Published April 2, 2018 | Updated April 4, 2018
The Android Security Bulletin contains details of security vulnerabilities affecting Android devices. Security patch levels of 2018-04-05 or later address all of these issues. To learn how to check a device's security patch level, see Check and update your Android version.
Android partners are notified of all issues at least a month before publication. Source code patches for these issues have been released to the Android Open Source Project (AOSP) repository and linked from this bulletin. This bulletin also includes links to patches outside of AOSP.
The most severe of these issues is a critical security vulnerability in Media framework that could enable a remote attacker using a specially crafted file to execute arbitrary code within the context of a privileged process. The severity assessment is based on the effect that exploiting the vulnerability would possibly have on an affected device, assuming the platform and service mitigations are turned off for development purposes or if successfully bypassed.
We have had no reports of active customer exploitation or abuse of these newly reported issues. Refer to the Android and Google Play Protect mitigations section for details on the Android security platform protections and Google Play Protect, which improve the security of the Android platform.
Note: Information on the latest over-the-air update (OTA) and firmware images for Google devices is available in the April 2018 Pixel / Nexus Security Bulletin.
Announcements
We would like to thank Qualcomm for their dedicated efforts to improve the security of mobile devices. The 2018-04-05 SPL includes a cumulative list of addressed security issues taken from Qualcomm’s 2014–2016 partner focused bulletins, and is a reflection of their continued effort and commitment.
Android and Google service mitigations
This is a summary of the mitigations provided by the Android security platform and service protections such as Google Play Protect. These capabilities reduce the likelihood that security vulnerabilities could be successfully exploited on Android.
- Exploitation for many issues on Android is made more difficult by enhancements in newer versions of the Android platform. We encourage all users to update to the latest version of Android where possible.
- The Android security team actively monitors for abuse through Google Play Protect and warns users about Potentially Harmful Applications. Google Play Protect is enabled by default on devices with Google Mobile Services, and is especially important for users who install apps from outside of Google Play.
2018-04-01 security patch level vulnerability details
In the sections below, we provide details for each of the security vulnerabilities that apply to the 2018-04-01 patch level. Vulnerabilities are grouped under the component that they affect. There is a description of the issue and a table with the CVE, associated references, type of vulnerability, severity, and updated AOSP versions (where applicable). When available, we link the public change that addressed the issue to the bug ID, like the AOSP change list. When multiple changes relate to a single bug, additional references are linked to numbers following the bug ID.
Android runtime
The most severe vulnerability in this section could enable a remote attacker to bypass user interaction requirements in order to gain access to additional permissions.
CVE | References | Type | Severity | Updated AOSP versions |
---|---|---|---|---|
CVE-2017-13274 | A-71360761 | EoP | High | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
Framework
The most severe vulnerability in this section could enable a local malicious application to bypass operating system protections that isolate application data from other applications.
CVE | References | Type | Severity | Updated AOSP versions |
---|---|---|---|---|
CVE-2017-13275 | A-70808908 | ID | High | 8.0, 8.1 |
Media framework
The most severe vulnerability in this section could enable a remote attacker using a specially crafted file to execute arbitrary code within the context of a privileged process.
CVE | References | Type | Severity | Updated AOSP versions |
---|---|---|---|---|
CVE-2017-13276 | A-70637599 | RCE | Critical | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13277 | A-72165027 | RCE | Critical | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13278 | A-70546581 | EoP | High | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13279 | A-68399439 | DoS | High | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13280 | A-71361451 | DoS | High | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
System
The most severe vulnerability in this section could enable a remote attacker using a specially crafted file to execute arbitrary code within the context of a privileged process.
CVE | References | Type | Severity | Updated AOSP versions |
---|---|---|---|---|
CVE-2017-13281 | A-71603262 | RCE | Critical | 8.0, 8.1 |
CVE-2017-13282 | A-71603315 | RCE | Critical | 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13283 | A-71603410 | RCE | Critical | 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13267 | A-69479009 | RCE | Critical | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13284 | A-70808273 | EoP | Critical | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13285 | A-69177126 | RCE | High | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13286 | A-69683251 | EoP | High | 8.0, 8.1 |
CVE-2017-13287 | A-71714464 | EoP | High | 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13288 | A-69634768 | EoP | High | 8.0, 8.1 |
CVE-2017-13289 | A-70398564 | EoP | High | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13290 | A-69384124 | ID | High | 6.0, 6.0.1, 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
CVE-2017-13291 | A-71603553 | DoS | High | 7.0, 7.1.1, 7.1.2, 8.0, 8.1 |
2018-04-05 security patch level vulnerability details
In the sections below, we provide details for each of the security vulnerabilities that apply to the 2018-04-05 patch level. Vulnerabilities are grouped under the component that they affect and include details such as the CVE, associated references, type of vulnerability, severity, component (where applicable), and updated AOSP versions (where applicable). When available, we link the public change that addressed the issue to the bug ID, like the AOSP change list.
When multiple changes relate to a single bug, additional references are linked to numbers following the bug ID.
Broadcom components
The most severe vulnerability in this section could enable a proximate attacker using a specially crafted file to execute arbitrary code within the context of a privileged process.
CVE | References | Type | Severity | Component |
---|---|---|---|---|
CVE-2017-13292 | A-70722061* B-V2018010201 |
RCE | Critical | bcmdhd driver |
Kernel components
The most severe vulnerability in this section could enable a local malicious application to execute arbitrary code within the context of a privileged process.
CVE | References | Type | Severity | Component |
---|---|---|---|---|
CVE-2017-13293 | A-62679701* | EoP | High | NFC driver |
CVE-2017-16534 | A-69052594 Upstream kernel |
ID | High | USB |
Qualcomm components
The most severe vulnerability in this section could enable a proximate attacker using a specially crafted file to execute arbitrary code within the context of a privileged process.
CVE | References | Type | Severity | Component |
---|---|---|---|---|
CVE-2017-15822 | A-71501534 QC-CR#2123807 |
RCE | Critical | WiFi |
CVE-2017-17770 | A-70237684 QC-CR#2103199 [2] |
EoP | High | Binder |
CVE-2018-3566 | A-72957177 QC-CR#2143847 |
EoP | High | WLAN |
CVE-2018-3563 | A-72956842 QC-CR#2143207 [2] [3] |
EoP | High | Audio Driver |
CVE-2017-13077 | A-72957017 QC-CR#2129237 |
ID | High | WLAN |
Qualcomm closed-source components
These vulnerabilities affect Qualcomm components and are described in further detail in the appropriate Qualcomm AMSS security bulletin or security alert. The severity assessment of these issues is provided directly by Qualcomm.
CVE | References | Type | Severity | Component |
---|---|---|---|---|
CVE-2017-18071 | A-68326813* | N/A | Critical | Closed-source component |
CVE-2017-8274 | A-68141335* | N/A | Critical | Closed-source component |
CVE-2017-18146 | A-70221449* | N/A | Critical | Closed-source component |
CVE-2017-18128 | A-70221448* | N/A | Critical | Closed-source component |
CVE-2018-3592 | A-71501105* | N/A | Critical | Closed-source component |
CVE-2018-3591 | A-71501103* | N/A | Critical | Closed-source component |
CVE-2017-18074 | A-68326816* | N/A | High | Closed-source component |
CVE-2017-18073 | A-68326820* | N/A | High | Closed-source component |
CVE-2017-18125 | A-68326821* | N/A | High | Closed-source component |
CVE-2017-8275 | A-68141336* | N/A | High | Closed-source component |
CVE-2017-11011 | A-68326823* | N/A | High | Closed-source component |
CVE-2017-18137 | A-67712318* | N/A | High | Closed-source component |
CVE-2017-18134 | A-67712320* | N/A | High | Closed-source component |
CVE-2017-18136 | A-68989810* | N/A | High | Closed-source component |
CVE-2017-18140 | A-68989811* | N/A | High | Closed-source component |
CVE-2017-18135 | A-68989813* | N/A | High | Closed-source component |
CVE-2017-18142 | A-68989814* | N/A | High | Closed-source component |
CVE-2017-18138 | A-68989815* | N/A | High | Closed-source component |
CVE-2017-18139 | A-68989819* | N/A | High | Closed-source component |
CVE-2017-18129 | A-68989822* | N/A | High | Closed-source component |
CVE-2017-18132 | A-68989825* | N/A | High | Closed-source component |
CVE-2017-18133 | A-68989826* | N/A | High | Closed-source component |
CVE-2017-18072 | A-68989828* | N/A | High | Closed-source component |
CVE-2017-18126 | A-68989829* | N/A | High | Closed-source component |
CVE-2017-18144 | A-70221450* | N/A | High | Closed-source component |
CVE-2017-18145 | A-70221453* | N/A | High | Closed-source component |
CVE-2017-18147 | A-70221456* | N/A | High | Closed-source component |
CVE-2017-18130 | A-70221460* | N/A | High | Closed-source component |
CVE-2017-18143 | A-70221461* | N/A | High | Closed-source component |
CVE-2017-18127 | A-70221462* | N/A | High | Closed-source component |
CVE-2018-3590 | A-71501106* | N/A | High | Closed-source component |
CVE-2018-3593 | A-71501107* | N/A | High | Closed-source component |
CVE-2018-3589 | A-71501108* | N/A | High | Closed-source component |
CVE-2018-3594 | A-71501112* | N/A | High | Closed-source component |
Qualcomm closed-source components 2014-2016 cumulative update
These vulnerabilities affect Qualcomm components and were shared by Qualcomm with their partners through Qualcomm AMSS security bulletins or security alerts between 2014 and 2016. They are included in this Android security bulletin in order to associate them with a security patch level (many Android devices may have already addressed these issues in prior updates). The severity assessment of these issues is provided directly by Qualcomm.
CVE | References | Type | Severity | Component |
---|---|---|---|---|
CVE-2014-9996 | A-37535090* | N/A | Critical | Closed-source component |
CVE-2014-9971 | A-37546253* | N/A | High | Closed-source component |
CVE-2014-9972 | A-37546853* | N/A | High | Closed-source component |
CVE-2014-10063 | A-37534948* | N/A | High | Closed-source component |
CVE-2014-10057 | A-62261099* | N/A | High | Closed-source component |
CVE-2014-10059 | A-62260706* | N/A | High | Closed-source component |
CVE-2014-10053 | A-37544066* | N/A | High | Closed-source component |
CVE-2014-10054 | A-62261100* | N/A | High | Closed-source component |
CVE-2014-10052 | A-62258372* | N/A | High | Closed-source component |
CVE-2014-10050 | A-37546901* | N/A | High | Closed-source component |
CVE-2014-10055 | A-37545605* | N/A | High | Closed-source component |
CVE-2014-10051 | A-37546302* | N/A | High | Closed-source component |
CVE-2014-10048 | A-62258088* | N/A | High | Closed-source component |
CVE-2014-10062 | A-62258373* | N/A | High | Closed-source component |
CVE-2014-10058 | A-62260741* | N/A | High | Closed-source component |
CVE-2014-10047 | A-37538492* | N/A | High | Closed-source component |
CVE-2014-10045 | A-62258536* | N/A | High | Closed-source component |
CVE-2014-10056 | A-62261338* | N/A | High | Closed-source component |
CVE-2014-9976 | A-37534895* | N/A | High | Closed-source component |
CVE-2014-10043 | A-62259947* | N/A | High | Closed-source component |
CVE-2014-10044 | A-62260777* | N/A | High | Closed-source component |
CVE-2014-10046 | A-62261408* | N/A | High | Closed-source component |
CVE-2014-9981 | A-37534949* | N/A | High | Closed-source component |
CVE-2014-9993 | A-37540928* | N/A | High | Closed-source component |
CVE-2014-9986 | A-37534645* | N/A | High | Closed-source component |
CVE-2014-9994 | A-37538493* | N/A | High | Closed-source component |
CVE-2014-9995 | A-37546303* | N/A | High | Closed-source component |
CVE-2014-9997 | A-37546854* | N/A | High | Closed-source component |
CVE-2014-9988 | A-62258089* | N/A | High | Closed-source component |
CVE-2014-9990 | A-62261216* | N/A | High | Closed-source component |
CVE-2014-9987 | A-62261293* | N/A | High | Closed-source component |
CVE-2014-9989 | A-62261380* | N/A | High | Closed-source component |
CVE-2014-9991 | A-62261409* | N/A | High | Closed-source component |
CVE-2014-10039 | A-62261608* | N/A | High | Closed-source component |
CVE-2014-9985 | A-62261609* | N/A | High | Closed-source component |
CVE-2015-9204 | A-37540929* | N/A | High | Closed-source component |
CVE-2015-0574 | A-37546304* | N/A | High | Closed-source component |
CVE-2015-9205 | A-37534696* | N/A | High | Closed-source component |
CVE-2015-9221 | A-37534796* | N/A | High | Closed-source component |
CVE-2015-9212 | A-37535795* | N/A | High | Closed-source component |
CVE-2015-9210 | A-62258538* | N/A | High | Closed-source component |
CVE-2015-9211 | A-62261217* | N/A | High | Closed-source component |
CVE-2015-9207 | A-62261410* | N/A | High | Closed-source component |
CVE-2015-9202 | A-37540473* | N/A | High | Closed-source component |
CVE-2015-9213 | A-37547700* | N/A | High | Closed-source component |
CVE-2015-9209 | A-38193247* | N/A | High | Closed-source component |
CVE-2015-9203 | A-62261218* | N/A | High | Closed-source component |
CVE-2015-9206 | A-62261294* | N/A | High | Closed-source component |
CVE-2015-9215 | A-62251854* | N/A | High | Closed-source component |
CVE-2015-9216 | A-62260780* | N/A | High | Closed-source component |
CVE-2015-9169 | A-37535098* | N/A | High | Closed-source component |
CVE-2015-9173 | A-37536244* | N/A | High | Closed-source component |
CVE-2015-9179 | A-37542567* | N/A | High | Closed-source component |
CVE-2015-9177 | A-37544075* | N/A | High | Closed-source component |
CVE-2015-9187 | A-37544109* | N/A | High | Closed-source component |
CVE-2015-9162 | A-37544110* | N/A | High | Closed-source component |
CVE-2015-9172 | A-37545607* | N/A | High | Closed-source component |
CVE-2015-9181 | A-37546754* | N/A | High | Closed-source component |
CVE-2015-9219 | A-37546859* | N/A | High | Closed-source component |
CVE-2015-9183 | A-37546860* | N/A | High | Closed-source component |
CVE-2015-9182 | A-37546904* | N/A | High | Closed-source component |
CVE-2015-9185 | A-37546952* | N/A | High | Closed-source component |
CVE-2015-9184 | A-37546953* | N/A | High | Closed-source component |
CVE-2015-9170 | A-37546954* | N/A | High | Closed-source component |
CVE-2015-9175 | A-37547404* | N/A | High | Closed-source component |
CVE-2015-9171 | A-37547405* | N/A | High | Closed-source component |
CVE-2015-9192 | A-37547750* | N/A | High | Closed-source component |
CVE-2015-9208 | A-62258540* | N/A | High | Closed-source component |
CVE-2015-9224 | A-62259949* | N/A | High | Closed-source component |
CVE-2015-9201 | A-62260711* | N/A | High | Closed-source component |
CVE-2015-9200 | A-62260779* | N/A | High | Closed-source component |
CVE-2015-9198 | A-62261219* | N/A | High | Closed-source component |
CVE-2015-9196 | A-62261339* | N/A | High | Closed-source component |
CVE-2015-9199 | A-62261411* | N/A | High | Closed-source component |
CVE-2015-9174 | A-62258090* | N/A | High | Closed-source component |
CVE-2015-9178 | A-62258541* | N/A | High | Closed-source component |
CVE-2015-9180 | A-62260712* | N/A | High | Closed-source component |
CVE-2015-9176 | A-62260713* | N/A | High | Closed-source component |
CVE-2015-9189 | A-62260820* | N/A | High | Closed-source component |
CVE-2015-9188 | A-62260821* | N/A | High | Closed-source component |
CVE-2015-0576 | A-37543715* | N/A | High | Closed-source component |
CVE-2015-9156 | A-62260743* | N/A | High | Closed-source component |
CVE-2015-9195 | A-62251855* | N/A | High | Closed-source component |
CVE-2015-9197 | A-62260742* | N/A | High | Closed-source component |
CVE-2015-9218 | A-62260781* | N/A | High | Closed-source component |
CVE-2015-9217 | A-62261295* | N/A | High | Closed-source component |
CVE-2015-9166 | A-62251856* | N/A | High | Closed-source component |
CVE-2015-9164 | A-62258542* | N/A | High | Closed-source component |
CVE-2015-9190 | A-62259744* | N/A | High | Closed-source component |
CVE-2015-9159 | A-62259745* | N/A | High | Closed-source component |
CVE-2015-9167 | A-62259950* | N/A | High | Closed-source component |
CVE-2015-9191 | A-62260394* | N/A | High | Closed-source component |
CVE-2015-9161 | A-62260462* | N/A | High | Closed-source component |
CVE-2015-9163 | A-62260822* | N/A | High | Closed-source component |
CVE-2015-9158 | A-62261381* | N/A | High | Closed-source component |
CVE-2015-9152 | A-37546305* | N/A | High | Closed-source component |
CVE-2015-9144 | A-37540474* | N/A | High | Closed-source component |
CVE-2015-9165 | A-37539224* | N/A | High | Closed-source component |
CVE-2015-9223 | A-37543718* | N/A | High | Closed-source component |
CVE-2015-9222 | A-62258374* | N/A | High | Closed-source component |
CVE-2015-9193 | A-62259951* | N/A | High | Closed-source component |
CVE-2015-9194 | A-62261296* | N/A | High | Closed-source component |
CVE-2015-9153 | A-62260395* | N/A | High | Closed-source component |
CVE-2015-9151 | A-62260396* | N/A | High | Closed-source component |
CVE-2015-9148 | A-62260463* | N/A | High | Closed-source component |
CVE-2015-9149 | A-62260744* | N/A | High | Closed-source component |
CVE-2015-9146 | A-62260745* | N/A | High | Closed-source component |
CVE-2015-9186 | A-62261340* | N/A | High | Closed-source component |
CVE-2015-9150 | A-62261341* | N/A | High | Closed-source component |
CVE-2015-9147 | A-62261488* | N/A | High | Closed-source component |
CVE-2015-8593 | A-37535091* | N/A | High | Closed-source component |
CVE-2015-9160 | A-37546254* | N/A | High | Closed-source component |
CVE-2015-8594 | A-37546855* | N/A | High | Closed-source component |
CVE-2015-9145 | A-37535099* | N/A | High | Closed-source component |
CVE-2015-9143 | A-62260900* | N/A | High | Closed-source component |
CVE-2015-9157 | A-62260934* | N/A | High | Closed-source component |
CVE-2015-9141 | A-62261297* | N/A | High | Closed-source component |
CVE-2015-9140 | A-62259746* | N/A | High | Closed-source component |
CVE-2015-9135 | A-37546950* | N/A | High | Closed-source component |
CVE-2015-9138 | A-62259952* | N/A | High | Closed-source component |
CVE-2015-9136 | A-62260823* | N/A | High | Closed-source component |
CVE-2015-9137 | A-62260975* | N/A | High | Closed-source component |
CVE-2015-9131 | A-37542272* | N/A | High | Closed-source component |
CVE-2015-9139 | A-62251857* | N/A | High | Closed-source component |
CVE-2015-9130 | A-62252820* | N/A | High | Closed-source component |
CVE-2015-9129 | A-62260397* | N/A | High | Closed-source component |
CVE-2015-9133 | A-62260464* | N/A | High | Closed-source component |
CVE-2015-9127 | A-62260824* | N/A | High | Closed-source component |
CVE-2015-9132 | A-62260976* | N/A | High | Closed-source component |
CVE-2015-9134 | A-62261382* | N/A | High | Closed-source component |
CVE-2015-9128 | A-62261610* | N/A | High | Closed-source component |
CVE-2015-9065 | A-37538494* | N/A | High | Closed-source component |
CVE-2015-9064 | A-37546801* | N/A | High | Closed-source component |
CVE-2015-9063 | A-37546802* | N/A | High | Closed-source component |
CVE-2015-9126 | A-62258375* | N/A | High | Closed-source component |
CVE-2015-9124 | A-62252821* | N/A | High | Closed-source component |
CVE-2015-9142 | A-62260901* | N/A | High | Closed-source component |
CVE-2015-9066 | A-37540467* | N/A | High | Closed-source component |
CVE-2014-9998 | A-62260398* | N/A | High | Closed-source component |
CVE-2015-9220 | A-62261299* | N/A | High | Closed-source component |
CVE-2015-9122 | A-62261611* | N/A | High | Closed-source component |
CVE-2015-9123 | A-62259953* | N/A | High | Closed-source component |
CVE-2015-9118 | A-62261220* | N/A | High | Closed-source component |
CVE-2015-9120 | A-62261298* | N/A | High | Closed-source component |
CVE-2015-9119 | A-62261489* | N/A | High | Closed-source component |
CVE-2015-9116 | A-37540934* | N/A | High | Closed-source component |
CVE-2015-9115 | A-37544076* | N/A | High | Closed-source component |
CVE-2015-9113 | A-37544077* | N/A | High | Closed-source component |
CVE-2015-9112 | A-62258091* | N/A | High | Closed-source component |
CVE-2015-9114 | A-62259954* | N/A | High | Closed-source component |
CVE-2015-9111 | A-62260465* | N/A | High | Closed-source component |
CVE-2015-9108 | A-62260714* | N/A | High | Closed-source component |
CVE-2015-9109 | A-62260977* | N/A | High | Closed-source component |
CVE-2015-9110 | A-62261383* | N/A | High | Closed-source component |
CVE-2016-10492 | A-62261300* | N/A | High | Closed-source component |
CVE-2016-10482 | A-62260978* | N/A | High | Closed-source component |
CVE-2016-10483 | A-62258092* | N/A | High | Closed-source component |
CVE-2016-10489 | A-62258093* | N/A | High | Closed-source component |
CVE-2016-10487 | A-62259955* | N/A | High | Closed-source component |
CVE-2016-10477 | A-62260399* | N/A | High | Closed-source component |
CVE-2016-10485 | A-62260902* | N/A | High | Closed-source component |
CVE-2016-10478 | A-62260979* | N/A | High | Closed-source component |
CVE-2016-10476 | A-62260980* | N/A | High | Closed-source component |
CVE-2016-10475 | A-62260981* | N/A | High | Closed-source component |
CVE-2016-10474 | A-62260982* | N/A | High | Closed-source component |
CVE-2016-10494 | A-62261102* | N/A | High | Closed-source component |
CVE-2016-10484 | A-62261342* | N/A | High | Closed-source component |
CVE-2016-10491 | A-62261490* | N/A | High | Closed-source component |
CVE-2016-10486 | A-62267788* | N/A | High | Closed-source component |
CVE-2016-10472 | A-62259956* | N/A | High | Closed-source component |
CVE-2016-10490 | A-62260468* | N/A | High | Closed-source component |
CVE-2016-10480 | A-62261301* | N/A | High | Closed-source component |
CVE-2016-10467 | A-37526814* | N/A | High | Closed-source component |
CVE-2016-10495 | A-62261103* | N/A | High | Closed-source component |
CVE-2016-10481 | A-62260401* | N/A | High | Closed-source component |
CVE-2016-10479 | A-62261412* | N/A | High | Closed-source component |
CVE-2016-10384 | A-37536238* | N/A | High | Closed-source component |
CVE-2016-10385 | A-37544067* | N/A | High | Closed-source component |
CVE-2016-10452 | A-37523164* | N/A | High | Closed-source component |
CVE-2016-10423 | A-37534896* | N/A | High | Closed-source component |
CVE-2016-10424 | A-37540034* | N/A | High | Closed-source component |
CVE-2016-10449 | A-37546861* | N/A | High | Closed-source component |
CVE-2016-10454 | A-37544078* | N/A | High | Closed-source component |
CVE-2016-10450 | A-62260825* | N/A | High | Closed-source component |
CVE-2016-10451 | A-62267789* | N/A | High | Closed-source component |
CVE-2016-10386 | A-37534646* | N/A | High | Closed-source component |
CVE-2016-10469 | A-37542273* | N/A | High | Closed-source component |
CVE-2016-10440 | A-37535092* | N/A | High | Closed-source component |
CVE-2016-10499 | A-62259957* | N/A | High | Closed-source component |
CVE-2016-10446 | A-37547406* | N/A | High | Closed-source component |
CVE-2016-10473 | A-62260746* | N/A | High | Closed-source component |
CVE-2016-10466 | A-62260783* | N/A | High | Closed-source component |
CVE-2016-10457 | A-62260826* | N/A | High | Closed-source component |
CVE-2016-10442 | A-62267790* | N/A | High | Closed-source component |
CVE-2016-10433 | A-37540468* | N/A | High | Closed-source component |
CVE-2016-10430 | A-37540930* | N/A | High | Closed-source component |
CVE-2016-10445 | A-37545608* | N/A | High | Closed-source component |
CVE-2016-10426 | A-62252822* | N/A | High | Closed-source component |
CVE-2016-10435 | A-62260402* | N/A | High | Closed-source component |
CVE-2016-10425 | A-62260983* | N/A | High | Closed-source component |
CVE-2016-10438 | A-62261302* | N/A | High | Closed-source component |
CVE-2016-10436 | A-62261494* | N/A | High | Closed-source component |
CVE-2016-10439 | A-62263656* | N/A | High | Closed-source component |
CVE-2016-10431 | A-37540931* | N/A | High | Closed-source component |
CVE-2016-10434 | A-37540932* | N/A | High | Closed-source component |
CVE-2016-10432 | A-37546902* | N/A | High | Closed-source component |
CVE-2016-10462 | A-37539225* | N/A | High | Closed-source component |
CVE-2016-10443 | A-37540475* | N/A | High | Closed-source component |
CVE-2016-10427 | A-62261495* | N/A | High | Closed-source component |
CVE-2016-10387 | A-32583751* | N/A | High | Closed-source component |
CVE-2016-10390 | A-37536239* | N/A | High | Closed-source component |
CVE-2016-10498 | A-32582870* | N/A | High | Closed-source component |
CVE-2016-10419 | A-32577129* | N/A | High | Closed-source component |
CVE-2016-10420 | A-32579916* | N/A | High | Closed-source component |
CVE-2016-10429 | A-32579411* | N/A | High | Closed-source component |
CVE-2016-10493 | A-32574787* | N/A | High | Closed-source component |
CVE-2016-10447 | A-37542968* | N/A | High | Closed-source component |
CVE-2016-10444 | A-37544163* | N/A | High | Closed-source component |
CVE-2016-5348 | A-37546905* | N/A | High | Closed-source component |
CVE-2016-10421 | A-32579095* | N/A | High | Closed-source component |
CVE-2016-10455 | A-32580964* | N/A | High | Closed-source component |
CVE-2016-10441 | A-32582927* | N/A | High | Closed-source component |
CVE-2016-10418 | A-37547407* | N/A | High | Closed-source component |
CVE-2016-10417 | A-32576287* | N/A | High | Closed-source component |
CVE-2016-10464 | A-32580243* | N/A | High | Closed-source component |
CVE-2016-10458 | A-32583424* | N/A | High | Closed-source component |
CVE-2016-10471 | A-37539226* | N/A | High | Closed-source component |
CVE-2016-10416 | A-62259747* | N/A | High | Closed-source component |
CVE-2016-10411 | A-62260404* | N/A | High | Closed-source component |
CVE-2016-10496 | A-62260469* | N/A | High | Closed-source component |
CVE-2016-10410 | A-62260936* | N/A | High | Closed-source component |
CVE-2016-10414 | A-62260937* | N/A | High | Closed-source component |
CVE-2016-10461 | A-62263657* | N/A | High | Closed-source component |
CVE-2016-10460 | A-62271227* | N/A | High | Closed-source component |
CVE-2016-10392 | A-37544068* | N/A | High | Closed-source component |
CVE-2016-10409 | A-37544164* | N/A | High | Closed-source component |
CVE-2016-10459 | A-62260716* | N/A | High | Closed-source component |
CVE-2016-10407 | A-62261222* | N/A | High | Closed-source component |
CVE-2016-10406 | A-62267791* | N/A | High | Closed-source component |
CVE-2016-10497 | A-62271228* | N/A | High | Closed-source component |
CVE-2016-10501 | A-62261303* | N/A | High | Closed-source component |
CVE-2016-10381 | A-37539788* | N/A | Moderate | Closed-source component |
CVE-2016-10380 | A-37541976* | N/A | Moderate | Closed-source component |
CVE-2016-10412 | A-37536245* | N/A | Moderate | Closed-source component |
CVE-2016-10415 | A-62260403* | N/A | Moderate | Closed-source component |
CVE-2016-10422 | A-37542966* | N/A | Moderate | Closed-source component |
CVE-2016-10456 | A-62261413* | N/A | Moderate | Closed-source component |
CVE-2016-10428 | A-37534697* | N/A | Moderate | Closed-source component |
CVE-2016-10448 | A-62261414* | N/A | Moderate | Closed-source component |
CVE-2016-10437 | A-62260715* | N/A | Moderate | Closed-source component |
Common questions and answers
This section answers common questions that may occur after reading this bulletin.
1. How do I determine if my device is updated to address these issues?
To learn how to check a device's security patch level, see Check and update your Android version.
- Security patch levels of 2018-04-01 or later address all issues associated with the 2018-04-01 security patch level.
- Security patch levels of 2018-04-05 or later address all issues associated with the 2018-04-05 security patch level and all previous patch levels.
Device manufacturers that include these updates should set the patch string level to:
- [ro.build.version.security_patch]:[2018-04-01]
- [ro.build.version.security_patch]:[2018-04-05]
2. Why does this bulletin have two security patch levels?
This bulletin has two security patch levels so that Android partners have the flexibility to fix a subset of vulnerabilities that are similar across all Android devices more quickly. Android partners are encouraged to fix all issues in this bulletin and use the latest security patch level.
- Devices that use the 2018-04-01 security patch level must include all issues associated with that security patch level, as well as fixes for all issues reported in previous security bulletins.
- Devices that use the security patch level of 2018-04-05 or newer must include all applicable patches in this (and previous) security bulletins.
Partners are encouraged to bundle the fixes for all issues they are addressing in a single update.
3. What do the entries in the Type column mean?
Entries in the Type column of the vulnerability details table reference the classification of the security vulnerability.
Abbreviation | Definition |
---|---|
RCE | Remote code execution |
EoP | Elevation of privilege |
ID | Information disclosure |
DoS | Denial of service |
N/A | Classification not available |
4. What do the entries in the References column mean?
Entries under the References column of the vulnerability details table may contain a prefix identifying the organization to which the reference value belongs.
Prefix | Reference |
---|---|
A- | Android bug ID |
QC- | Qualcomm reference number |
M- | MediaTek reference number |
N- | NVIDIA reference number |
B- | Broadcom reference number |
5. What does a * next to the Android bug ID in the References column mean?
Issues that are not publicly available have a * next to the Android bug ID in the References column. The update for that issue is generally contained in the latest binary drivers for Nexus devices available from the Google Developer site.
6. Why are security vulnerabilities split between this bulletin and device/partner security bulletins, such as the Pixel / Nexus bulletin?
Security vulnerabilities that are documented in this security bulletin are required in order to declare the latest security patch level on Android devices. Additional security vulnerabilities that are documented in the device/partner security bulletins are not required for declaring a security patch level. Android device and chipset manufacturers are encouraged to document the presence of other fixes on their devices through their own security websites, such as the Samsung, LGE, or Pixel / Nexus security bulletins.
Versions
Version | Date | Notes |
---|---|---|
1.0 | April 2, 2018 | Bulletin published. |
1.1 | April 4, 2018 | Bulletin revised to include AOSP links. |
1.2 | May 1, 2018 | Bulletin revised to remove CVE-2017-5754 from the Kernel Components section. It now appears in the May 2018 bulletin. |