mongodb/docs/exception_architecture.md

Exception Architecture

MongoDB code uses the following types of assertions that are available for use:

• uassert and iassert
  • Checks for per-operation user errors. Operation-fatal.
• tassert
  • Like uassert in that it checks for per-operation user errors, but inhibits clean shutdown in tests. Operation-fatal, but process-fatal in testing environments during shutdown.
• massert
  • Checks per-operation invariants. Operation-fatal.
• fassert
  • Checks fatal process invariants. Process-fatal. Use to detect unexpected situations (such as a system function returning an unexpected error status).
• invariant
  • Checks process invariant. Process-fatal. Use to detect code logic errors ("pointer should never be null", "we should always be locked").

Note: Calling C function assert is not allowed. Use one of the above instead.

The following types of assertions are deprecated:

• MONGO_verify
  • Checks per-operation invariants. A synonym for massert but doesn't require an error code. Process fatal in debug mode. Do not use for new code; use invariant or fassert instead.
• dassert
  • Calls invariant but only in debug mode. Do not use!

MongoDB uses a series of ErrorCodes (defined in mongo/base/error_codes.yml) to identify and categorize error conditions. ErrorCodes are defined in a YAML file and converted to C++ files using MongoDB's IDL parser at compile time. We also use error codes to create Status objects, which convey the success or failure of function invocations across the code base. Status objects are also used internally by DBException, MongoDB's primary exception class, and its children (e.g., AssertionException) as a means of maintaining metadata for exceptions. The proper usage of these constructs is described below.

Assertion Counters

Some assertions will increment an assertion counter. The serverStatus command will generate an "asserts" section including these counters:

• regular
  • Incremented by MONGO_verify.
• warning
  • Always 0. Nothing increments this anymore.
• msg
  • Incremented by massert.
• user
  • Incremented by uassert.
• tripwire
  • Incremented by tassert.
• rollovers
  • When any counter reaches a value of 1 << 30, all of the counters are reset and the "rollovers" counter is incremented.

Considerations

When per-operation invariant checks fail, the current operation fails, but the process and connection persist. This means that massert, uassert, iassert and MONGO_verify only terminate the current operation, not the whole process. Be careful not to corrupt process state by mistakenly using these assertions midway through mutating process state.

fassert failures will terminate the entire process; this is used for low-level checks where continuing might lead to corrupt data or loss of data on disk. Additionally, fassert will log the assertion message with fatal severity and add a breakpoint before terminating.

tassert will fail the operation like uassert, but also triggers a "deferred-fatality tripwire flag". In testing environments, if the tripwire flag is set during shutdown, the process will invoke the tripwire fatal assertion. In non-testing environments, there will only be a warning during shutdown that tripwire assertions have failed.

tassert presents more diagnostics than uassert. tassert will log the assertion as an error, log scoped debug info (for more info, see ScopedDebugInfoStack defined in mongo/util/assert_util.h), print the stack trace, and add a breakpoint. The purpose of tassert is to ensure that operation failures will cause a test suite to fail without resorting to different behavior during testing. tassert should only be used to check for unexpected values produced by defined behavior.

Both massert and uassert take error codes, so that all assertions have codes associated with them. Currently, programmers are free to provide the error code by either using a unique location number or choosing a named code from ErrorCodes. Unique location numbers have no meaning other than a way to associate a log message with a line of code.

massert will log the assertion message as an error, while uassert will log the message with debug level of 1 (for more info about log debug level, see docs/logging.md).

iassert provides similar functionality to uassert, but it logs at a debug level of 3 and does not increment user assertion counters. We should always choose iassert over uassert when we expect a failure, a failure might be recoverable, or failure accounting is not interesting.

Choosing a unique location number

The current convention for choosing a unique location number is to use the 5 digit SERVER ticket number for the ticket being addressed when the assertion is added, followed by a two digit counter to distinguish between codes added as part of the same ticket. For example, if you're working on SERVER-12345, the first error code would be 1234500, the second would be 1234501, etc. This convention can also be used for LOGV2 logging id numbers.

The only real constraint for unique location numbers is that they must be unique across the codebase. This is verified at compile time with a python script.

Exception

A failed operation-fatal assertion throws an AssertionException or a child of that. The inheritance hierarchy resembles:

• std::exception
  • mongo::DBException
    • mongo::AssertionException
      • mongo::UserException
      • mongo::MsgAssertionException

See util/assert_util.h.

Generally, code in the server should be able to tolerate (e.g., catch) a DBException. Server functions must be structured with exception safety in mind, such that DBException can propagate upwards harmlessly. The code should also expect, and properly handle, UserException. We use Resource Acquisition Is Initialization heavily.

ErrorCodes and Status

MongoDB uses ErrorCodes both internally and externally: a subset of error codes (e.g., BadValue) are used externally to pass errors over the wire and to clients. These error codes are the means for MongoDB processes (e.g., mongod and mongo) to communicate errors, and are visible to client applications. Other error codes are used internally to indicate the underlying reason for a failed operation. For instance, PeriodicJobIsStopped is an internal error code that is passed to callback functions running inside a PeriodicRunner once the runner is stopped. The internal error codes are for internal use only and must never be returned to clients (i.e., in a network response).

Zero or more error categories can be assigned to ErrorCodes, which allows a single handler to serve a group of ErrorCodes. RetriableError, for instance, is an ErrorCategory that includes all retriable ErrorCodes (e.g., HostUnreachable and HostNotFound). This implies that an operation that fails with any error code in this category can be safely retried. We can use ErrorCodes::isA<${category}>(${error}) to check if error belongs to category. Alternatively, we can use ErrorCodes::is${category}(${error}) to check error categories. Both methods provide similar functionality.

To represent the status of an executed operation (e.g., a command or a function invocation), we use Status objects, which represent an error state or the absence thereof. A Status uses the standardized ErrorCodes to determine the underlying cause of an error. It also allows assigning a textual description, as well as code-specific extra info, to the error code for further clarification. The extra info is a subclass of ErrorExtraInfo and specific to ErrorCodes. Look for extra in here for reference.

MongoDB provides StatusWith to enable functions to return an error code or a value without requiring them to have multiple outputs. This makes exception-free code cleaner by avoiding functions with multiple out parameters. We can either pass an error code or an actual value to a StatusWith object, indicating failure or success of the operation. For examples of the proper usage of StatusWith, see mongo/base/status_with.h and mongo/base/status_with_test.cpp. It is highly recommended to use uassert or iassert over StatusWith, and catch exceptions instead of checking Status objects returned from functions. Using StatusWith to indicate exceptions, instead of throwing via uassert and iassert, makes it very difficult to identify that an error has occurred, and could lead to the wrong error being propagated.

Gotchas

Gotchas to watch out for:

• Generally, do not throw an AssertionException directly. Functions like uasserted() do work beyond just that. In particular, it makes sure that the getLastError structures are set up properly.
• Think about the location of your asserts in constructors, as the destructor would not be called. But at a minimum, use wassert a lot therein, we want to know if something is wrong.
• Do not throw in destructors or allow exceptions to leak out (if you call a function that may throw).