The layout (padding and alignment, but not order) of the structure may change if you compile your code on a different compiler, or a later version of the compiler, or even with different compile-time options.
It won't change from run to run of the same compiled program - that would be a nightmare scenario :-)
So, provided the same program (or technically, any program which has the same structure layout encoded into it at compile time) is the one doing the reading, this will work just fine.
The relevant sections of the C99 standard are:
220.127.116.11/1: The representations of all types are unspecified except as stated in this subclause.
18.104.22.168/6 (the only mention of structures in that subclause): When a value is stored in an object of structure or union type, including in a member object, the bytes of the object representation that correspond to any padding bytes take unspecified values. The value of a structure or union object is never a trap representation, even though the value of a member of the structure or union object may be a trap representation.
That's the only mention of structure padding in that subclause. In other words, it's up to the implementation and they don't even need to document it (unspecified as opposed to implementation-defined, which would require documenting).
22.214.171.124/13: ... There may be unnamed padding within a structure object, but not at its beginning.
126.96.36.199/15: There may be unnamed padding at the end of a structure or union.
If you were to create version 1.1 of your program and it uses a different structure layout (new compiler, different compiler options,
#pragma pack, etc), it would very quickly be evident that you had a problem during your unit tests (which should include loading in a file from the previous version).
In that case, you could include some 'intelligence' in your 1.1 program which could recognise an earlier file layout and transform the data as it comes in. That's why good file formats will often have a version indicator (for the file layout version, not the program version) as the first item in that file.
For example, quite a few of my applications use an application identifier along with a 16-bit integer at the front of the file to indicate what application and version it is and the file loader part of the program can handle at least the current and previous versions (and often every version ever created).
The program version and file layout version are separate things - they can drift if, for example, you release ten versions of your program without needing to update the file layout.