Shhh… A Cyber-Geopolitical Threats 2019 Roundup

The year 2019 has been setting the scene on the cyber-geopolitical scene for the 2020s. Here’s a nice sum up.

And on the personal front the best defense is to keep yourself informed – Watch out for fake news and facts-check everything you read especially anything that seems too perfectly outrageous.

Shhh… Latest Cyberattacks on US Government a Hoax – To Restore NSA Surveillance?

You may have read and heard about the latest cyberattacks on the US government (see video above) over the weekend? Reckon you can’t help wondering how coincidental this “incident” was, judging by the following Guardian article. Nice strategy, Congress??

Shhh… Former CIA Officer Sentenced for Leaks to NYT Reporter

(Above) photo credit: RT (Image from twitter.com @Manuel_Rapalo)

No matter what the judge thinks, one can’t help feeling sorry for Jeffrey Sterling (see the New York Times story below) considering how David Petraeus got away so lightly.

Ex-C.I.A. Officer Sentenced in Leak Case Tied to Times Reporter

By MATT APUZZOMAY 11, 2015

LEXANDRIA, Va. — A former Central Intelligence Agency officer on Monday was sentenced to three and a half years in prison on espionage charges for telling a journalist for The New York Times about a secret operation to disrupt Iran’s nuclear program. The sentence was far less than the Justice Department had wanted.

The former officer, Jeffrey A. Sterling, argued that the Espionage Act, which was passed during World War I, was intended to prosecute spies, not officials who talked to journalists. He asked for the kind of leniency that prosecutors showed to David H. Petraeus, the retired general who last month received probation for providing his highly classified journals to his biographer.

The case revolves around an operation in which a former Russian scientist provided Iran with intentionally flawed nuclear component schematics. Mr. Sterling was convicted in January of disclosing the operation to James Risen, a reporter for The Times, who had revealed it in his 2006 book, “State of War.” Mr. Risen described it as a botched mission that may have inadvertently advanced Iran’s nuclear program.

The Justice Department said that Mr. Sterling’s disclosures compromised an important C.I.A. operation and jeopardized the life of a spy. Under federal sentencing guidelines, he faced more than 20 years in prison, a calculation with which the Justice Department agreed. Prosecutors sought a “severe” sentence in that range.

Prosecutors maintain that the program was successful, and said Mr. Sterling’s disclosure “was borne not of patriotism but of pure spite.” The Justice Department argued that Mr. Sterling, who is black, had a vendetta against the C.I.A., which he had sued for racial discrimination.

Judge Leonie M. Brinkema gave no indication that she was swayed by the government’s argument that the book had disrupted a crucial operation, or harmed national security. She said she was most bothered that the information revealed in “State of War” had jeopardized the safety of the Russian scientist, who was a C.I.A. informant. Of all the types of secrets kept by American intelligence officers, she said, “This is the most critical secret.”

She said Mr. Sterling had to be punished to send a message to other officials. “If you knowingly reveal these secrets, there’s going to be a price to be paid,” she said.

Mr. Sterling, 47, spoke only briefly to thank the judge and court staff for treating him kindly as the case dragged on for years. Barry J. Pollack, a lawyer for Mr. Sterling, said jurors got the verdict wrong when they voted to convict. “That said, the judge today got it right,” he said.

Under federal rules, Mr. Sterling will be eligible for release from prison in just under three years.

The sentence caps a leak investigation that began under President George W. Bush and became a defining case in the Obama administration’s crackdown on government leaks. Under Attorney General Eric H. Holder Jr., the Justice Department prosecuted more people for having unauthorized discussions with reporters than all prior administrations combined.

For years, Mr. Sterling’s case was known most for the Justice Department’s efforts to force Mr. Risen to reveal his source. At the last minute, under pressure from journalist groups and liberal advocates, Mr. Holder relented and did not force Mr. Risen to choose between revealing his source or going to jail. Prosecutors won the case without Mr. Risen’s testimony.

Since the conviction, the case has been notable because of the stark differences in sentences handed down to leakers. Midlevel people like Mr. Sterling have been charged most aggressively. John C. Kiriakou, a former C.I.A. officer, served about two years in prison. Two former government contractors, Donald J. Sachtleben and Stephen J. Kim, are serving prison time. Thomas A. Drake, a former National Security Agency official, faced the prospect of years in prison but received a plea deal on a minor charge and avoided serving time after his lawyers won critical rulings before the trial.

By comparison, the F.B.I. investigated a decorated military leader, retired Gen. James E. Cartwright, after public reports described a highly classified wave of American cyberattacks against Iran. But that investigation has stalled because investigators considered the operation too sensitive to discuss at a public trial.

Mr. Petraeus, meanwhile, retains his status as an adviser to the Obama administration despite giving Paula Broadwell, his biographer, who was also his lover, notebooks containing handwritten classified notes about official meetings, war strategy, intelligence capabilities and the names of covert officers. Ms. Broadwell had a security clearance but was not authorized to receive the information.

Mr. Petraeus also admitted lying to the F.B.I., and the leniency of his plea deal infuriated many prosecutors and agents.

In court documents filed in Mr. Sterling’s case, the Justice Department argued that Mr. Petraeus’s crimes were not comparable. “None of this classified information was included in his biography, made public in any other way, or disclosed by his biographer to any third parties.”

Obama's Still On the Wrong Frequency On Cybersecurity Issues

This is probably the most telling moment of how US President Barack Obama is still on the wrong frequency on cyber matters…

Obama blamed the “impact on their [the tech companies] bottom lines” for the mistrust between the government and Silicon Valley in the aftermath of the Snowden revelations. These were his words, straight from the POTUSA mouth rather than reading from the scripts, in an exclusive interview with Re/code’s Kara Swisher (see video below) following the well publicized cybersecurity summit at Stanford University last Friday, when he signed an executive order to encourage the private sector to share cybersecurity threat information with other companies and the US government.

Contrast that with the high-profile speech by Apple CEO Tim Cook (see video below), who warned about “life and death” and “dire consequences” in sacrificing the right to privacy as technology companies had a duty to protect their customers.

His speech was delivered before Obama’s address to the summit – which the White House organized to foster better cooperation and the sharing of private information with Silicon Valley – best remembered for the absence of leaders from tech giants like Google, Yahoo and Facebook who gave Obama the snub amid growing tensions between Silicon Valley and the Obama administration. Heavyweights whom Obama counted as “my friends” in the Re/code interview (watch closely his expression at the 39th second of the clip above).

Shhh… China to Boost Cyber-Security with the World's First Quantum Communications Network – QC Satellite to Follow Next Year

Amid continuing Sino-US spats on cyber-espionage and related matters, China is beefing up its cyber and national security in a big way as it is reportedly just months away from launching the longest quantum communications network on earth stretching some 2,000 kilometer between its capital Beijing and financial center Shanghai to transfer data close to the speed of light with no hacking risks – initially to transmit sensitive diplomatic and classified information for the government and military with personal and financial data also on the cards for the near future.

And that’s ahead of the previously announced plan for 2016 to become the first country to launch a quantum communications satellite into the orbit.

Looks like Snowden was spot on again. In a post just a month ago, I wrote what he said about how the US (would and) is paying the price for focusing too much on the cyber offensive at the expense of cyber defense.

Meanwhile, following the recent cyber-attack on Sony Pictures, President Barack Obama’s homeland security and counter-terrorism adviser Lisa Monaco announced earlier this week a new intelligence unit – the Cyber Threat Intelligence Integration Center – to take the lead in tracking cyber-threats by pooling and disseminating data on cyber-breaches to other US agencies.

“Currently, no single government entity is responsible for producing coordinated cyber threat assessments,” according to Monaco.


China nears launch of hack-proof ‘quantum communications’ link

Published: Feb 9, 2015 11:13 p.m. ET

Technology to be employed for military and other official uses

BEIJING (Caixin Online) — This may be a quantum-leap year for an initiative that accelerates data transfers close to the speed of light with no hacking threats through so-called “quantum communications” technology.

Within months, China plans to open the world’s longest quantum-communications network, a 2,000-kilometer (1,240-mile) electronic highway linking government offices in the cities of Beijing and Shanghai.

Meanwhile, the country’s aerospace scientists are preparing a communications satellite for a 2016 launch that would be a first step toward building a quantum communications network in the sky. It’s hoped this and other satellites can be used to overcome technical hurdles, such as distance restrictions, facing land-based systems.

Physicists around the world have spent years working on quantum-communications technology. But if all goes as planned, China would be the first country to put a quantum-communications satellite in orbit, said Wang Jianyu, deputy director of the China Academy of Science’s (CAS) Shanghai branch.

At a recent conference on quantum science in Shanghai, Wang said scientists from CAS and other institutions have completed major research and development tasks for launching the satellite equipped with quantum-communications gear.

The satellite program’s likelihood for success was confirmed by China’s leading quantum-communications scientist, Pan Jianwei, a CAS academic who is also a professor of quantum physics at the University of Science and Technology of China (USTC) in Hefei, in the eastern province of Anhui. Pan said researchers reported significant progress on systems development after conducting experiments at a test center in Qinghai province, in the northwest

The satellite would be used to transmit encoded data through a method called quantum key distribution (QKD), which relies on cryptographic keys transmitted via light-pulse signals. QKD is said to be nearly impossible to hack, since any attempted eavesdropping would change the quantum states and thus could be quickly detected by data-flow monitors.

A satellite-based quantum-communications system could be used to build a secure information bridge between the nation’s capital and Urumqi, a city that’s the capital of the restive Xinjiang Uyghur Autonomous Region in the west, Pan said.

It’s likely the technology initially will be used to transmit sensitive diplomatic, government-policy and military information. Future applications could include secure transmissions of personal and financial data.

Plans call for China to put additional satellites into orbit after next year’s ground-breaking launch, Pan said, without divulging how many satellites might be deployed or when. He did say that China hopes to complete a QKD system linking Asia and Europe by 2020, and have a worldwide quantum-communications network in place by 2030.

Success stories

In 2009, China became the first country in the world to put quantum-communications technology to work outside of a laboratory.

In October of that year, a team of scientists led by Pan built a secure network for exchanging information among government officials during a military parade in Beijing celebrating the 60th anniversary of the People’s Republic. The demonstration underscored the research project’s key military application.

“China is completely capable of making full use of quantum communications in a regional war,” Pan said. “The direction of development in the future calls for using relay satellites to realize quantum communications and control that covers the entire army.”

The country is also working to configure the new technology for civilian use.

A pilot quantum-communications network that took 18 months to build was completed in February 2012 in Hefei. The network, which cost the city’s government 60 million yuan ($9.6 million), was designed by Pan’s team to link 40 telephones and 16 video cameras installed at city government agencies, military units, financial institutions and health-care offices.

A similar, civilian-focused network built by Pan’s team in Jinan, the provincial capital of the eastern province of Shandong, started operating in March 2014. It connects some 90 users, most of whom tap the network for general business and information.

In late 2012, Pan’s team installed a quantum-communications network that was used to securely connect the Beijing venue hosting a week-long meeting of the 18th National Congress of the Communist Party, with hotel rooms where delegates stayed, as well as the Zhongnanhai compound in Beijing where the nation’s top leaders live and work.

Next on the development agenda is opening the network linking Beijing and Shanghai. Pan is leading that project as well.

If all goes as planned, Pan said, existing networks in Hefei and Jinan would eventually be tied to the Beijing-Shanghai channel to provide secure communications connecting government and financial agencies in each of the four regions. The new network could be operating as early as 2016.

No room for hype

A quantum code expert said that so far, quantum-communications technology development efforts in China have basically focused on protecting national security. “How important it will be for the public and in everyday life are questions that remain unanswered,” said the expert.

To date, Pan said, technical barriers and the high cost of systems development have kept private capital out of what’s now almost exclusively a government initiative. Moreover, it’s still too early to tell whether the technology has any potential commercial value.

Pan has warned the public not to listen to investment come-ons that hype the money-making potential of quantum-communications businesses. At this stage of the game, he said, the focus is still on technological development, not commercial applications.

Nevertheless, since 2009, USTC has been building a commercial enterprise called Anhui Quantum Communication Technology Co. to produce equipment based on technology developed by Pan and his team. The company is China’s largest quantum-communications equipment supplier. Last September, it said it had started mass-producing quantum-cryptography equipment.

Anhui Quantum general manager Zhao Yong said the company’s clients include financial institutions and government agencies seeking to supplement, not replace, conventional communications systems. Their shared goal, he said, is to improve data security.

Once the technology has matured, said Wang Xiangbin, a physicist at Beijing’s Tsinghua University, its range of applications should be targeted to specific industries and regions because of its high barrier in technology and cost. Quantum communications is not a technology suitable for mass use via the Internet, for example, Wang told a group of scientists at a 2012 seminar.

Some experts say it’s wrong to assume that quantum communications is a flawlessly secure means of transmitting information. Another Tsinghua physics professor, Long Guilu, said quantum communication is only theoretically safe, since malfunctioning equipment or operational errors can open doors to risk.

Experimental systems built in 2007 by Chinese and U.S. physicists reportedly achieved secure QKD transmissions between two points more than 100 kilometers apart. But the experiment also taught scientists that data can be intercepted by a third party during a transmission.

In addressing the naysayers, Pan admitted that quantum communications is not perfect. But he defended it as safer than conventional means of communication. In fact, he said, no means of protecting data is more secure than quantum communications.

To test the capacity and safety of the network linking Beijing and Shanghai, Pan said his team plans to ask other communications experts to carefully study the system and look for potential security holes. The network could then be modified in ways that close any detected gaps and reduce hacking risks.

“Assessments and testing will be conducted after the network is completed,” said Pan, who remains convinced that any network using quantum cryptographic technology is more secure than any other communications channel.

Pan has been working on quantum-communications technology since the late 1990s, when he was a researcher at the University of Vienna and working in a partnership with Austrian physicist Anton Zeilinger. That team is credited with developing the first protocol for quantum communications.

Pan worked with Zeilinger about a decade after U.S. physicist Charles Bennett and colleagues at IBM Research built the world’s first functioning quantum cryptographic system. Based on their research, the first network was installed in the U.S. city of Boston.

Like their counterparts in China, researchers in the United States, Japan and European countries continue work to advance the technology. A key effort is aimed at extending that potential reach of quantum-communications systems, which for years were used only to span short distances.

Some experts have even wondered whether the new technology has been misidentified, since its key feature is high-level cryptography, not electronic communications.

“What we can do now is merely encrypt data, which is far from real quantum communications,” said one expert who declined to be named. “Theoretically it can’t be hacked, but in practice it has many limitations.”

Guo Guangcan, director of USTC’s quantum-communications lab, said networks now operating and those being built in China “achieve encryption only,” whereas true communications networks “involve content.”

“It’s not accurate to call it quantum communications,” said Guo.

Whatever it’s called, China appears determined to push ahead with the research and development that paves the way for a new era of secure communications. And according to Pan, that era is still at least a decade away.

“It will take 10 to 20 years to really put (the technology) into practice,” said Pan.

Rewritten by Han Wei