SB2017080102 - Multiple vulnerabilities in Google Chrome

Description

This security bulletin contains information about 21 secuirty vulnerabilities.

1) Use-after-free error (CVE-ID: CVE-2017-5091)

The vulnerability allows a remote attacker to execute arbitrary code.

The weakness exists due to use-after free error in IndexedDB. A remote attacker can trick the victim into visiting a specially crafted web page, trigger memory corruption and execute arbitrary code with elevated privileges.

Successful exploitation of the vulnerability may result in system compromise.

2) Use-after-free error (CVE-ID: CVE-2017-5092)

The vulnerability allows a remote attacker to execute arbitrary code.

The weakness exists due to use-after free error in PPAPI. A remote attacker can trick the victim into visiting a specially crafted web page, trigger memory corruption and execute arbitrary code with elevated privileges.

Successful exploitation of the vulnerability may result in system compromise.

3) Spoofing attack (CVE-ID: CVE-2017-5093)

The vulnerability allows a remote attacker to perform spoofing attack.

The vulnerability exists due to UI spoofing in Blink. A remote attacker can create a specially crafted web page, trick the victim into visiting it and conduct domain spoofing attacks.

Successful exploitation of the vulnerability results in address spoofing.

4) Type confusion (CVE-ID: CVE-2017-5094)

The vulnerability allows a remote attacker to execute arbitrary code.

The weakness exists due to type confusion in extensions. A remote attacker can trick the victim into visiting a specially crafted web page and execute arbitrary code with elevated privileges.

Successful exploitation of the vulnerability may result in system compromise.

5) Out-of-bounds write (CVE-ID: CVE-2017-5095)

The vulnerability allows a remote attacker to execute arbitrary code.

The weakness exists due to out-of-bounds write in PDFium. A remote attacker can trick the victim into visiting a specially crafted web page and execute arbitrary code with elevated privileges.

Successful exploitation of the vulnerability may result in system compromise.

6) Memory leak (CVE-ID: CVE-2017-5096)

The vulnerability allows a remote attacker to obtain potentially sensitive information on the system.

The weakness exists due to memory leak via Android intents. A remote attacker can trick the victim into visiting a specially crafted web page and read important files on the system.

Successful exploitation of the vulnerability results in information disclosure.

7) Out-of-bounds read (CVE-ID: CVE-2017-5097)

The vulnerability allows a remote attacker to obtain potentially sensitive information on the system.

The weakness exists due to out-of-bounds read in Skia. A remote attacker can trick the victim into visiting a specially crafted web page and read important files on the system.

Successful exploitation of the vulnerability results in information disclosure.

8) Use-after-free error (CVE-ID: CVE-2017-5098)

The vulnerability allows a remote attacker to execute arbitrary code.

The weakness exists due to use-after free error in V8. A remote attacker can trick the victim into visiting a specially crafted web page, trigger memory corruption and execute arbitrary code with elevated privileges.

Successful exploitation of the vulnerability may result in system compromise.

9) Out-of-bounds write (CVE-ID: CVE-2017-5099)

The vulnerability allows a remote attacker to execute arbitrary code.

The weakness exists due to out-of-bounds write in PPAPI. A remote attacker can trick the victim into visiting a specially crafted web page and execute arbitrary code with elevated privileges.

Successful exploitation of the vulnerability may result in system compromise.

10) Use-after-free error (CVE-ID: CVE-2017-5100)

The vulnerability allows a remote attacker to execute arbitrary code.

The weakness exists due to use-after free error in Chrome Apps. A remote attacker can trick the victim into visiting a specially crafted web page, trigger memory corruption and execute arbitrary code with elevated privileges.

Successful exploitation of the vulnerability may result in system compromise.

11) Spoofing attack (CVE-ID: CVE-2017-5101)

The vulnerability allows a remote attacker to perform spoofing attack.

The vulnerability exists due to URL spoofing in OmniBox. A remote attacker can create a specially crafted web page, trick the victim into visiting it and conduct domain spoofing attacks.

Successful exploitation of the vulnerability results in address spoofing.

12) Security restrictions bypass (CVE-ID: CVE-2017-5102)

The vulnerability allows a remote attacker to bypass security restrictions.

The weakness exists due to uninitialized use in Skia. A remote attacker can trick the victim into visiting a specially crafted web page and gain access to the system.

13) Security restrictions bypass (CVE-ID: CVE-2017-5103)

The vulnerability allows a remote attacker to bypass security restrictions.

The weakness exists due to uninitialized use in Skia. A remote attacker can trick the victim into visiting a specially crafted web page and gain access to the system.

14) Spoofing attack (CVE-ID: CVE-2017-5104)

The vulnerability allows a remote attacker to perform spoofing attack.

The vulnerability exists due to UI spoofing in browser. A remote attacker can create a specially crafted web page, trick the victim into visiting it and conduct domain spoofing attacks.

Successful exploitation of the vulnerability results in address spoofing.

15) Spoofing attack (CVE-ID: CVE-2017-5105)

The vulnerability allows a remote attacker to perform spoofing attack.

The vulnerability exists due to URL spoofing in OmniBox. A remote attacker can create a specially crafted web page, trick the victim into visiting it and conduct domain spoofing attacks.

Successful exploitation of the vulnerability results in address spoofing.

16) Spoofing attack (CVE-ID: CVE-2017-5109)

The vulnerability allows a remote attacker to perform spoofing attack.

The vulnerability exists due to UI spoofing in browser. A remote attacker can create a specially crafted web page, trick the victim into visiting it and conduct domain spoofing attacks.

Successful exploitation of the vulnerability results in address spoofing.

17) Spoofing attack (CVE-ID: CVE-2017-5110)

The vulnerability allows a remote attacker to perform spoofing attack.

The vulnerability exists due to UI spoofing in payments dialog. A remote attacker can create a specially crafted web page, trick the victim into visiting it and conduct domain spoofing attacks.

Successful exploitation of the vulnerability results in address spoofing.

18) Spoofing attack (CVE-ID: CVE-2017-5106)

The vulnerability allows a remote attacker to perform spoofing attack.

The vulnerability exists due to URL spoofing in OmniBox. A remote attacker can create a specially crafted web page, trick the victim into visiting it and conduct domain spoofing attacks.

Successful exploitation of the vulnerability results in address spoofing.

19) Memory leak (CVE-ID: CVE-2017-5107)

The vulnerability allows a remote attacker to obtain potentially sensitive information on the system.

The weakness exists due to memory leak via SVG. A remote attacker can trick the victim into visiting a specially crafted web page and read arbitrary files on the system.

Successful exploitation of the vulnerability results in information disclosure.

20) Type confusion (CVE-ID: CVE-2017-5108)

The vulnerability allows a remote attacker to obtain potentially sensitive information on the system.

The weakness exists due to type confusion in PDFium. A remote attacker can trick the victim into visiting a specially crafted web page and read arbitrary files on the system.

Successful exploitation of the vulnerability results in information disclosure.

21) Information disclosure (CVE-ID: CVE-2017-7000)

The vulnerability allows a remote attacker to obtain potentially sensitive information on the system.

The weakness exists due to pointer disclosure in SQLite. A remote attacker can trick the victim into visiting a specially crafted web page and read arbitrary files on the system.

Successful exploitation of the vulnerability results in information disclosure.

Remediation

Install update from vendor's website.

References

• https://chromereleases.googleblog.com/2017/07/stable-channel-update-for-desktop.html