A complex way to answer this problem is by decompressing twice into an over-sized buffer.
In both cases, you need a "random pattern". Starting from the end, you count the number of bytes which correspond to the pattern, and detect the end of decompressed sequence where it differs.
Or does it ? Maybe, by chance, one of the final byte of the decompressed sequence corresponds to the random byte at this exact position. So the final decompressed size might be larger than the detected one. If your pattern is truly random, it should not be more than a few bytes.
You need to fill again the buffer with a random pattern, but a different one. Ensure that, at each position, the new random pattern has a different value than the old random pattern. For faster speed, you are not obliged to fill the full buffer : you may limit the new pattern to a few bytes before and some more bytes after the 1st detected end. 32 bytes shall be enough, since it is improbable that so many bytes does correspond by chance to the first generated random pattern.
Decompress a second time. Detect again where the pattern differ. Take the larger of the two values between the first and second end detection. It is your decompressed size.