All 3 Debates between Christian Matheson and Dean Russell

Tue 19th Jan 2021
Telecommunications (Security) Bill (Fourth sitting)
Public Bill Committees

Committee Debate: 4th sitting: House of Commons
Thu 14th Jan 2021
Telecommunications (Security) Bill (First sitting)
Public Bill Committees

Committee stage: 1st sitting & Committee Debate: 1st sitting: House of Commons
Thu 14th Jan 2021
Telecommunications (Security) Bill (Second sitting)
Public Bill Committees

Committee stage: 2nd sitting & Committee stage & Committee Debate: 2nd sitting: House of Commons

Telecommunications (Security) Bill (Fourth sitting)

Debate between Christian Matheson and Dean Russell
Dean Russell Portrait Dean Russell (Watford) (Con)
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Q137 As you know, there are very many benefits to a 5G network in terms of the speed, application development and the new era that it can bring, but would you mind focusing for a moment on the new security risks that 5G will also bring, please?

Dr Sellars: You are quite right that 5G opens up a whole load of new benefits, predominantly high-speed access/lower latency. I think some of the security risks are around who is providing the infrastructure to support 5G. The concern that we have at the moment is that we need to have security of supply—both resilience of the supply chain for that infrastructure, and the cyber-security and encryption element of that infrastructure.

I think it is fair to say that 5G is likely to support a much broader selection of services. It is likely to have an impact on commercial, governmental and security transmission, just because of the widespread access and its very high-speed capability. It is also likely to support a very large number of internet of things devices—the sort of devices that UtterBerry develops. Some of those devices are another potential attack vector, if you like; they are another potential vulnerability. It is broadening the access into the network, which is potentially opening up new sorts of vulnerabilities that we need to take into consideration.

Dr Johnson: Let me start by saying that some aspects of security in 5G networks are actually much more secure than in previous generations. Looking over the lifetime of cellular, you will know that you could just listen into first generation analogue networks with a very high frequency radio. GSM—the global system for mobile communications—was secure, partly at least. The network and the phones would authenticate to each other, but only asymmetrically, so the phone could be captured by a surreptitious network. That sort of attack is still used.

3G is much more secure, with symmetric authentication. It is harder for devices to be captured by the wrong network, but it is still possible. It is also possible for the IMSI—that is to say, the international mobile subscriber identity—of an individual or group to be found from that network. The same is true of 4G. In 5G, that is much more difficult. In terms of the security of the user of the network, 5G has tightened up a lot of the loopholes in previous generations in a way that is very hard to unpick. That creates tactical problems for some law enforcement agencies, which rely on some of the insecurities of earlier generations to do their job.

From the network side of things, there are some issues. There is a new network model in terms of the way nodes are connected in the core network. No longer are there physical interfaces as in previous generations of network, where there would be an S1 connection from the base station to the core. There are still connections, but they are much more in a publish-subscribe-type model. I think those, conceivably at least, bring a little more opportunity for attackers to probe nodes within the core network to find weaknesses and vulnerabilities. That is my take on 5G.

Heba Bevan: We have three elements that the telecoms community could work on: the communication aspect, which is provided by companies such as BT; the hardware aspect, which is probably provided by companies such as Utterberry; and the software element within the system. So there are three types of vulnerability that could be introduced in the path of these three elements. The only problem with these paths is this: who is responsible if there is an attack? Usually, the communication aspect is the most important part to get protected.

Currently with 5G, there is a huge opportunity for opening up a huge economic impact from the sector in terms of healthcare, education and tech industries. These industries will need to move on and having 5G is definitely an important element, but how can we make sure it is secure in providing an effective communications network that provides an end-to-end solution and security? That is where I think we need to concentrate on the telecommunications and how can we make sure that what we are getting from that communication is totally secure, and that the encryption within it passes certain thresholds.

We can follow a certain standard within the hardware and software, but if the network is weak and has not provided us with good reliability, that is where things could be broken.

Christian Matheson Portrait Christian Matheson (City of Chester) (Lab)
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Q Thank you for those answers. I have just a couple of questions. First of all, following on from Mr Russell’s question, the impression I get—I am not an expert—is of a network that is a bit like a bowl of spaghetti. There are bits here, there and everywhere. and there are bits of different generations that are all added on. How easy would it be from your point of view, with your different areas of expertise, to audit and identify within any part of that chain in the network exactly where there is equipment—hardware, software, chips or whatever—that perhaps needs to be removed or checked?

Is there a shelf-life of the older versions? I am surprised that we are still talking about 2G—that it has not been removed. Is there a shelf-life for those elements and will they be removed from what I term “the network”, which is of course the whole global telecommunications infrastructure of the UK? Nick, do you want to start on this question?

Dr Johnson: Yes. Let me start on that shelf-life question. GSM is a little bit like Radio Four longwave, right? I do not think that it is ever really going to die; there are just too many people who depend on it for one reason or another, whether that is for emergency calls, or just for coverage in remote locations or wherever. I think GSM will stay there forever, despite its security issues. They are well known and understood, and managed in due course.

The shelf-life of network components is an interesting aspect. Our experience of deploying into cellular networks is that there is always a security audit involved. When we take a piece of equipment into a new operator, there is always a hurdle to be overcome. They have their own audit procedures and those include a sort of paper audit, where they look at the particular software components that the software is built from, some of which we build ourselves, some of which is open source and some of which is commercial off-the-shelf software libraries and so on. They want to make sure that those are all up to date and properly patched, with all the latest security patches and so on. I think that will just continue on. To some extent, that is just the baseline hurdle.

I am not sure this is exactly what you are asking, but what has changed in my mind as we go forward is this idea that there can be software in the network that is not so much interested in security—as in, somebody hacking into it—but is more of a Trojan horse type of software, completely undetectable until some signal or some date comes by and it springs to life and does bad things. The example I have in mind is the SolarWinds example from December last year, where software had been inserted in the supply chain and had been sitting there quite happily for a while. That, to my mind, is very difficult to detect. Until it goes off, you do not know there is a bomb inside it, and that is an issue.

Coming back to the shelf-life question, keeping the software up to date is a major issue. It sounds easy, but practically speaking, I know it is an operational dialogue all the time within vendor businesses: they are striving for revenue from new customers, for new features to be added, and that is acting against updating the software libraries and so on to bring them up to date. There is a continual dialogue in every vendor company to ask, “Do we need these features to get more revenue, or do we need to update these libraries because we need to maintain secure software?” I guess to some extent, the whole reason for this Bill is to try and force that to the front of the conversation; to say, “Look, you can’t go on. That dialogue has to stop now. The software needs to be secure.” That has to be the baseline; it has to be a basic hygiene factor in selling software that it must be secure to a certain level, and the features need to come as value added. If you have some questions coming up on the code of practice, designated vendors and so on, we might talk about that, but those are my comments on shelf-life.

I think I missed your first question. I apologise.

Telecommunications (Security) Bill (First sitting)

Debate between Christian Matheson and Dean Russell
Committee stage & Committee Debate: 1st sitting: House of Commons
Thursday 14th January 2021

(3 years, 10 months ago)

Public Bill Committees
Read Full debate Telecommunications (Security) Act 2021 View all Telecommunications (Security) Act 2021 Debates Read Hansard Text Read Debate Ministerial Extracts Amendment Paper: Public Bill Committee Amendments as at 14 January 2021 - (14 Jan 2021)
Christian Matheson Portrait Christian Matheson
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Q So you know where all the dodgy stuff would be, if you were asked to find it.

Patrick Binchy: We know where all the equipment is for our main supplier, yes.

Derek McManus: On the question on the asset register, absolutely. As for whether networks are interconnected, Patrick gave a good answer. The O2 and Vodafone networks are somewhat different, in that we work together on a network share; the O2 team manages and maintains a network in a certain geography, and the Vodafone team manages and maintains a physical network in another geography. In that sense, the O2 and Vodafone networks are very interconnected.

Andrea Donà: It is vital that the secondary legislation that accompanies the Bill clarifies assets in the telecoms network architecture that will be in scope of the security requirement, so that we can work knowing what we have audited, and knowing that the auditors always shared with NCSC. We need a clear understanding between Ofcom and us as providers before the legislation is enforced, so that we understand exactly the boundaries and the scope, and we all work together, having done the audits, to close any vulnerabilities that we might have. That is a clear aspect of our working together: ensuring that the assets in the telecoms network infrastructure that are in scope are very well defined.

Dean Russell Portrait Dean Russell (Watford) (Con)
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Q Can you describe in layman’s terms the types of security threats that your organisations face, and how the security framework would address those?

Derek McManus: There are a number of different security threats. I will talk about network from a physical point of view, though there are obviously also scams and threats through direct human contact. It is mostly penetration of the physical network either from attack or from virus software. Attack is where foreign agencies or bodies look for vulnerabilities or holes in your defences. The role of the telecoms operator is to ensure that all its physical equipment and software are of the highest support and variation that defends from attack. We see quite a high volume of attack, either DDoS or penetration, on a regular basis. As I said, we do cyber-security by design. It is built into the fundamental processes of expanding and adding to our network, to protect us from those very things.

Andrea Donà: To add to what Derek says, it is also important that Government play a role in securing the additional security needs across the whole ecosystem of the supply chain, including the vendors. With the ever-changing nature of the threats we are exposed to, as Derek explained in layman’s terms, we have to change the protocols and the rules by which we and our vendors implement our defence mechanisms.

It is important that the Government do not leave providers such as us alone to reinforce these additional minimum security standards; they should play an active role in ensuring that vendors adapt their technology road map, so that things are done in a much more future-ready, cyber-security-compliant manner, because we face an ever-changing picture and ever-changing scenarios.

Patrick Binchy: In terms of the threats and penetration, as Derek said, the key things are that they get into the networks, either to bring the networks down and create chaos for the UK economy, or to extract information from the networks. All our security, as both my colleagues have said, is built into design, right from the very start of the procurement process. How do we protect against, and build networks that are able to detect, avoid and block, any of those risks and threats? We do that through our knowledge, the knowledge of NCSC and the authorities, and the knowledge of the wider industry on what is going on beyond the UK and in the international regime. We are constantly reviewing and updating our capability to protect against any of those threats.

Telecommunications (Security) Bill (Second sitting)

Debate between Christian Matheson and Dean Russell
Committee stage & Committee Debate: 2nd sitting: House of Commons
Thursday 14th January 2021

(3 years, 10 months ago)

Public Bill Committees
Read Full debate Telecommunications (Security) Act 2021 View all Telecommunications (Security) Act 2021 Debates Read Hansard Text Read Debate Ministerial Extracts Amendment Paper: Public Bill Committee Amendments as at 14 January 2021 - (14 Jan 2021)
Dean Russell Portrait Dean Russell
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Q Many years ago, I used to work in communications and did some work with Huawei as a client. I remember, 10 or 11 years ago, someone told me that about 80% of all electronic communications go through some form of Huawei technology across Europe. I do not know how true that was, or whether it was inflated, but I am interested to understand from your perspective, given the impact of the Bill, how you see what it proposes compared with what is being done in other countries, in particular looking at comparable countries such as our Five Eyes partners.

Charles Parton: I think you are absolutely right to focus on our Five Eyes allies, in particular America and Australia—Canada and New Zealand at the moment are a little bit undeclared—which have come out very forthrightly to say that we really should not be entertaining Huawei in our systems. We have now followed them—even if only by 2027—and I think that is very much the right decision for a number of reasons, which I could go into if you wish me to.

I am not a technologist, and look at it much more from the political angle. It seems to me, if I may say briefly on the technology and the 5G system that is going to last us for the best part of 25 years and on which, no doubt, 6G will be built, that the idea that we can stay ahead in technology and be absolutely certain for the next two or three decades that we are ahead of the game and can keep them out of manipulating our data or using it in some advantageous fashion, is one of very great trust in our own abilities—first, they are putting enormous resources into it.

There are other reasons why the decision to get rid of Huawei was correct, and one is what I call the “black vulture of policy”. We have seen the way in which China will bully and sit on those countries that go against its wishes, in whatever field—way outside telecom. If you are dependent on another country’s systems, whether for getting equipment on time, or upgrades—let alone the more devious aspects of possible interference—I think that you will be looking at that black vulture and thinking, “Is it safe to pursue a policy that is very much in my interests, on telecoms, if I am going to be hit hard in other areas?” We have seen that: Australia, at the moment, is under the cosh; the UK was under the cosh when the Dalai Lama visited in 2012; Norway has been under the cosh, and so on.

In that context, are we saying that Huawei rules the Chinese Communist party’s policies? Of course not, but they are very intimately linked. I think that if the Chinese Communist party says to Huawei, “Jump!”, the only response from Huawei is, “Yes, sir! In what direction and how high?” You might look at the national security laws and say that those of course oblige them to co-operate and all that, but I do not think that matters so much—if the Communist party says, “Do it!”, they have no choice. If you look at how close they are, as another illustration, look at what is happening in Canada with the two hostages and the chief financial officer, Meng Wanzhou. Again, I could go into more detail if you want.

Also, there is the financial support that Huawei has received over the years, in terms of cheap finance, loans to customers, tax rebates and so on. Why does it do that? Because the Communist party wants to dominate the technology of the future, and Huawei is its tool for doing that. So I think that to trust Huawei in the long term would be a very unwise decision.

Dr Steedman: Can I take us back to the Bill and talk in that context? We are in a period of very rapid technological development and evolution. Many countries, including the Five Eyes countries, have allowed the market to drive this forward and not perhaps paid attention to it. While this was a hardware-driven sort of infrastructure, that was possibly manageable, and we have managed it over the last few years fairly satisfactorily. But looking ahead to the 5G and, perhaps—who knows?—the 6G world, we have moved to a much more vulnerable position away from hardware and towards software.

I welcome this Bill because I think it is incumbent on countries that want to protect themselves with secure and resilient infrastructure, and because it puts in place a structure of regulation, guidance and standards, which I represent, that will enable a transformation in the industry of the United Kingdom. It will enable us to use technology and software from providers all over the world, but also from SMEs and start-ups in the UK that we can encourage, and create a really innovation-friendly future. But to do that we have to create a market framework that is structured under a quality piece of regulation that enables that to take place in a clear way—clear for the market, clear for the regulator Ofcom, and clear for the Department that manages it on behalf of the Government.

In this Bill we see clear statements about new duties, codes of practice and guidance—another form of standard —to be approved by a Secretary of State for the industry, and also indications about the use of industry standards to support and deliver a new policy. We can really play to our strength in the UK, where we work in a very performance-based market structure, and we can enable a pro-innovation culture that will stimulate and deliver the diversification, security and resilience that we are looking for.

It is not unusual in the world that major commercial players, given free rein, try to influence things in the direction that suits them best. It is not unusual. We are talking about China specifically, but it is not unusual. The key to this is ensuring that in the standards landscape, which is used to support the delivery of regulatory bodies, the governance and processes of the development of those standards is managed and influenced with UK stakeholder interest at heart. In the big landscape of standards, which we might want to talk about further, there is a very wide range of organisations developing standards, from the fringes to the formal systems, and we can discuss and deploy that in a coherent and consistent way.

There is evidence from other Departments of how this works in a co-regulatory manner, supporting industry, Government, Departments and the regulator to deliver the outcomes that we as a nation desperately want.

Christian Matheson Portrait Christian Matheson
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Q First to Mr Parton, we talk about Huawei, but is it the case that it is not Huawei but the Chinese state or the Chinese Communist party trading as Huawei? All the focus is on Huawei at the moment, but are there any similar companies, or front companies, that the Bill might have to cover in future? Bearing in mind the view that the Bill can help with diversification among trusted partners in the UK, how did Huawei get into such a dominant position globally? What can we do, perhaps in legislative terms within the framework of this Bill, to avoid that in the future?

Charles Parton: Of course, Huawei got the headlines because of the urgent need for 5G, but you are absolutely right that it is not the only player in telecoms, and indeed telecoms is not the only subject. I think that we need to look much more seriously at the whole question of technological co-operation with China. This gets into the whole question of divergence, or decoupling if you are American.

We have to recognise that, whereas our aim in China relations is to maximise trade, investment, global goods and so on, there are increasingly limits because divergence is happening. The intention of the Chinese Communist party is to dominate. As Xi Jinping in fact said in his first speech to the Politburo, the intention is to dominate western capitalism. He said that the Chinese system will take the superior position. Clearly, technology and its advance is a very important way of doing that, so it is not just Huawei and 5G. Therefore, we have to look very carefully at the whole question—that, I suppose, is what lies behind the National Security and Investment Bill—of how we co-operate on technology with China.

I have called for this a number of times, as many others have. The Government will need to set up a body and give much clearer guidance on which subjects in this field of technology we can co-operate happily with China, as well as which organisations—many are connected with the military, and the distinction between civil and military technology is eroding—and which individuals, because there are a number of individuals who have taken back or collected technology to help the Chinese security apparatus develop it.

You are absolutely right that it is really important to look much more broadly than Huawei. The company that comes immediately to mind is Hikvision, because it has such a large amount of the CCTV market. Secretary of State Dominic Raab made an interesting point in his speech the other day about the reputational harm that could be done to some of our companies if they are co-operating with Chinese companies that are deeply involved in the surveillance state, of which of course Huawei and Hikvision are two. Huawei has three laboratories with the public security bureau in Xinjiang, and is devising for them technology that will enable them to pick out Uyghur faces in crowds. That is on that side.

I think your second question was, why has Huawei been successful?