platform_system_core/fs_mgr
Tom Cherry eb6da459a0 fs_mgr: test parsing all mount and fs mgr options
Test: these new unit tests
Change-Id: Ibdecf0c97b313dc157b982340ca022b617757383
2019-01-25 16:03:52 -08:00
..
include fs_mgr: Add a helper for creating one-off dynamic partitions. 2019-01-07 18:31:54 -08:00
include_fstab/fstab fs_mgr: convert parse_flags over to C++ 2019-01-25 16:03:39 -08:00
libdm disable darwin build for libdm 2019-01-15 22:57:00 +00:00
libfiemap_writer Expose IsFilePinned through FiemapWriter. 2019-01-23 13:54:19 -08:00
libfs_avb libfs_avb: support loading vbmeta structs from any partition 2019-01-24 17:43:25 +08:00
liblp Don't error on block size mismatches. 2019-01-23 19:24:03 -08:00
tests fs_mgr: test parsing all mount and fs mgr options 2019-01-25 16:03:52 -08:00
tools dmctl: Add verbose 'dmctl list devices' 2018-12-19 08:51:59 -08:00
.clang-format
Android.bp init: Add support for GSI installations in first-stage mount. 2019-01-16 17:45:07 -08:00
fs_mgr.cpp fs_mgr: set ext4 fsverity feature bit 2019-01-22 12:22:13 +08:00
fs_mgr_boot_config.cpp fs_mgr: Fix kernel command line parsing 2018-12-19 20:03:10 +02:00
fs_mgr_dm_linear.cpp fs_mgr: Add a helper for creating one-off dynamic partitions. 2019-01-07 18:31:54 -08:00
fs_mgr_format.cpp Start using new C++ Fstab class widely 2018-12-12 17:08:09 +00:00
fs_mgr_fstab.cpp fs_mgr: convert parse_flags over to C++ 2019-01-25 16:03:39 -08:00
fs_mgr_overlayfs.cpp fs_mgr: overlay: support non-DAP A/B devices 2019-01-23 16:38:33 +00:00
fs_mgr_priv.h fs_mgr: set ext4 fsverity feature bit 2019-01-22 12:22:13 +08:00
fs_mgr_priv_boot_config.h fs_mgr: fs_mgr_get_boot_config_from_kernel_cmdline deal with quote 2018-06-08 16:04:17 -07:00
fs_mgr_roots.cpp Add none to supported fs type 2019-01-04 15:28:30 -08:00
fs_mgr_slotselect.cpp libfs_avb: support loading vbmeta structs from any partition 2019-01-24 17:43:25 +08:00
fs_mgr_vendor_overlay.cpp Allow product partition to have vendor_overlay 2018-11-27 23:34:00 +00:00
fs_mgr_verity.cpp Start using new C++ Fstab class widely 2018-12-12 17:08:09 +00:00
OWNERS fs_mgr: add dvander@ to OWNERS 2019-01-18 16:36:59 -08:00
README.overlayfs.md adb remount documentation error 2019-01-14 13:25:01 -08:00

Android Overlayfs integration with adb remount

Introduction

Users working with userdebug or eng builds expect to be able to remount the system partition as read-write and then add or modify any number of files without reflashing the system image, which is understandably efficient for a development cycle. Limited memory systems that chose to use readonly filesystems like squashfs, or Logical Resizable Android Partitions which land system partition images right-sized, and with filesystem that have been deduped on the block level to compress the content; means that either a remount is not possible directly, or when done offers little or no utility because of remaining space limitations or support logistics.

Overlayfs comes to the rescue for these debug scenarios, and logic will automatically setup backing storage for a writable filesystem as an upper reference, and mount overtop the lower. These actions will be performed in the adb disable-verity and adb remount requests.

Operations

Cookbook

The typical action to utilize the remount facility is:

$ adb root
$ adb disable-verity
$ adb reboot
$ adb wait-for-device
$ adb root
$ adb remount

Followed by one of the following:

$ adb stop
$ adb sync
$ adb start
$ adb reboot

or

$ adb push <source> <destination>
$ adb reboot

Note that the sequence above:

$ adb disable-verity
$ adb reboot

or

$ adb remount

can be replaced in both places with:

$ adb remount -R

which will not reboot if everything is already prepared and ready to go.

None of this changes if overlayfs needs to be engaged. The decisions whether to use traditional direct filesystem remount, or one wrapped by overlayfs is automatically determined based on a probe of the filesystem types and space remaining.

Backing Storage

When overlayfs logic is feasible, it will use either the /cache/overlay/ directory for non-A/B devices, or the /mnt/scratch/overlay directory for A/B devices that have access to Logical Resizeable Android Partitions. The backing store is used as soon as possible in the boot process and can occur at first stage init, or at the mount_all init rc commands.

This early as possible attachment of overlayfs means that sepolicy or init itself can also be pushed and used after the exec phases that accompany each stage.

Caveats

  • Space used in the backing storage is on a file by file basis and will require more space than if updated in place. As such it is important to be mindful of any wasted space, for instance BOARD_IMAGE_PARTITION_RESERVED_SIZE being defined will have a negative impact on the overall right-sizing of images and thus free dynamic partition space.
  • Kernel must have CONFIG_OVERLAY_FS=y and will need to be patched with "overlayfs: override_creds=off option bypass creator_cred" if higher than 4.6.
  • adb enable-verity will free up overlayfs and as a bonus the device will be reverted pristine to before any content was updated. Update engine does not take advantage of this, will perform a full OTA.
  • Update engine may not run if fs_mgr_overlayfs_is_setup() reports true as adb remount overrides are incompatable with an OTA resources.
  • For implementation simplicity on retrofit dynamic partition devices, take the whole alternate super (eg: if "a" slot, then the whole of "system_b"). Since landing a filesystem on the alternate super physical device without differentiating if it is setup to support logical or physical, the alternate slot metadata and previous content will be lost.
  • If dynamic partitions runs out of space, resizing a logical partition larger may fail because of the scratch partition. If this happens, either fastboot flashall or adb enable-verity can be used to clear scratch storage to permit the flash. Then reinstate the overrides and continue.
  • File bugs or submit fixes for review.