1This document is for future maintainers of the binary search/bisection tools. 2 3Authors: 4 * Original Tool: asharif@, llozano@, cmtice@ 5 * Updates after May 2016: cburden@ 6 * chromeos-toolchain@ 7 8The following are good reference materials on how the tool works: 9 * Ahmad's original presentation: 10 https://goto.google.com/zxdfyi 11 12 * Bisection tool update design doc: 13 https://goto.google.com/zcwei 14 15 * Bisection tool webpage: 16 https://goto.google.com/ruwpyi 17 18 * Compiler wrapper webpage: 19 https://goto.google.com/xossn 20 21 22TESTING: 23All unit tests live under the ./test directory. However, these tests 24specifically test binary_search_state.py, binary_search_perforce.py, bisect.py. 25These unit tests will not test the specific logic for ChromeOS/Android 26bisection. To test the ChromeOS/Android bisectors, use the common/hash_test.sh 27test. This is a simple test case that just checks the hashes of files on your 28file system. This means you won't have to find a specific compiler error for 29the bisector to triage in order to test each bisector. 30 31TODO: 32The bisection tool (I believe) is in a fairly good state. So these are mostly 33wishlist items and things that could use some improvement. 34 35 1. Get rid of binary_search_perforce.py. This file is mostly legacy code and 36 the majority of it isn't even used to bisect object files. The file was 37 originally intended to bisect CLs, and binary_search_state.py just reused 38 the binary searching logic from it. Maybe just extract the binary searching 39 logic from binary_search_perforce.py and put it in its own module in 40 cros_utils? 41 42 2. Cleanup unit tests in ./test. These tests are a little hacked together, 43 and are all under one test suite. Maybe consider organizing them across 44 multiple directories. 45 46 3. Create a "checkout setup" system for bisection. Currently if you want to 47 bisect, you have to run scripts/edit sources in this repo. Ideally these 48 scripts would be static, and if you wanted to bisect/make changes you would 49 "checkout" or copy all the scripts to a working directory and have a unique 50 working directory for each bisection. Credits to Luis for this idea =) 51 52 4. Make all scripts relative to each other. Currently all scripts enforce the 53 idea that their cwd will be ./binary_search_tool/. But it would be less 54 confusing to have each script relative to each other. There's quite a few 55 stackoverflow topics on how to do this best, but each one has some sort of 56 downside or flaw. 57 58 5. Overall modularize code more, especially in binary_search_state.py 59 60DESIGN EXPLANATIONS: 61Some of the design decisions are a bit difficult to understand from just reading 62the code unfortunately. I will attempt to clear up the major offenders of this: 63 64 1. common.py's argument dictionary: 65 binary_search_state.py and bisect.py both have to have near identical 66 arguments in order to support argument overriding in bisect.py. However 67 they do have to be slightly different. Mainly, bisect.py needs to have no 68 default values for arguments (so it can determine what's being overriden). 69 70 In order to reduce huge amounts of code duplication for the argument 71 building, we put argument building in common.py. That way both modules 72 can reference the arguments, and they can have different configurations 73 across both. 74 75 2. Compiler wrapper: 76 The compiler wrapper is called before all compiler calls. It exists to 77 trick whatever build system (make, emerge, etc.) into thinking our 78 bisection is just a normal build, when really we're doing some tricks. 79 80 The biggest benefit the compiler wrapper gives is: knowing for sure which 81 files are actually generated by the compiler during bisection setup, and 82 potentially being able to skip compilations while triaging (speeding up the 83 triaging process significantly). 84 85 3. The weird options for the --verify, --verbose, --file_args, etc. arguments: 86 Some of the arguments for the bisection tool have a weird set of options 87 for the AddArgument method (nargs, const, default, StrToBool). This is so 88 we can make argument overriding workable. These options allow the following 89 functionality for a boolean argument (using --prune as an example): 90 * --prune (prune set to True) 91 * <not given> (prune set to False) 92 * --prune=True (prune set to True) 93 * --prune=False (prune set to False) 94 95 The first two are easy to implement (action='store_true'), but the last two 96 are why the extra weird arguments are required. Now, why would we want the 97 last two? Imagine if the Android bisector set --prune=True as a default 98 argument. With just the first two options above it would be impossible for 99 the user to override prune and set it to False. So the user needs the 100 --prune=False option. See the argparse documentation for more details. 101 102 4. General binary searching logic/pruning logic: 103 binary_search_state.py will enumerate all items into a list. The binary 104 search will find the *first* bad item (starting with lowest index). 105 Everything to the left of the "current" index is switched to good, 106 everything to right of the "current" index is switched to bad. Once a bad 107 item is found, it's put at the very end of the list. 108 109 If prune is set, the tool will continuing searching until all bad items are 110 found (instead of stopping after the first one). If the tool finds the same 111 item twice, that means no more bad items exist. This is because the item 112 was found, said item was put at the end of the list, and it was found 113 again. Because the binary search logic finds the bad item with the lowest 114 index, this means nothing in between the start of the list and the end of 115 the list is bad (thus no more bad items remain). 116