XS backup restore
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XO initiating a backup
In the following text, all timestamps are integers representing seconds elapsed since the UNIX epoch.
XO side
1. Issue a HTTP GET to XS with path /backup/<protocol version>/last/<this_XO_serial_number> <protocol version> is the integer representing the latest backup protocol version supported by this XO. In protocol version 1, a successful reply consists of two comma-separated integers: timestamp -- timestamp of latest backed up item for this user or 0 if there are no previous backups nonce -- a random 64-bit integer If the sent protocol version is not supported by the school server, it will return a 404 not found error, whose only body contents is a comma-separated list of integers representing the backup protocol versions supported by this school server. If this school server refuses to provide backup service for this XO, it will return a 403 forbidden error. If the school server is too busy to deal with the XO's backup request, it will return a 503 service unavailable error. The XO will sleep 5 minutes and retry.
2. If the request in step 1 succeeded, go to step 3. Otherwise, if none of the backup system versions on the XO (multiple may be present) are in the 'versions' variable listed in the 404 error, abort until next scheduled backup time (we cannot back up to this XS). If a version was returned that also exists locally, go back to step 1 and use that protocol version. 3. Let to_backup_all be the collection of all items currently in the XO's datastore. If returned timestamp in step 1 is 0, let to_backup be the same collection. If not 0, let to_backup be the collection of all items whose timestamp is greater or equal to the returned timestamp. 4. Write out a plaintext index of all items in to_backup, where the index format is defined by the backup protocol version selected in step 2. For version 1, I propose a list of lines where the first line is a single integer stating the backup protocol version, and each following line is a JSON-encoded list describing a single entry in to_backup (metadata and filename). This list may include references to other files (e.g. thumbnails) as part of the metadata. Move this index in the datastore directory to a file called backup.idx overwriting an old such file if present. 5. Write out a plaintext index of all items in to_backup_all where the index format is defined by the backup protocol version selected in step 2. For version 1, I propose a list of lines where the first line is a single integer stating the backup protocol version, and each following line is just a UUID of each object in the list (meaning currently on the XO). Move this index in the datastore directory to a file called backup-state.idx overwriting an old such file if present. 6. For every item in to_backup, also write a line to a text file called backup-files.idx in the datastore directory, overwriting the old file. Each output line contains only the full path to the binary data for each object. For objects that have additional binary files associated (such as thumbnails), output an additional line per file. 7. Run rsync, telling it to read the list of input files from backup-files.idx and write to a directory called backup-new/ in the user's home directory on the school server. Check the exit value from rsync. If non-zero, retry step 7 up to 3 times. If still non-zero, abort until next backup. Otherwise, proceed to step 8. 8. Issue a GET request to the XS, with path /backup/<protocol version>/new/<XO_serial_number>. For protocol version 1, include a Backup-Auth header, whose contents is the hex-digest output of SHA-1(<nonce>+<XO_UUID>), where <nonce> is the value received in step 1, and XO_UUID is this XO's UUID.
XS side
request for last
On the school server, when getting a request for /backup/<protocol version>/last/<SN>:
1. Check if we support the protocol version. If not, return 404 and a list of supported versions. Otherwise, proceed.
protocol version 1
2. Check if we know this machine (can find it in our registration DB on the XS). If not, return 403. We will not offer it backup service. Check if we're too busy to process another concurrent backup (e.g. based on transfer rate or number of rsync processes), if so, return 503. 3. Check if backups for this machine exist. In protocol version 1, if backups don't exist, let timestamp be 0. Otherwise, find the timestamp of the last backed-up object for this machine and return it. (I deliberately don't specify where the school server stores the timestamp, as it might use mysql/sqlite/plain files for this, and the XO doesn't and must not care.) 4. If backups for this machine don't exist yet, let nonce be 0. Otherwise, find the file nonce in the backup hierarchy for this XO, e.g. /backups/<SN>/nonce and load its contents into the variable nonce. 5. Return comma-separated timestamp and nonce in the body of a 200 OK response.
request for new
On the school server, when getting a request for /backup/<protocol version>/new/<SN>:
1. Check if we support the protocol version. If not, return 404 and a list of supported versions. Otherwise, proceed.
protocol version 1
2. If no 'Backup-Auth' header is present, return 403, otherwise proceed. 3. Load the contents of the nonce file from the backup hierarchy for this XO (e.g. /backups/<SN>/nonce) in the nonce variable. If there is no nonce file, use '0' for the nonce variable. 4. Find the XO's UUID in the local database, load into XO_UUID variable. Verify that the contents of the Backup-Auth header match exactly the contents of SHA1(<nonce>+<XO_UUID>). If not, return 403, otherwise return empty (no body) 200 OK request to the client and proceed to next step. (Note: the nonce circus is required to keep a malicious actor from inhibiting all backups on his network by watching for /last GETs, then issuing /new gets 5 seconds later for the same XO. As the backup won't have completed, getting an updater running on the server would invalidate the backup, as will be seen in the following steps.) 5. Spawn an updater process in the background that does this: 5.1. Issue a call to a setuid helper command that makes the 'backup-new' folder in the XO's home directory (on the server) writable by the updater UID. 5.2. Check if a file exists in the XO's home directory, within the dir backup-new, called backup.idx.processing. If the file does not exist, go to step 5.3. If its timestamp is NOT older than 10 minutes, exit the updater. (We don't allow users to force us to do index updates for backups more frequently than once in 10 minutes.) If the timestamp is older than 10 minutes: * Check if a file called backup.idx.processing.pid exists AND is owned by us. If so, read its contents -- it contains a PID of the updater that tried to deal with the new backup -- and issue a SIGKILL to that PID. * Go to step 5.4. 5.3. Move backup.idx to backup.idx.processing and write our own PID to backup.idx.processing.pid. If the move fails (because backup.idx doesn't exist), go to last step. Check if 'backup-state.idx' exists. If not, go to last step. 5.4. Read backup.idx.processing by line. The first line is a single backup protocol integer. If this updater doesn't support this version, the client sent a backup even though we told it not to. Go to last step. For every following line, check that the object filename it references exists in the backup-new folder. If it exists, move this file to the server's real backup hierarchy, e.g. /backups/<SN>/ and add a record to the server's backup DB backend (whatever it is) for this object. If the file doesn't exist, move to next line. 5.5. Move backup-state.idx to server backup hierarchy, e.g. /backup/<SN>/backup-state.idx. Generate a 64-bit nonce and write it out to /backup/<SN>/nonce. 5.6. Delete everything in backup-new and exit the updater.
XO initiates a restore
XO side
1. Issue a HTTP GET to the XS with path /backup/<protocol version>/restore/<this_XO_serial_number>
protocol version 1
The response is 0 or a single absolute path on the XS, pointing to the location of this XO's backup files in the backup hierarchy. If the response is 0, abort and report to user; there are no backups to restore. Otherwise store the path variable for future use. If the request returns a 500, abort and report to user that they must pick out restore files individually from the web interface. If the request returns a 503, wait 1 minute, then retry step 1, otherwise proceed. 2. Let variable index_path be the concatenation of the path variable from step 1 and the string restore.idx. Rsync the file whose path is index_path from the XS to the XO. This file is a set of lines formatted like the contents of a backup.idx file -- produced exactly like in step 4 of the XO-side backup. In other words, the first line repeats the protocol version, and every next line describes a single DS object. If the rsync fails, retry 3 times; if still failing, abort restore and report to user. 3. For every item in this list, parse out any paths to files, and write each one (e.g. one for the binary object, one for the thumbnail) to a local file called restore-files.idx, one per line. Note that the paths contained in 'restore.idx' that we received in step 2 are absolute paths on the schoolserver, e.g. /backups/<SN>/<filename>, and those paths MUST be preserved when writing to restore-files.idx. 4. Run a rsync on the XO, going from the schoolserver to the XO, and pass it restore-files.idx as the list of files to rsync. 5. Check the rsync exit value. If non-zero, retry 3 times. If still non-zero, abort and report failure to the user. 6. Go back through the list received in step 2 line by line. For every file path in the current line (there might be several for e.g. binary object, thumbnail, etc), strip everything except the filename -- remove the directory components. Verify that the files exist locally on the XO. If they don't exist, rsync didn't get all the files back, but there should have been some (because we didn't get 0 for timestamp in step 1) AND rsync thinks it succeeded (because of step 5). Abort restore and report to user that something is wrong. If the files exist, issue a request to the DS to create the object based on the metadata in the line, and pass in stripped file paths for the contents/thumbnail. (Note: if the DS does not support setting creation timestamps or thumbnails through the present API, another function might have to be added specifically for the restore system to use, where such functions are allowed.) 7. If the last line in the list returned in step 1 is processed and stored in the DS, we have succeeded with the restore. Inform user. Eat some ice cream. Do the macarena.
XS side
request for restore
On the school server, when getting a request for /backup/<protocol version>/restore/<SN>:
1. Check if we support the protocol version. If not, return 404 and a list of supported versions. Otherwise, proceed.
protocol v1
2. Check if backups for this machine exist. If not, return 200 OK whose only body contents is 0. Otherwise, proceed. 3. Check if a file called restore.idx exists in the backup hierarchy for the XO. If so, return absolute path to this XO's files in the server backup hierarchy (e.g. /backups/<SN>/) as sole body of a 200 OK response. If it doesn't exist, proceed. 4. Check if a file called restore-state.idx in the backup hierarchy for the XO exists. If not, return error 500. For some reason we don't have a state file for this machine; this shouldn't happen, but it means the user has to pick out objects to restore individually from the web interface. 5. Return 503 service unavailable, and in the background, spawn a restore process that does the following: 5.1. Check if a file called restore-state.idx.processing in the backup hierarchy for this XO exists. If not, proceed to next step. If it exists, and its timestamp is older than 10 minutes, we tried to prepare a restore list for this machine already and somehow failed (e.g. database timeouts, etc). Check if restore-state.idx.processing.pid exists and is owned by us; if so, load its contents and send SIGKILL to the PID, then move to step 5.3. If the timestamp is younger than 10 minutes, exit. 5.2. Move restore-state.idx in the XO's backup hierarchy to restore-state.processing.idx 5.3. Write our own PID to restore-state.processing.idx.pid. 5.4. To a temporary file, write a line containing the backup protocol version. 5.5. For each line in restore-state.processing.idx (representing a UUID), query all the relevant metadata from the XS store and write it, one JSON dictionary-encoded line per object, to the temporary file. Paths of any referenced files (binary objects, thumbnails) must be absolute paths on the XS. If any queries fail, retry with a timeout, and if failure continues, exit the updater. 5.6. When finished, move temporary file to restore.idx in the backup hierarchy for this XO. Unlink restore-state.processing.idx.