SIM Cards |
AMERICAN AND BRITISH spies hacked into the internal
computer network of the largest manufacturer of SIM cards in the world,
stealing encryption keys used to protect the privacy of cellphone
communications across the globe, according to top-secret documents
provided to The Intercept by National Security Agency whistleblower Edward Snowden.
The hack was perpetrated by a joint unit consisting of operatives
from the NSA and its British counterpart Government Communications
Headquarters, or GCHQ. The breach, detailed in a secret 2010 GCHQ
document, gave the surveillance agencies the potential to secretly
monitor a large portion of the world’s cellular communications,
including both voice and data.
The company targeted by the intelligence agencies, Gemalto, is a
multinational firm incorporated in the Netherlands that makes the chips
used in mobile phones and next-generation credit cards. Among its
clients are AT&T, T-Mobile, Verizon, Sprint and some 450 wireless
network providers around the world. The company operates in 85 countries
and has more than 40 manufacturing facilities. One of its three global
headquarters is in Austin, Texas and it has a large factory in
Pennsylvania.
In all, Gemalto produces some 2 billion SIM cards a year. Its motto is “Security to be Free.”
With these stolen encryption keys, intelligence agencies can monitor
mobile communications without seeking or receiving approval from telecom
companies and foreign governments. Possessing the keys also sidesteps
the need to get a warrant or a wiretap, while leaving no trace on the
wireless provider’s network that the communications were intercepted.
Bulk key theft additionally enables the intelligence agencies to unlock
any previously encrypted communications they had already intercepted,
but did not yet have the ability to decrypt.
As part of the covert operations against Gemalto, spies from GCHQ —
with support from the NSA — mined the private communications of
unwitting engineers and other company employees in multiple countries.
Gemalto was totally oblivious to the penetration of its systems — and
the spying on its employees. “I’m disturbed, quite concerned that this
has happened,” Paul Beverly, a Gemalto executive vice president, told The Intercept.
“The most important thing for me is to understand exactly how this was
done, so we can take every measure to ensure that it doesn’t happen
again, and also to make sure that there’s no impact on the telecom
operators that we have served in a very trusted manner for many years.
What I want to understand is what sort of ramifications it has, or could
have, on any of our customers.” He added that “the most important thing
for us now is to understand the degree” of the breach.
Leading privacy advocates and security experts say that the theft of
encryption keys from major wireless network providers is tantamount to a
thief obtaining the master ring of a building superintendent who holds
the keys to every apartment. “Once you have the keys, decrypting traffic
is trivial,” says Christopher Soghoian, the principal technologist for
the American Civil Liberties Union. “The news of this key theft will
send a shock wave through the security community.”
The massive key theft is “bad news for phone security. Really bad news.”
Beverly said that after being contacted by The Intercept,
Gemalto’s internal security team began on Wednesday to investigate how
their system was penetrated and could find no trace of the hacks. When
asked if the NSA or GCHQ had ever requested access to
Gemalto-manufactured encryption keys, Beverly said, “I am totally
unaware. To the best of my knowledge, no.”
According to one secret GCHQ slide, the British intelligence agency
penetrated Gemalto’s internal networks, planting malware on several
computers, giving GCHQ secret access. We “believe we have their entire
network,” the slide’s author boasted about the operation against
Gemalto.
Additionally, the spy agency targeted unnamed cellular companies’
core networks, giving it access to “sales staff machines for customer
information and network engineers machines for network maps.” GCHQ also
claimed the ability to manipulate the billing servers of cell companies
to “suppress” charges in an effort to conceal the spy agency’s secret
actions against an individual’s phone. Most significantly, GCHQ also
penetrated “authentication servers,” allowing it to decrypt data and
voice communications between a targeted individual’s phone and their
telecom provider’s network. A note accompanying the slide asserted that
the spy agency was “very happy with the data so far and [was] working
through the vast quantity of product.”
The Mobile Handset Exploitation Team (MHET), whose existence has
never before been disclosed, was formed in April 2010 to target
vulnerabilities in cell phones. One of its main missions was to covertly
penetrate computer networks of corporations that manufacture SIM cards,
as well as those of wireless network providers. The team included
operatives from both GCHQ and the NSA.
While the FBI and other U.S. agencies can obtain court orders
compelling U.S.-based telecom companies to allow them to wiretap or
intercept the communications of their customers, on the international
front this type of data collection is much more challenging. Unless a
foreign telecom or foreign government grants access to their citizens’
data to a U.S. intelligence agency, the NSA or CIA would have to hack
into the network or specifically target the user’s device for a more
risky “active” form of surveillance that could be detected by
sophisticated targets. Moreover, foreign intelligence agencies would not
allow U.S. or U.K. spy agencies access to the mobile communications of
their heads of state or other government officials.
“It’s unbelievable. Unbelievable,” said Gerard Schouw, a member of
the Dutch Parliament when told of the spy agencies’ actions. Schouw, the
intelligence spokesperson for D66, the largest opposition party in the
Netherlands, told The Intercept, “We don’t want to have the
secret services from other countries doing things like this.” Schouw
added that he and other lawmakers will ask the Dutch government to
provide an official explanation and to clarify whether the country’s
intelligence services were aware of the targeting of Gemalto, whose
official headquarters is in Amsterdam.
Last November, the Dutch government amended its constitution to
include explicit protection for the privacy of digital communications,
including those made on mobile devices. “We have, in the Netherlands, a
law on the [activities] of secret services. And hacking is not allowed,”
he said. Under Dutch law, the interior minister would have to sign off
on such operations by foreign governments’ intelligence agencies. “I
don’t believe that he has given his permission for these kind of
actions.”
The U.S. and British intelligence agencies pulled off the encryption
key heist in great stealth, giving them the ability to intercept and
decrypt communications without alerting the wireless network provider,
the foreign government or the individual user that they have been
targeted. “Gaining access to a database of keys is pretty much game over
for cellular encryption,” says Matthew Green, a cryptography specialist
at the Johns Hopkins Information Security Institute. The massive key
theft is “bad news for phone security. Really bad news.”
AS CONSUMERS BEGAN to
adopt cellular phones en masse in the mid-1990s, there were no effective
privacy protections in place. Anyone could buy a cheap device from
RadioShack capable of intercepting calls placed on mobile phones. The
shift from analog to digital networks introduced basic encryption
technology, though it was still crackable by tech savvy computer science
graduate students, as well as the FBI and other law enforcement
agencies, using readily available equipment.
Today, second-generation (2G) phone technology, which relies on a
deeply flawed encryption system, remains the dominant platform globally,
though U.S. and European cell phone companies now use 3G, 4G and LTE
technology in urban areas. These include more secure, though not
invincible, methods of encryption, and wireless carriers throughout the
world are upgrading their networks to use these newer technologies.
It is in the context of such growing technical challenges to data
collection that intelligence agencies, such as the NSA, have become
interested in acquiring cellular encryption keys. “With old-fashioned
[2G], there are other ways to work around cellphone security without
those keys,” says Green, the Johns Hopkins cryptographer. “With newer
3G, 4G and LTE protocols, however, the algorithms aren’t as vulnerable,
so getting those keys would be essential.”
The privacy of all mobile communications — voice calls, text messages
and Internet access — depends on an encrypted connection between the
cell phone and the wireless carrier’s network, using keys stored on the
SIM, a tiny chip smaller than a postage stamp which is inserted into the
phone. All mobile communications on the phone depend on the SIM, which
stores and guards the encryption keys created by companies like Gemalto.
SIM cards can be used to store contacts, text messages, and other
important data, like one’s phone number. In some countries, SIM cards
are used to transfer money. As The Intercept reported last year, having the wrong SIM card can make you the target of a drone strike.
SIM cards were not invented to protect individual communications —
they were designed to do something much simpler: ensure proper billing
and prevent fraud, which was pervasive in the early days of cell phones.
Soghoian compares the use of encryption keys on SIM cards to the way
Social Security numbers are used today. “Social security numbers were
designed in the 1930s to track your contributions to your government
pension,” he says. “Today they are used as a quasi national identity
number, which was never their intended purpose.”
Because the SIM card wasn’t created with call confidentiality in
mind, the manufacturers and wireless carriers don’t make a great effort
to secure their supply chain. As a result, the SIM card is an extremely
vulnerable component of a mobile phone. “I doubt anyone is treating
those things very carefully,” says Green. “Cell companies probably don’t
treat them as essential security tokens. They probably just care that
nobody is defrauding their networks.” The ACLU’s Soghoian adds, “These
keys are so valuable that it makes sense for intel agencies to go after
them.”
As a general rule, phone companies do not manufacture SIM cards, nor
program them with secret encryption keys. It is cheaper and more
efficient for them to outsource this sensitive step in the SIM card
production process. They purchase them in bulk with the keys pre-loaded
by other corporations. Gemalto is the largest of these SIM
“personalization” companies.
After a SIM card is manufactured, the encryption key, known as a
“Ki,” is burned directly onto the chip. A copy of the key is also given
to the cellular provider, allowing its network to recognize an
individual’s phone.
In order for the phone to be able to connect to the
wireless carriers’ network, the phone — with the help of the SIM —
authenticates itself using the Ki that has been programmed onto the SIM.
The phone conducts a secret “handshake” that validates that the Ki on
the SIM matches the Ki held by the mobile company. Once that happens,
the communications between the phone and the network are encrypted. Even
if GCHQ or the NSA were to intercept the phone signals as they are
transmitted through the air, the intercepted data would be a garbled
mess. Decrypting it can be challenging and time-consuming. Stealing the
keys, on the other hand, is beautifully simple, from the intelligence
agencies’ point of view, as the pipeline for producing and distributing
SIM cards was never designed to thwart mass surveillance efforts.
One of the creators of the encryption protocol that is widely used
today for securing emails, Adi Shamir, famously asserted: “Cryptography
is typically bypassed, not penetrated.” In other words, it is much
easier (and sneakier) to open a locked door when you have the key than
it is to break down the door using brute force. While the NSA and GCHQ
have substantial resources dedicated to breaking encryption, it is not
the only way — and certainly not always the most efficient — to get at
the data they want. “NSA has more mathematicians on its payroll than any
other entity in the U.S.,” says the ACLU’s Soghoian. “But the NSA’s
hackers are way busier than its mathematicians.”
GCHQ and the NSA could have taken any number of routes to steal SIM
encryption keys and other data. They could have physically broken into a
manufacturing plant. They could have broken into a wireless carrier’s
office. They could have bribed, blackmailed or coerced an employee of
the manufacturer or cell phone provider. But all of that comes with
substantial risk of exposure. In the case of Gemalto, hackers working
for GCHQ remotely penetrated the company’s computer network in order to
steal the keys in bulk as they were en route to the wireless network
providers.
SIM card “personalization” companies like Gemalto ship hundreds of
thousands of SIM cards at a time to mobile phone operators across the
world. International shipping records obtained by The Intercept
show that in 2011, Gemalto shipped 450,000 smart cards from its plant
in Mexico to Germany’s Deutsche Telekom in just one shipment.
In order for the cards to work and for the phones’ communications to
be secure, Gemalto also needs to provide the mobile company with a file
containing the encryption keys for each of the new SIM cards. These
master key files could be shipped via FedEx, DHL, UPS or another snail
mail provider. More commonly, they could be sent via email or through
File Transfer Protocol, FTP, a method of sending files over the
Internet.
The moment the master key set is generated by Gemalto or another
personalization company, but before it is sent to the wireless carrier,
is the most vulnerable moment for interception. “The value of getting
them at the point of manufacture is you can presumably get a lot of keys
in one go, since SIM chips get made in big batches,” says Green, the
cryptographer. “SIM cards get made for lots of different carriers in one
facility.” In Gemalto’s case, GCHQ hit the jackpot, as the company
manufactures SIMs for hundreds of wireless network providers, including
all of the leading U.S. — and many of the largest European — companies.
But obtaining the encryption keys while Gemalto still held them required finding a way into the company’s internal systems.
TOP-SECRET GCHQ
documents reveal that the intelligence agencies accessed the email and
Facebook accounts of engineers and other employees of major telecom
corporations and SIM card manufacturers in an effort to secretly obtain
information that could give them access to millions of encryption keys.
They did this by utilizing the NSA’s X-KEYSCORE program, which allowed
them access to private emails hosted by the SIM card and mobile
companies’ servers, as well as those of major tech corporations,
including Yahoo! and Google.
In effect, GCHQ clandestinely cyberstalked Gemalto employees,
scouring their emails in an effort to find people who may have had
access to the company’s core networks and Ki-generating systems. The
intelligence agency’s goal was to find information that would aid in
breaching Gemalto’s systems, making it possible to steal large
quantities of encryption keys. The agency hoped to intercept the files
containing the keys as they were transmitted between Gemalto and its
wireless network provider customers.
GCHQ operatives identified key individuals and their positions within
Gemalto and then dug into their emails. In one instance, GCHQ zeroed in
on a Gemalto employee in Thailand who they observed sending
PGP-encrypted files, noting that if GCHQ wanted to expand its Gemalto
operations, “he would certainly be a good place to start.” They did not
claim to have decrypted the employee’s communications, but noted that
the use of PGP could mean the contents were potentially valuable.
The cyberstalking was not limited to Gemalto. GCHQ operatives wrote a
script that allowed the agency to mine the private communications of
employees of major telecommunications and SIM “personalization”
companies for technical terms used in the assigning of secret keys to
mobile phone customers. Employees for the SIM card manufacturers and
wireless network providers were labeled as “known individuals and
operators targeted” in a top-secret GCHQ document.
According to that April 2010 document, “PCS Harvesting at Scale,”
hackers working for GCHQ focused on “harvesting” massive amounts of
individual encryption keys “in transit between mobile network operators
and SIM card personalisation centres” like Gemalto. The spies “developed
a methodology for intercepting these keys as they are transferred
between various network operators and SIM card providers.” By that time,
GCHQ had developed “an automated technique with the aim of increasing
the volume of keys that can be harvested.”
The PCS Harvesting document acknowledged that, in searching for
information on encryption keys, GCHQ operatives would undoubtedly vacuum
up “a large number of unrelated items” from the private communications
of targeted employees. “[H]owever an analyst with good knowledge of the
operators involved can perform this trawl regularly and spot the
transfer of large batches of [keys].”
The document noted that many SIM card manufacturers transferred the
encryption keys to wireless network providers “by email or FTP with
simple encryption methods that can be broken … or occasionally with no
encryption at all.” To get bulk access to encryption keys, all the NSA
or GCHQ needed to do was intercept emails or file transfers as they were
sent over the Internet — something both agencies already do millions of
times per day. A footnote in the 2010 document observed that the use of
“strong encryption products … is becoming increasingly common” in
transferring the keys.
In its key harvesting “trial” operations in the first quarter of
2010, GCHQ successfully intercepted keys used by wireless network
providers in Iran, Afghanistan, Yemen, India, Serbia, Iceland and
Tajikistan. But, the agency noted, its automated key harvesting system
failed to produce results against Pakistani networks, denoted as
“priority targets” in the document, despite the fact that GCHQ had a
store of Kis from two providers in the country, Mobilink and Telenor.
“[I]t is possible that these networks now use more secure methods to
transfer Kis,” the document concluded.
From December 2009 through March 2010, a month before the Mobile
Handset Exploitation Team was formed, GCHQ conducted a number of trials
aimed at extracting encryption keys and other personalized data for
individual phones. In one two-week period, they accessed the emails of
130 people associated with wireless network providers or SIM card
manufacturing and personalization. This operation produced nearly 8,000
keys matched to specific phones in 10 countries. In another two-week
period, by mining just 6 email addresses, they produced 85,000 keys. At
one point in March 2010, GCHQ intercepted nearly 100,000 keys for mobile
phone users in Somalia. By June, they’d compiled 300,000. “Somali
providers are not on GCHQ’s list of interest,” the document noted.
“[H]owever, this was usefully shared with NSA.”
The GCHQ documents only contain statistics for three months of
encryption key theft in 2010. During this period, millions of keys were
harvested. The documents stated explicitly that GCHQ had already created
a constantly evolving automated process for bulk harvesting of keys.
They describe active operations targeting Gemalto’s personalization
centers across the globe, as well as other major SIM card manufacturers
and the private communications of their employees.
A top-secret NSA document asserted that, as of 2009, the U.S. spy
agency already had the capacity to process between 12 and 22 million
keys per second for later use against surveillance targets. In the
future, the agency predicted, it would be capable of processing more
than 50 million per second. The document did not state how many keys
were actually processed, just that the NSA had the technology to perform
such swift, bulk operations. It is impossible to know how many keys
have been stolen by the NSA and GCHQ to date, but, even using
conservative math, the numbers are likely staggering.
GCHQ assigned “scores” to more than 150 individual email addresses
based on how often the users mentioned certain technical terms, and then
intensified the mining of those individuals’ accounts based on
priority. The highest scoring email address was that of an employee of
Chinese tech giant Huawei, which the U.S. has repeatedly accused of
collaborating with Chinese intelligence. In all, GCHQ harvested the
emails of employees of hardware companies that manufacture phones, such
as Ericsson and Nokia; operators of mobile networks, such as MTN
Irancell and Belgacom; SIM card providers, such as Bluefish and Gemalto;
and employees of targeted companies who used email providers such as
Yahoo! and Google. During the three-month trial, the largest number of
email addresses harvested were those belonging to Huawei employees,
followed by MTN Irancell. The third largest class of emails harvested in
the trial were private Gmail accounts, presumably belonging to
employees at targeted companies.
The GCHQ program targeting Gemalto was called DAPINO GAMMA. In 2011,
GCHQ launched operation HIGHLAND FLING to mine the email accounts of
Gemalto employees in France and Poland. A top-secret document on the
operation stated that one of the aims was “getting into French HQ” of
Gemalto “to get in to core data repositories.” France, home to one of
Gemalto’s global headquarters, is the nerve center of the company’s
worldwide operations. Another goal was to intercept private
communications of employees in Poland that “could lead to penetration
into one or more personalisation centers” — the factories where the
encryption keys are burned onto SIM cards.
As part of these operations, GCHQ operatives acquired the usernames
and passwords for Facebook accounts of Gemalto targets. An internal
top-secret GCHQ wiki on the program from May 2011 indicated that GCHQ
was in the process of “targeting” more than a dozen Gemalto facilities
across the globe, including in Germany, Mexico, Brazil, Canada, China,
India, Italy, Russia, Sweden, Spain, Japan and Singapore.
The document also stated that GCHQ was preparing similar key theft
operations against one of Gemalto’s competitors, Germany-based SIM card
giant Giesecke and Devrient.
On January 17, 2014, President Barack Obama gave a major address on
the NSA spying scandal. “The bottom line is that people around the
world, regardless of their nationality, should know that the United
States is not spying on ordinary people who don’t threaten our national
security and that we take their privacy concerns into account in our
policies and procedures,” he said.
The monitoring of the lawful communications of employees of major
international corporations shows that such statements by Obama, other
U.S. officials and British leaders — that they only intercept and
monitor the communications of known or suspected criminals or terrorists
— were untrue. “The NSA and GCHQ view the private communications of
people who work for these companies as fair game,” says the ACLU’s
Soghoian. “These people were specifically hunted and targeted by
intelligence agencies, not because they did anything wrong, but because
they could be used as a means to an end.”
THERE ARE TWO basic
types of electronic or digital surveillance: passive and active. All
intelligence agencies engage in extensive passive surveillance, which
means they collect bulk data by intercepting communications sent over
fiber optic cables, radio waves or wireless devices.
Intelligence agencies place high power antennas, known as “spy
nests,” on the top of their countries’ embassies and consulates, which
are capable of vacuuming up data sent to or from mobile phones in the
surrounding area. The joint NSA/CIA Special Collection Service is the
lead entity that installs and mans these nests for the United States. An
embassy situated near a parliament or government agency could easily
intercept the phone calls and data transfers of the mobile phones used
by foreign government officials. The U.S. embassy in Berlin, for
instance, is located a stone’s throw from the Bundestag. But if the
wireless carriers are using stronger encryption, which is built into
modern 3G, 4G and LTE networks, then intercepted calls and other data
would be more difficult to crack, particularly in bulk. If the
intelligence agency wants to actually listen to or read what is being
transmitted, they would need to decrypt the encrypted data.
Active surveillance is another option. This would require government
agencies to “jam” a 3G or 4G network, forcing nearby phones onto 2G.
Once forced down to the less secure 2G technology, the phone can be
tricked into connecting to a fake cell tower operated by an intelligence
agency. This method of surveillance, though effective, is risky, as it
leaves a digital trace that counter-surveillance experts from foreign
governments could detect.
Stealing the Kis solves all of these problems. This way, intelligence
agencies can safely engage in passive, bulk surveillance without having
to decrypt data and without leaving any trace whatsoever.
“Key theft enables the bulk, low-risk surveillance of encrypted
communications,” the ACLU’s Soghoian says. “Agencies can collect all the
communications and then look through them later. With the keys, they
can decrypt whatever they want, whenever they want. It’s like a time
machine, enabling the surveillance of communications that occurred
before someone was even a target.”
Neither the NSA nor GCHQ would comment specifically on the key theft
operations. In the past, they have argued more broadly that breaking
encryption is a necessary part of tracking terrorists and other
criminals. “It is longstanding policy that we do not comment on
intelligence matters,” a GCHQ official stated in an email, adding that
the agency’s work is conducted within a “strict legal and policy
framework” that ensures its activities are “authorized, necessary and
proportionate,” with proper oversight, which is the standard response
the agency has provided for previous stories published by The Intercept.
The agency also said, “[T]he UK’s interception regime is entirely
compatible with the European Convention on Human Rights.” The NSA
declined to offer any comment.
It is unlikely that GCHQ’s pronouncement about the legality of its
operations will be universally embraced in Europe. “It is governments
massively engaging in illegal activities,” says Sophie in’t Veld, a
Dutch member of the European Parliament. “If you are not a government
and you are a student doing this, you will end up in jail for 30 years.”
Veld, who chaired the European Parliament’s recent inquiry into mass
surveillance exposed by Snowden, told The Intercept: “The
secret services are just behaving like cowboys. Governments are behaving
like cowboys and nobody is holding them to account.”
The Intercept’s Laura Poitras has previously reported that
in 2013 Australia’s signals intelligence agency, a close partner of the
NSA, stole some 1.8 million encryption keys from an Indonesian wireless
carrier.
A few years ago, the FBI reportedly dismantled several of
transmitters set up by foreign intelligence agencies around the
Washington DC area, which could be used to intercept cell phone
communications. Russia, China, Israel and other nations use similar
technology as the NSA across the world. If those governments had the
encryption keys for major U.S. cell phone companies’ customers, such as
those manufactured by Gemalto, mass snooping would be simple. “It would
mean that with a few antennas placed around Washington DC, the Chinese
or Russian governments could sweep up and decrypt the communications of
members of Congress, U.S. agency heads, reporters, lobbyists and
everyone else involved in the policymaking process and decrypt their
telephone conversations,” says Soghoian.
“Put a device in front of the UN, record every bit you see going over
the air. Steal some keys, you have all those conversations,” says
Green, the Johns Hopkins cryptographer. And it’s not just spy agencies
that would benefit from stealing encryption keys. “I can only imagine
how much money you could make if you had access to the calls made around
Wall Street,” he adds.
THE BREACH OF Gemalto’s
computer network by GCHQ has far-reaching global implications. The
company, which brought in $2.7 billion in revenue in 2013, is a global
leader in digital security, producing banking cards, mobile payment
systems, two-factor authentication devices used for online security,
hardware tokens used for securing buildings and offices, electronic
passports and identification cards. It provides chips to Vodafone in
Europe and France’s Orange, as well as EE, a joint venture in the U.K.
between France Telecom and Deutsche Telekom. Royal KPN, the largest
Dutch wireless network provider, also uses Gemalto technology.
In Asia, Gemalto’s chips are used by China Unicom, Japan’s NTT and
Taiwan’s Chungwa Telecom, as well as scores of wireless network
providers throughout Africa and the Middle East. The company’s security
technology is used by more than 3,000 financial institutions and 80
government organizations. Among its clients are Visa, Mastercard,
American Express, JP Morgan Chase and Barclays. It also provides chips
for use in luxury cars, including those made by Audi and BMW.
In 2012, Gemalto won a sizable contract, worth $175 million, from the
U.S. government to produce the covers for electronic U.S. passports,
which contain chips and antennas that can be used to better authenticate
travelers. As part of its contract, Gemalto provides the
personalization and software for the microchips implanted in the
passports. The U.S. represents Gemalto’s single largest market,
accounting for some 15 percent of its total business. This raises the
question of whether GCHQ, which was able to bypass encryption on mobile
networks, has the ability to access private data protected by other
Gemalto products created for banks and governments.
As smart phones become smarter, they are increasingly replacing
credit cards and cash as a means of paying for goods and services. When
Verizon, AT&T and T-Mobile formed an alliance in 2010 to jointly
build an electronic pay system to challenge Google Wallet and Apple Pay,
they purchased Gemalto’s technology for their program, known as
Softcard. (Until July 2014, it previously went by the unfortunate name
of “ISIS Mobile Wallet.”) Whether data relating to that, and other
Gemalto security products, has been compromised by the GCHQ and NSA is
unclear. Both intelligence agencies declined to answer any specific
questions for this story.
PRIVACY ADVOCATES and
security experts say it would take billions of dollars, significant
political pressure, and several years to fix the fundamental security
flaws in the current mobile phone system that NSA, GCHQ and other
intelligence agencies regularly exploit.
A current gaping hole in the protection of mobile communications is
that cell phones and wireless network providers do not support the use
of Perfect Forward Security (PFS), a form of encryption designed to
limit the damage caused by theft or disclosure of encryption keys. PFS,
which is now built into modern web browsers and used by sites like
Google and Twitter, works by generating unique encryption keys for each
communication or message, which are then discarded. Rather than using
the same encryption key to protect years’ worth of data, as the
permanent Kis on SIM cards can, a new key might be generated each
minute, hour or day, and then promptly destroyed. Because cell phone
communications do not utilize PFS, if an intelligence agency has been
“passively” intercepting someone’s communications for a year and later
acquires the permanent encryption key, it can go back and decrypt all of
those communications. If mobile phone networks were using PFS, that
would not be possible — even if the permanent keys were later stolen.
The only effective way for individuals to protect themselves from Ki
theft-enabled surveillance is to use secure communications software,
rather than relying on SIM card-based security. Secure software includes
email and other apps that use Transport Layer Security (TLS), the
mechanism underlying the secure HTTPS web protocol. The email clients
included with Android phones and iPhones support TLS, as do large email
providers like Yahoo! and Google.
Apps like TextSecure and Silent Text are secure alternatives to SMS
messages, while Signal, RedPhone and Silent Phone encrypt voice
communications. Governments still may be able to intercept
communications, but reading or listening to them would require hacking a
specific handset, obtaining internal data from an email provider, or
installing a bug in a room to record the conversations.
“We need to stop assuming that the phone companies will provide us
with a secure method of making calls or exchanging text messages,” says
Soghoian.
———
Documents published with this article:
- CNE Access to Core Mobile Networks
- Where Are These Keys?
- CCNE Successes Jan10-Mar10 Trial
- DAPINO GAMMA CNE Presence Wiki
- DAPINO GAMMA Gemalto Yuaawaa Wiki
- DAPINO GAMMA Target Personalisation Centres Gemalto Wiki
- IMSIs Identified with Ki Data for Network Providers Jan10-Mar10 Trial
- CCNE Stats Summaries Jan10-Mar10 Trial
- CCNE Email Harvesting Jan10-Mar10 Trial
- CCNE Email Addresses Jan10-Mar10 Trial
- PCS Harvesting at Scale
By Jeremy Scahill and Josh Begley
———
Additional reporting by Andrew Fishman and Ryan Gallagher.
Sheelagh McNeill, Morgan Marquis-Boire, Alleen Brown, Margot Williams,
Ryan Devereaux and Andrea Jones contributed to this story.
Culled from: The Intercept
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