: Reject certain combinations of invalid or mismatched client and
// service versions here before creating anything.
// At the moment, there is nothing to reject, so accept everything
// as an optimistic default.
auto service_version = ParseVersionFromTxtRecord(txt_len, txt_record);
auto resolved = new ResolvedService(discovered->service_name(), discovered->reg_type(),
interface_index, host_target, ntohs(port), service_version);
if (!resolved->Initialized()) {
D("Unable to init resolved service");
delete resolved;
}
if (flags) { /* Only ever equals MoreComing or 0 */
D("releasing discovered service");
discovered.release();
}
}
void DNSSD_API on_service_browsed(DNSServiceRef sdref, DNSServiceFlags flags,
uint32_t interface_index, DNSServiceErrorType error_code,
const char* service_name, const char* regtype, const char* domain,
void* /*context*/) {
if (error_code != kDNSServiceErr_NoError) {
D("Got error %d during mDNS browse.", error_code);
DNSServiceRefDeallocate(sdref);
auto service_index = adb_DNSServiceIndexByName(regtype);
if (service_index) {
fdevent_destroy(g_service_ref_fdes[*service_index]);
}
return;
}
if (flags & kDNSServiceFlagsAdd) {
D("%s: Discover found new service_name=[%s] regtype=[%s] domain=[%s]", __func__,
service_name, regtype, domain);
auto discovered = new DiscoveredService(interface_index, service_name, regtype, domain);
if (!discovered->Initialized()) {
delete discovered;
}
} else {
D("%s: Discover lost service_name=[%s] regtype=[%s] domain=[%s]", __func__, service_name,
regtype, domain);
ResolvedService::RemoveDNSService(regtype, service_name);
}
}
void init_mdns_transport_discovery_thread(void) {
int error_codes[kNumADBDNSServices];
for (int i = 0; i < kNumADBDNSServices; ++i) {
error_codes[i] = DNSServiceBrowse(&g_service_refs[i], 0, 0, kADBDNSServices[i], nullptr,
on_service_browsed, nullptr);
if (error_codes[i] != kDNSServiceErr_NoError) {
D("Got %d browsing for mDNS service %s.", error_codes[i], kADBDNSServices[i]);
} else {
fdevent_run_on_main_thread([i]() {
g_service_ref_fdes[i] = fdevent_create(adb_DNSServiceRefSockFD(g_service_refs[i]),
pump_service_ref, &g_service_refs[i]);
fdevent_set(g_service_ref_fdes[i], FDE_READ);
});
}
}
}
namespace MdnsResponder {
bool adb_secure_connect_by_service_name(const std::string& instance_name) {
return ResolvedService::ConnectByServiceName(*ResolvedService::sAdbSecureConnectServices,
instance_name);
}
std::string mdns_check() {
uint32_t daemon_version;
uint32_t sz = sizeof(daemon_version);
auto dnserr = DNSServiceGetProperty(kDNSServiceProperty_DaemonVersion, &daemon_version, &sz);
if (dnserr != kDNSServiceErr_NoError) {
return "ERROR: mdns daemon unavailable";
}
return android::base::StringPrintf("mdns daemon version [%u]", daemon_version);
}
std::string mdns_list_discovered_services() {
std::string result;
auto cb = [&](const std::string& service_name, const std::string& reg_type,
const std::string& ip_addr, uint16_t port) {
result += android::base::StringPrintf("%s\t%s\t%s:%u\n", service_name.c_str(),
reg_type.c_str(), ip_addr.c_str(), port);
};
ResolvedService::ForEachService(*ResolvedService::sAdbTransportServices, "", cb);
ResolvedService::ForEachService(*ResolvedService::sAdbSecureConnectServices, "", cb);
ResolvedService::ForEachService(*ResolvedService::sAdbSecurePairingServices, "", cb);
return result;
}
std::optional<MdnsInfo> mdns_get_connect_service_info(const std::string& name) {
CHECK(!name.empty());
// only adb server creates these registries
if (!ResolvedService::sAdbTransportServices && !ResolvedService::sAdbSecureConnectServices) {
return std::nullopt;
}
CHECK(ResolvedService::sAdbTransportServices);
CHECK(ResolvedService::sAdbSecureConnectServices);
auto mdns_instance = mdns::mdns_parse_instance_name(name);
if (!mdns_instance.has_value()) {
D("Failed to parse mDNS name [%s]", name.c_str());
return std::nullopt;
}
std::optional<MdnsInfo> info;
auto cb = [&](const std::string& service_name, const std::string& reg_type,
const std::string& ip_addr,
uint16_t port) { info.emplace(service_name, reg_type, ip_addr, port); };
std::string reg_type;
if (!mdns_instance->service_name.empty()) {
reg_type = android::base::StringPrintf("%s.%s", mdns_instance->service_name.c_str(),
mdns_instance->transport_type.c_str());
auto index = adb_DNSServiceIndexByName(reg_type);
if (!index) {
return std::nullopt;
}
switch (*index) {
case kADBTransportServiceRefIndex:
ResolvedService::ForEachService(*ResolvedService::sAdbTransportServices,
mdns_instance->instance_name, cb);
break;
case kADBSecureConnectServiceRefIndex:
ResolvedService::ForEachService(*ResolvedService::sAdbSecureConnectServices,
mdns_instance->instance_name, cb);
break;
default:
D("Unknown reg_type [%s]", reg_type.c_str());
return std::nullopt;
}
return info;
}
for (const auto& service :
{ResolvedService::sAdbTransportServices, ResolvedService::sAdbSecureConnectServices}) {
ResolvedService::ForEachService(*service, name, cb);
if (info.has_value()) {
return info;
}
}
return std::nullopt;
}
std::optional<MdnsInfo> mdns_get_pairing_service_info(const std::string& name) {
CHECK(!name.empty());
auto mdns_instance = mdns::mdns_parse_instance_name(name);
if (!mdns_instance.has_value()) {
D("Failed to parse mDNS pairing name [%s]", name.c_str());
return std::nullopt;
}
std::optional<MdnsInfo> info;
auto cb = [&](const std::string& service_name, const std::string& reg_type,
const std::string& ip_addr,
uint16_t port) { info.emplace(service_name, reg_type, ip_addr, port); };
// Verify it's a pairing service if user explicitly inputs it.
if (!mdns_instance->service_name.empty()) {
auto reg_type = android::base::StringPrintf("%s.%s", mdns_instance->service_name.c_str(),
mdns_instance->transport_type.c_str());
auto index = adb_DNSServiceIndexByName(reg_type);
if (!index) {
return std::nullopt;
}
switch (*index) {
case kADBSecurePairingServiceRefIndex:
break;
default:
D("Not an adb pairing reg_type [%s]", reg_type.c_str());
return std::nullopt;
}
}
ResolvedService::ForEachService(*ResolvedService::sAdbSecurePairingServices, name, cb);
return info;
}
void mdns_cleanup() {}
} // namespace MdnsResponder
} // namespace
AdbMdnsResponderFuncs StartMdnsResponderDiscovery() {
ResolvedService::InitAdbServiceRegistries();
std::thread(init_mdns_transport_discovery_thread).detach();
AdbMdnsResponderFuncs f = {
.mdns_check = MdnsResponder::mdns_check,
.mdns_list_discovered_services = MdnsResponder::mdns_list_discovered_services,
.mdns_get_connect_service_info = MdnsResponder::mdns_get_connect_service_info,
.mdns_get_pairing_service_info = MdnsResponder::mdns_get_pairing_service_info,
.mdns_cleanup = MdnsResponder::mdns_cleanup,
.adb_secure_connect_by_service_name = MdnsResponder::adb_secure_connect_by_service_name,
};
return f;
}