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I'm trying to determine if my sqlite access to a database is thread-safe on iOS. I'm writing a non App Store app (or possibly a launch daemon), so Apple's approval isn't an issue. The database in question is the built-in sms.db, so for sure the OS is also accessing this database for reading and writing. I only want to be able to safely read it.

I've read this about reading from multiple processes with sqlite:

Multiple processes can have the same database open at the same time. Multiple processes can be doing a SELECT at the same time. But only one process can be making changes to the database at any moment in time, however.

I understand that thread-safety can be compiled out of sqlite, and that sqlite3_threadsafe() can be used to test for this. Running this on iOS 5.0.1

int safe = sqlite3_threadsafe();

yields a result of 2. According to this, that means mutex locking is available. But, that doesn't necessarily mean it's in use.

I'm not entirely clear on whether thread-safety is dynamically enabled on a per connection, per database, or global basis.

I have also read this. It looks like sqlite3_config() can be used to enable safe multi-threading, but of course, I have no control, or visibility into how the OS itself may have used this call (do I?). If I were to make that call again in my app, would it make it safe to read the database, or would it only deconflict concurrent access for multiple threads in my app that used the same sqlite3 database handle?

Anyway, my question is ...

can I safely read this database that's also accessed by iOS, and if so, how?

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2 Answers 2

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I've never used SQLite, but I've spent a decent amount of time reading its docs because I plan on using it in the future (and the docs are interesting). I'd say that thread safety is independent of whether multiple processes can access the same database file at once. SQLite, regardless of what threading mode it is in, will lock the database file, so that multiple processes can read from the database at once but only one can write.

Thread safety only affects how your process can use SQLite. Without any thread safety, you can only call SQLite functions from one thread. But it should still, say, take an EXCLUSIVE lock before writing, so that other processes can't corrupt the database file. Thread safety just protects data in your process's memory from getting corrupted if you use multiple threads. So I don't think you ever need to worry about what another process (in this case iOS) is doing with an SQLite database.

Edit: To clarify, any time you write to the database, including a plain INSERT/UPDATE/DELETE, it will automatically take an EXCLUSIVE lock, write to the database, then release the lock. (And it actually takes a SHARED lock, then a RESERVED lock, then a PENDING lock, then an EXCLUSIVE lock before writing.) By default, if the database is already locked (say from another process), then SQLite will return SQLITE_BUSY without waiting. You can call sqlite3_busy_timeout() to tell it to wait longer.

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When you say "it should still, say, take an EXCLUSIVE lock before writing", do you mean that SQLite will automatically do this for me? Or that I (or the iOS SMS framework) am responsible for this? For example, do I (or iOS) need to issue a BEGIN EXCLUSIVE TRANSACTION; statement before writing? –  Nate Jul 7 '12 at 3:26
    
I added an edit. BEGIN EXCLUSIVE TRANSACTION is for taking an EXCLUSIVE lock at the beginning of a transaction. By default, SQLite waits as long as it can. From the docs: Note that the BEGIN command does not acquire any locks on the database. After a BEGIN command, a SHARED lock will be acquired when the first SELECT statement is executed. A RESERVED lock will be acquired when the first INSERT, UPDATE, or DELETE statement is executed. ... –  Jordan Miner Jul 7 '12 at 9:18
    
... No EXCLUSIVE lock is acquired until either the memory cache fills up and must be spilled to disk or until the transaction commits. In this way, the system delays blocking read access to the file file until the last possible moment. Also, even if you don't use BEGIN TRANSACTION, all statements are still in an implicit transaction. –  Jordan Miner Jul 7 '12 at 9:21
    
Many thanks. One last question, and then the bounty is yours! I just found this question. Do you think the answer given is incorrect (i.e. you don't need an explicit BEGIN to start a transaction)? –  Nate Jul 7 '12 at 9:31
    
From the docs: An implicit transaction (a transaction that is started automatically, not a transaction started by BEGIN) is committed automatically when the last active statement finishes. So you don't need a BEGIN for a transaction. You can pass a plain INSERT statement to sqlite3_exec(), and it will run as an implicit transaction. But that answer might just be giving advice to use BEGIN IMMEDIATE instead of just BEGIN. That would make your code cleaner, but you don't have to. ... –  Jordan Miner Jul 7 '12 at 10:52
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I don't think any of this is news to you, but a few thoughts:

In terms of enabling multi-threading (either serialized or multi-threaded), the general counsel is that one can invoke sqlite3_config() (but you may have to do a shutdown first as suggested in the docs or as discussed on SO here) to enable the sort of multi-threading you want. That may be of diminished usefulness here, though, where you have no control over what sort of access iOS is requesting of sqlite and/or this database.

Thus, I would have thought that, from an academic perspective, it would not be safe to read this system database (because as you say, you have no assurance of what the OS is doing). But I wouldn't be surprised if iOS is opening the database using whatever the default mode is, so from a more pragmatic perspective, you might be fine.

Clearly, for most users concerned about multi-threaded access within a single app, the best counsel would be to bypass the sqlite3_config() silliness and just simply ensure coordinated access through your own GCD serial queue (i.e., have a dedicated queue through which all database interactions go through, gracefully eliminating the multi-thread issue altogether). Sadly, that's not an option here because you're trying to coordinate database interaction with iOS itself.

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thanks for your thoughtful and well written response. first, about shutdown ... does sqlite3_shutdown() shutdown sqlite for the entire OS, because if so, that seems to also be another interprocess thread-safety problem. i guess one unsafe operation might be better than doing something unsafe every time I want to read the .db, but maybe not? –  Nate Jun 16 '12 at 21:03
    
and secondly, GCD queues seem like a good way to coordinate access between multiple threads of my own, but that's not my problem (in fact, my app will probably only ever use one thread of its own for sql operations). how can I force iOS to also use the queues? or am I missing something (usually, when I ask that question the answer is "yes"!) –  Nate Jun 16 '12 at 21:05
    
@Nate Regarding your first question re sqlite3_shutdown(), I can't answer that. I was just quoting those other references. It doesn't strike me as a good idea, but I can't say. –  Rob Jun 16 '12 at 21:21
    
@Nate Regarding your second question, you don't need to worry about the rest of iOS. You just need to coordinate your own sqlite activity against your own database (and you might not need to worry about that given that you say that all of your db activity will be done in a single thread). There's no need to "force iOS to also use the queues." –  Rob Jun 16 '12 at 21:23
    
why don't i need to worry about iOS? it's reading and writing to the same sms.db file. i'm not saying you're wrong, but an explaination of why it's safe (if it is) is really the crux of the question. –  Nate Jun 16 '12 at 21:57
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