Since the dm_ioctl struct was being allocated on the stack as a large
character array, it was getting character alignment rather than the
proper alignment for the struct. GCC had been getting away with this
so far, but it's undefined behavior that clang managed to expose.
Bug: 18736778
Change-Id: Ied275dfad7fcc41d712b2d02c8a185f499221f57
-Wno-missing-field-initializers is used as well, but that is an
overzealous warning from initializing structs with {0} and not a
real warning.
bug 18736778 and 16868177
Change-Id: Iffde89cd7200d9a11193e1614f1819f9fcace30a
It looks like clang might have a miscompile that is causing SIGBUS in
`ioctl_init` when the device is encrypted. Move back to GCC until we
can sort this out.
Bug: 18736778
Change-Id: I21ae3b9d7d9ebff8679ecc1a828b7c59f27d0903
encrypt-and-wipe was broken when checks were added that encryption succeeded
which assumed a 'normal' full encrypt traversing the device.
encrypt-and-wipe doesn't traverse, it just lays down a file system over
the encrypted device, so in this mode do not check the amount encrypted -
it will always be 0.
Bug: 18511900
Change-Id: Icb1d7e0cdb67abd2eac0ab3cbfc1a88912768f9d
Devices already encrypted with aes-cbc-essiv:sha256 will continue to be
decrypted in software, until a factory data reset. New devices that
implement CONFIG_HW_DISK_ENCRYPTION will switch to aes-xts.
b/17475056 Enable hardware crypto for userdata encryption
Change-Id: I62d1583bdaf7ff06b87e386e758fa3b18c719bca
Signed-off-by: Iliyan Malchev <malchev@google.com>
Currently Android provides disk encryption support using dm-crypt
which is based on bios. dm-crypt uses 512 bytes packet size for
crypto operations. While 512 bytes size packet is ok for SW based
disk encryption, it is inefficient for HW based crypto engines.
dm-req-crypt is similar to dm-crypt except it uses block requests
rathe bios for crypto operations. block requests when unpacked
carries data upto 512KB. Hence, HW based crypto engine can be used
more efficiently.
Also move create disk encryption key before framework start as
HW based disk encryption creates key in secure side. Key creation
can take sometime to create the key securely. If framework is
started before creating the key, it is possible that framework
requests service from secure side. Secure side can serve mostly one
request at a time. Secure side may reject framework request if key
creation request is still going on. This may cause problem in the
system
b/17475056 Enable hardware crypto for userdata encryption
Change-Id: I5480ab72a37c02532218a18faaba598a824589fd
Signed-off-by: Iliyan Malchev <malchev@google.com>
vold should only use hardware keymaster implementations to protect the
disk encryption key, because there's little value in using the software
implementation. More importantly, if we allow vold to use softkeymaster
in the absence of a HW keymaster and (somehow) a HW keymaster is added
to a device, the HW version will be loaded, and will be unable to use
the softkeymaster key found in the crypto footer, forcing a factory
reset.
This CL will not break devices without HW keymaster, because
softkeymaster currently reports its keys as non-standalone (which isn't
correct). After this CL is in, I will fix softkeymaster.
Bug: 17362157
Change-Id: I98b169e7a59ff7d44b72069b87743463ec823ea2
Store long field values in multiple underlying fixed-length entries
and concatenate them together when reading back.
Bug: 17556485
Change-Id: I2f8033d18c208993fa1b010712be0dad5d8b646b
ASAN_ALL uses ASAN for anything built with clang. Since some of vold's
dependencies use clang, they will have unresolved ASAN symbols unless
vold is also built with clang. There's no harm in just moving this
project to clang.
Change-Id: Ia6f412beb7bf092121bff2a5a980531636adcdb9