This implements a new "scan" mode for DMD that records the address
and contents of every live unsampled block in the DMD log. This
enables the low-level analysis of references from one block to
another, which can help leak investigations.
bf34d16b6ab2 added absolute_import to this file. When changed, "import
mozinfo" stopped picking up mozbuild.mozinfo and started importing
mozinfo instead.
Use relative imports to force mozbuild.mozinfo to be picked up.
--HG--
extra : commitid : 4GC5lJWrBFq
extra : rebase_source : c91674b16f29dadf8dcda460787ea94654f2864a
This is a regression from bug 1176620 that results in all Firefox mach commands showing up in the help for B2G, even though they don't work there.
--HG--
extra : rebase_source : e779b866a82c2df1dbf913d24b93a0dc9838ff9f
This was the only import of glob from all mach_commands.py files. Kill
it.
With this commit, there are no modules imported by a single
mach_commands.py outside of testing/web-platform/mach_commands.py.
--HG--
extra : commitid : 4CJqlwDqOVg
extra : rebase_source : 9dbbd69291d64b894a399523864562107c10872e
This import brought in significant parts of the mozbuild package. Moving
it to a deferred import reduces the total number of Python modules
imported during mach dispatch by 43.
--HG--
extra : commitid : GdXsF7agvCT
extra : rebase_source : 586f1960c8e7eb400f61467045b064167784f68b
This removes ambiguity as to which modules are being imported, making
import slightly faster as Python doesn't need to test so many
directories for file presence.
All files should already be using absolute imports because mach command
modules aren't imported to the package they belong to: they instead
belong to the "mach" package. So relative imports shouldn't have been
used.
--HG--
extra : commitid : 6tFME1KKfTD
extra : rebase_source : 78728f82f5487281620e00c2a8004cd5e1968087
DONTBUILD ON A CLOSED TREE: Android-only and the build changes are cosmetic.
Very much a first cut, but I'd like to get some Fennec early adopters testing.
This adds:
* |mach artifact install| to fetch and install Fennec binaries;
* |mach artifact last| to print details about what was last installed;
* |mach artifact {print,clear}-caches|, for debugging.
This code is exposed as a new mozbuild.artifacts Python but it's not
particularly general. My intention was to get things out of the mach command
more than produce a general artifact fetching API. We can leave that bike
shed to Bug 1124378.
I've been testing this with --disable-compile-environment and it works well
locally, although there's no reason a knowledgeable developer couldn't use
this in conjunction with a fully-built tree. (I don't know when such a
situation would arise, but I know of no technical impediment.)
--HG--
extra : commitid : 1T28aVfArqF
extra : rebase_source : b8c11244de8be0a14d605853f30cd47312d0a4ba
extra : histedit_source : 78a224501cd3cf0f86707c9c9549b61b4b248ba7
This type is now redundant with our new rich type for capturing all mach
command metadata. Eliminate it and using _MachCommand instead.
--HG--
extra : commitid : 7pXhf6V7F8m
extra : rebase_source : 343615096f23d3acf23f7487c7b8c7137c85337e
Simplify construction of mach's MethodHandler instances by by passing in
our new rich type that holds all command metadata.
While we are here, kill the docstring argument, as it can be computed
easily inside MethodHandler.__init__.
--HG--
extra : commitid : I5PRlYDVXVq
extra : rebase_source : ebf07116357036ddfec06fd32fb161fefff628e6
Up to this point, mach command metadata has been stored in tuples.
Initially, things weren't so bad. But they have evolved into tuples with
many elements. Adding new attributes is cumbersome. Let's restructure
the code to capture metadata in a dedicated class.
Before, there existed a separate attribute on the @Command or
@SubCommand decorated method for each mach decorator: @Command,
@CommandArgument, @CommandArgumentGroup. With the magic of __ior__,
we can now capture all metadata on a single type. This simplies
processing, as we now only look at a single attribute on methods:
_mach_command.
Before, we used separate attributes to distinguish between mach commands
and mach sub-commands. Now that we have a type that can hold all data,
we combine things into the _mach_command attribute and look for the
presence of the "subcommand" attribute on this type to identify
sub-commands.
--HG--
extra : commitid : EtBwUmS5TV2
extra : rebase_source : 4ef5f95a532693672c6c4b33fa1c22adb76d105e
We want this logic to live next to where metadata types are defined so
downstream consumers of Files-based metadata don't have to reinvent the
wheel.
The work in this commit will be used to enable auto filing bugs during
pushes to MozReview.
--HG--
extra : commitid : F55RzhDCVmR
extra : rebase_source : 1fe1a03f8d592c60d2ed8d760fd62c7bc60421a5
This file hasn't been updated in ages and the current configuration
doesn't produce working packages. Change that.
--HG--
extra : commitid : AfiwohniLPq
extra : rebase_source : 70786c7bd9e37c9acc9b38f54c956fec424cfcf5
extra : amend_source : e4e3752dc97b934456b973736ef55633366c8ee6
This should have been done in 4c757e339f81.
DONTBUILD (NPOTB)
--HG--
extra : commitid : 41TCyM9iqVQ
extra : rebase_source : 8defc6b23d507e1580db77869ff2c2e99ee5db5a
extra : amend_source : 5f330ea7c2775675fcc8051e5c46d2439c4e5823
CentOS has apparently changed its disto name. Detect the new version.
DONTBUILD (NPOTB)
--HG--
extra : commitid : JrYp4WJ5Fs3
extra : amend_source : c2ac16f7006c2e44450de54edb732fa722f150d0
The hglib Mercurial finder was nice. But it is somewhat slow, as it
involves a separate Mercurial process.
This commit introduces a native Mercurial finder that speaks directly
to a Mercurial repository instance. It is significantly faster.
The new code is isolated to its own file because it imports Mercurial
code, which is GPL.
--HG--
extra : commitid : 8CzDFt3lQmx
extra : rebase_source : 1540ad20d795086926b316612062e2a1f10c4958
This commit adds support for specifying a Mercurial revision with `mach
file-info`. Aside from being a potentially useful feature, it proves
that MercurialRevisionFinder works with BuildReader.
--HG--
extra : commitid : 7143XT9ENqb
extra : rebase_source : d8c0c98d536d07db76653b648fd4b7d74d8f43ae
The moz.build reader uses absolute paths when referencing moz.build
files. *Finder classes expect paths to be relative to a base. When we
switched the reader to use *Finder instances for I/O, we simply provided
a default FileFinder based at the filesystem root. This was quick and
easy. Things worked.
Unfortunately, that solution isn't ideal because not all *Finder
instances can accept absolute paths like that. The
MercurialRevisionFinder is one of them.
Changing the moz.build reader to talk in terms of relative paths is a
lot of work. While this would be ideal, it is significantly easier to
defer the problem until later and hack up MercurialRevisionFinder to
accept absolute paths. This commit does exactly that.
Bug 1171069 has been filed to track converting BuildReader to relative
paths.
--HG--
extra : commitid : 2JmzOBldBLy
extra : rebase_source : a8af6ce88dd9e2b98f131c92b45c3ece852e13d2
Now that moz.build files use finders for I/O, we can start reading
moz.build data from other sources.
Version control is essentially a filesystem. We implement a finder
that speaks to Mercurial to obtain file data. It is able to obtain
file data from a specific revision in the repository.
We use the hglib package (which uses the Mercurial command server) for
speaking with Mercurial. This adds overhead compared to consuming the
raw Mercurial APIs. However, it also avoids GPL side-effects of
importing Mercurial's Python modules.
Testing shows that performance is good but not great. A follow-up
commit will introduce a GPL licensed Mercurial finder. For now, get
the base functionality in place.
--HG--
extra : commitid : BkwaQOW9MiR
extra : rebase_source : 915d6015317ccc79c228a76eed861d9f43e2fd17
Sometimes moz.build data may not come from the local filesystem. To
support defining moz.build data in other backing stores, we switch
moz.build reading to use mozpack's *Finder classes for I/O.
The use of a FileFinder bound to / is sub-optimal. We should ideally
be creating a finder bound to topsrcdir. However, doing this would
require refactoring a lot of path handling in the reader, as that code
makes many assumptions that paths are absolute. This would be excellent
follow-up work.
While I was here, I cleaned up some linter warnings for unused imports.
On my machine, this commit results in a slight slowdown of moz.build
reading. Before, `mach build-backend` was consistently reporting 1.99s
for reading 2,572 moz.build files. After, it is consistently reporting
2.07s, an increase of 4%. This is likely due to a) function call
overhead b) the cost of instantiating a few thousand File instances
c) FileFinder performing an os.path.exists() before returning File
instances. I believe the regression is tolerable.
--HG--
extra : commitid : 1WDcrSU3SQD
extra : rebase_source : a23aa5a4063c6f7080ee00b6f0fe0ee532da3ce7
Passing raw file handles around is a bit dangerous because it could lead
to leaking file descriptors. Add a read() method that handles the simple
case of obtaining the full contents of a File instance.
This should ideally be a method on BaseFile. But this would require
extra work and isn't needed. So we've deferred it until bug 1170329.
--HG--
extra : commitid : 82qw76XmpjC
extra : rebase_source : 422b16c5a3b1577f080097925aeaeb560aa3e798
Today, the *Finder classes are optimized for doing matching and
returning multiple results. However, sometimes only looking for a
single file is wanted.
This commit implements the "get" method on all the *Finder classes.
It returns a BaseFile or None.
FileFinder._find_file has been refactored into FileFinder.get
to avoid code duplication.
--HG--
extra : commitid : K9It2ZJ3Rbo
extra : rebase_source : a56f8f70aa1902d26373a7196eae2847cce653d3
The current mode of execution of templates doesn't allow them to more advanced
control flow, like returning early, returning or yielding values, because that
mode of execution is equivalent to running the code at the top level of a .py
file.
Making the templates executed through a function call, although trickier,
allows those control flows, which will be useful for template as context
managers.
inspect.getsourcelines() and inspect.getfile() involve I/O out of our control.
Our use of those functions, however, doesn't require all their smarts. In fact,
we only use them on function objects, for which we can just do the work
ourselves without involving inspect functions that trigger I/O.
`mach help <command>` currently only displays a brief description of the
command along with its arguments. Sometimes more detailed help text is
needed.
With this commit, the docstrings of mach command handlers will appear in
the output of `mach help <command>` if they are defined.
I've implemented basic docstrings for the three flavors of mach commands
(normal command, main subcommand, subcommand) to demonstate things work.
My hope is others will start to fill in docstrings once this feature
lands so the output for `mach help` can serve as a better learning guide
for new contributors.
--HG--
extra : commitid : Hx6ZkHDxbCK
extra : rebase_source : 01ced5a044442e370a45cd3fb245ac6283316925
extra : amend_source : fceb771e0e1ffa4e6f3f1b7c22eae6e25cf82034
The old way of writing scripts for generated files would invoke the script thusly:
python script.py arg1...
Invoking the script this way means that the script's directory is
automatically added to sys.path, and importing modules from that
directory is easy. Let's make it equally easy in the new world for
GENERATED_FILES, too.
Document the role of l10n.ini, filter.py, file paths and checks.
Also add a glossary for the jargon used in the doc.
--HG--
extra : rebase_source : ec71f9b7123ba76370d34d2349b2f078f14dd1de
Add generic support for different forms of paths in moz.build:
'/topsrcdir/relative/paths'
'srcdir/relative/paths'
'!/topobjdir/relative/paths'
'!objdir/relative/paths'
This drops the use of UserString for performance reasons, which required
going around with a meta class.
This code has been commented since it landed, and enabling it requires
adding the proper conditionals around all non_unified_sources in gyp
configurations, which is a daunting task. OTOH, the commented code is
already outdated (it would need updates to work) and the related code
that is not commented gets in the way of upcoming changes, so remove
it.
This helps upcoming changes, and relieves backends from path resolution.
This has the side effect of chaning the order of some unified sources,
which consequently breaks nsTextFormatter because it declares snprintf
methods after nsStringAPI #defines it.
A host elfhack binary is only built when there is a compile environment.
--HG--
extra : rebase_source : 4f1da429c581dfd81cbe3d5164c7586066cf6e79
extra : amend_source : f26fe7f3b44291f38459a81b9ff31bd6dbd220aa
extra : histedit_source : 93c628a500c66c46d522bfe678500bf5b5bf0de9
With TemplateContexts keeping the name of the associated template, and the
Gyp context being declared as a TemplateContext, it is now possible to know
the equivalent of IS_GYP_DIR just by looking at the template name.
Add .rs as a recognized file extension in SOURCES.
Propagate that through to the Makefile backend and add a dependency
generated and an explicit rule to call $(RUSTC) to compile them.
rustc builds static libraries, not obj files. At least, if one
asks it to output an obj file, I'm not clear how to get all the
compiler-specific runtime libraries the code will expect to link
to. Therefore we generate a static library for each rust source
file (which must be a complete crate for the time being) and link
that. Because of the extension it ends up on the LIBS line in the
the corresponding .desc file.
Note that the static library does still depend on some system
libraries, e.g. -ldl -lpthread -lm on linux. Gecko already
links to all of those, so we don't keep track of it here.
Should we need to add explicit linkage for other targets,
rustc does print a list to stderr which can be parsed.
--HG--
extra : rebase_source : 9f66101fd15a649a952d5481cf9561416204272a
Formerly, running |./mach test image/| would result in running a number of devtools tests
in addition to running tests under the image/ subdirectory. With this change, only tests
under the image/ directory would be run. Note that ./mach test animations or similar will
still run a variety of tests across the tree, because this input does not match a directory.
--HG--
extra : rebase_source : 8a0482796ccb51cec8cd873cf8cd9933e30d46d1
mach dispatch makes separate, independent calls to construct build
system state. Part of this resolution is determining the object
directory. For environments without an object directory defined, we must
execute config.guess to determine the object directory. This redundant
execution of config.guess can result in significant execution overhead.
Before this patch, `mach help` with no mozconfig took ~1.5s on my OS X
machine. After this patch, it goes down to ~0.750s. On Windows, the
difference is even more pronounced, with execution time dropping from
8.5s to 0.930s.
--HG--
extra : rebase_source : e8c0f49ceb71e1371e174e31f6e1f354d1e51b65
extra : amend_source : 133b013d5dd8f3817f92555aed1717534769585d
`mercurial version` doesn't always print the version number. `mercurial
--version` does. Use the latter.
--HG--
extra : rebase_source : 6f3c305ce8b38599a60c01d9cee410b724bfc37f
extra : amend_source : 430a3cf66094a62fabee59dbf4a486d4392a8c47
Now that moz.build can see EXTRA_*COMPONENTS and NO_JS_MANIFEST, we can
move some logic from rules.mk (executed every build) to moz.build's
emitter.py (executed only at build-backend time).
Interactive prompts make automation more difficult for developers looking to stand up machines using bootstrap en masse.
Two new options have been added to allow users with such needs to bypass all prompts: one for selecing an application
(desktop/mobile) and another for assuming yes to all questions posed by package managers (apt-get/yum).
This avoids duplicating the logic from SimplePackager to find base
directories, and fixes some cases where the l10n repack code wouldn't
find them properly.
Bug 910660 added a consistency check that rejects cases where a manifest
inside a directory detected as being the base of an addon is included from
outside the addon. Unfortunately, this triggered false positives when
a manifest is included from within the addon, but just happens to be at
the top-level of that addon.
This avoids duplicating the logic from SimplePackager to find base
directories, and fixes some cases where the l10n repack code wouldn't
find them properly.
Some file types, such as XPTFile, read their associated data during the
copy. In the case of XPTFiles, several original files are linked together
in one destination file. When a FileCopier is used in-place, those
original files are removed before XPTFile.copy is invoked, so XPTFile.copy
fails.
Generally speaking, there are many other reasons why FileCopier can fail
in-place, but the only active use of this mode is l10n repack code, which
actually doesn't do much of the dangerous uses. However, it can end up
linking XPTFiles for some reason, which fails for the reasons given above.
Back when mozpack.path was added, it was used as:
import mozpack.path
mozpack.path.func()
Nowadays, the common idiom is:
import mozpack.path as mozpath
mozpath.func()
because it's shorter.
$ git grep mozpath\\. | wc -l
423
$ git grep mozpack.path\\. | wc -l
123
This change was done with:
$ git grep -l mozpack.path\\. | xargs sed -i 's/mozpack\.path\./mozpath./g'
$ git grep -l 'import mozpack.path$' | xargs sed -i 's/import mozpack.path$/\0 as mozpath/'
$ (pat='import mozpack.path as mozpath'; git grep -l "$pat" | xargs sed -i "1,/$pat/b;/$pat/d")
We're using as many defaults from the configure step as we can. We're also opinionated upon the defaults, but obviously allow most compare-locales options to be specified.
There are two exceptions:
Reference language is specified to be en-US, without optional argument. This is our in-tree command, and the reference language is known.
We always clobber the merge dir, and don't give an option not to. We default to a merge dir in the objdir, so we don't need to be that paranoid as in the standalone version.
Also, compare-locales clobbers merge-dir/browser etc, so you're not going to get / removed.
--HG--
extra : rebase_source : c0f63e566779e83201708d05966f3583ae82e4ee
This change includes a few fixes to other issues in mach file-info, such
as error handling for invalid paths not working properly.
--HG--
extra : rebase_source : fca43650678d944730273353a5a9154a63247c58
extra : histedit_source : 314e7702ca061005525bd4e054360f79db68935b
Now that we have a mechanism for defining file-based metadata, let's add
a mach command to interface with it.
Currently, we limit ourselves to simple Bugzilla data dumping. Features
will be added over time.
--HG--
extra : rebase_source : 20fa72cac6e6d5aff7973b7dd200c03c8f238639
The Files sub-context allows us to attach metadata to files based on
pattern matching rules.
Patterns are matched against files in a last-write-wins fashion.
The sub-context defines the BUG_COMPONENT variable, which is a 2-tuple
(actually a named tuple) defining the Bugzilla product and component for
files. There are no consumers yet. But an eventual use case will be to
suggest a bug component for a patch/commit. Another will be to
automatically suggest a bug component for a failing test.
--HG--
extra : rebase_source : 9489738136d929a53db7f54bbe6acf3186e0a47c
We want the ability to read data from any moz.build file without needing
a full build configuration (running configure). This will enable tools
to consume metadata by merely having a copy of the source code and
nothing more.
This commit creates the EmptyConfig object. It is a config object that -
as its name implies - is empty. It will be used for reading moz.build
files in "no config" mode.
Many moz.build files make assumptions that variables in CONFIG are
defined and that they are strings. We create the EmptyValue type that
behaves like an empty unicode string. Since moz.build files also do some
type checking, we carve an exemption for EmptyValue, just like we do for
None.
We add a test to verify that reading moz.build files in "no config" mode
works. This required some minor changes to existing moz.build files to
make them work in the new execution mode.
--HG--
extra : rebase_source : f701417f83dfa4e196e39182f8d0a6fea46c6fbb
extra : source : af07351bf2d6e85293ae3edf0fe4ae6cbc0ce246
Building on top of the API to retrieve relevant moz.build files for a
given path, we introduce a moz.build reading API that reads all
moz.build files relevant to a given set of paths. We plan to use this
new API to read metadata from moz.build files relevant to a set of
files.
This patch changes the generator behavior of read_mozbuild to emit the
main context before any processing occurs. This allows downstream
consumers to manipulate state of the context before things like
directory processing occurs. We utilize this capability in the new
reading API to forcefully declare the directory traversal order for
processed moz.build files, overriding DIRS and similar variables.
Since variable exporting doesn't work reliably in this new traversal
mode, variable exporting no-ops when this mode is activated.
--HG--
extra : rebase_source : aa5c67f275e8eb83516dc97648cc8fea62b52815
extra : source : 6c44edc8208a54a9d5d830266cded7b409a776e1
Currently, MozSandbox assumes that the FUNCTIONS, SPECIAL_VARIABLES, and
SUBCONTEXTS data structures are the instances that should be associated
with the sandbox. As we introduce new moz.build processing modes that
wish to change processing behavior, it is necessary for them to have
control over these special symbols.
This patch moves the declaration of these types to the special metadata
dictionary which is inherited during recursion. The "read_topsrcdir" API
now explicitly passes the initial metadata into "read_mozbuild".
--HG--
extra : rebase_source : 59ad9ac7c288a5b610d7e3b513aaa0f5b2ec2009
extra : source : ed135df395751194bf379584a4d210f14ac849b4
An upcoming patch introduces a use case for a strongly typed named
tuple. So, we introduce a generic factory function that can produce these
types.
--HG--
extra : rebase_source : 7f4d17ff28925fbe8d850c036605aa03a38f0ef2
extra : source : acdd5491f10ecf8ea4e1a14150f9a2e282e2cf5d
We have an eventual goal to store file-level metadata in moz.build files
and to have this metadata "cascade" down directory hierarchies. e.g.
metadata in the root directory will apply to all children directories.
A prerequisite for this feature is a way to query which moz.build files
are relevant to a given file. In this patch, we implement an API that
returns this information.
--HG--
extra : rebase_source : 70726926aeddf89df27c46dc2f503dc8a3194633
extra : source : 4013d256b5910404cc04bb3caaf696b8ee551fc5
The inputs to scripts for GENERATED_FILES are restricted to filenames
only. We have several examples in the tree, however, where a script
takes non-filename arguments. For converting those cases to use
GENERATED_FILES, we first need to provide some way of "injecting"
non-filename arguments into the script.
This commit adds a method for doing that, by extending the .script flag
on GENERATED_FILES to include an optional method name:
f = GENERATED_FILES['foo']
f.script = 'script.py:make_foo'
will invoke the make_foo function found in script.py instead of the
function named main.
The inputs to scripts for GENERATED_FILES are restricted to filenames
only. We have several examples in the tree, however, where a script
takes non-filename arguments. For converting those cases to use
GENERATED_FILES, we first need to provide some way of "injecting"
non-filename arguments into the script.
This commit adds a method for doing that, by extending the .script flag
on GENERATED_FILES to include an optional method name:
f = GENERATED_FILES['foo']
f.script = 'script.py:make_foo'
will invoke the make_foo function found in script.py instead of the
function named main.
As content in moz.build files has grown, it has become clear that
storing everything in one global namespace (the "context") per moz.build
file will not scale. This approach (which is carried over from
Makefile.in patterns) limits our ability to do things like declare
multiple instances of things (like libraries) per file.
A few months ago, templates were introduced to moz.build files. These
started the process of introducing separate contexts / containers in
each moz.build file. But it stopped short of actually emitting multiple
contexts per container. Instead, results were merged with the main
context.
This patch takes sub-contexts to the next level.
Introduced is the "SubContext" class. It is a Context derived from
another context. SubContexts are special in that they are context
managers. With the context manager is entered, the SubContext becomes
the main context associated with the executing sandbox, temporarily
masking the existence of the main context. This means that UPPERCASE
variable accesses and writes will be handled by the active SubContext.
This allows SubContext instances to define different sets of variables.
When a SubContext is spawned, it is attached to the sandbox executing
it. The moz.build reader will now emit not only the main context, but
also every SubContext that was derived from it.
To aid with the creation and declaration of sub-contexts, we introduce
the SUBCONTEXTS variable. This variable holds a list of classes that
define sub-contexts.
Sub-contexts behave a lot like templates. Their class names becomes the
symbol name in the sandbox.
--HG--
extra : rebase_source : 5df4bcf073ce46605b972021f1e918ce4affa6f3
The regular expression cache for mozpack.path.match was keyed off the
original pattern. However, that variable was mutated as part of the
function and the mutated result was subsequently stored as the cache
key. This effectively resulted in a 0% cache hit rate.
On some tests being written for bug 1132111 which involve a full
filesystem traversal for moz.build files and subsequent execution of
those files, the following timings are indicative of the impact of this
patch.
Before:
real 16.082s
user 14.760s
sys 1.318s
After:
real 6.345s
user 5.085s
sys 1.257s
--HG--
extra : rebase_source : caf4a9f37fda9b43b444059f647535e1b085d422
Support for a callback to be executed post sandbox evaluation was added
in 24b43ecb4cad (bug 949906) to unbust Sphinx as a result of some GYP
processing changes. e93c40d4344f and bug 1071012 subsequently changed
how Sphinx variables are extracted from moz.build, removing the only
consumer of this feature.
Since there are no consumers of this feature left, remove it and make
the code simpler.
--HG--
extra : rebase_source : 95bb619aba0bb00719e060a4cf346b9dd51eb541
extra : amend_source : ef195e478b122a18f89ad0b2b2b1aab4a4090e42
extra : histedit_source : 36a464ace2fe261b1315544c9ee6a23fc0ab71a2
The value of cache files or cache size might decrease under these
circumstances.
* The user manually changes the max cache size to a value smaller than
the current cache size.
* The cache size is reaching the cache max size.
We should not assume both values will be increased after the build is
finished.
The Android ARchive contains the compiled Gecko libraries that Firefox
for Android interfaces to. It does not contain the Gecko resources
(the omnijar, omni.ja) nor the compiled Java code (classes.dex).
This also uploads metadata and sha1 hashes for future consumption by
Maven and/or Ivy dependency managers. In some brave future world,
we'll work out exactly what that looks like; for now, this solves a
storage problem (each .aar file is ~20MB) and it's possible to point
Gradle directly at the uploaded Ivy metadata and artifacts.
--HG--
extra : rebase_source : 0c12b44f587d4a027ca5258bae8fcbb6f6028c24
Previously, we raised errors attempting to register a mach sub-command
if the parent command was not defined on the Registrar. This broke B2G
because its mach command Registrar imposes restrictions on which
commands it exposes. Commands there were not getting registered on the
Registrar, leading mach to give a false positive that the parent command
was never defined.
We change the verification logic to take present but unregistered
commands into consideration and to skip registering sub-commands if the
parent isn't present in the Registrar.
--HG--
extra : rebase_source : 150eea0ca85d9f2c9cd9e98f5bf905695da53bf4
Now that we have proper moz.build objects for GENERATED_FILES, we can
add 'script' flags and 'args' flags in moz.build for select
GENERATED_FILES. We restrict 'args' to being filenames for ease of
implementing checks for file existence, and many (all?) of the examples
of file generation throughout the tree don't need arbitrary strings or
Python data.
This patch is mostly useful for being able to see these changes
independently of the major changes to GENERATED_FILES. We are going to
need proper moz.build objects for GENERATED_FILES when we add the
ability to define scripts and arguments for them, so we might as well do
that first.
With the previous changes, we can now tell Visual Studio about the
actual unified files, rather than the files that are #include'd in them.
I believe this is much closer to what Visual Studio wants to see, and
enables things like Intellisense to work properly.
CommonBackend is where the writing of the unified files belong, since
that's an operation common to all backends. A special hook into
subclasses is used to enable subclass-specific processing of
UnifiedSources.
UnifiedSources will be processed outside of consume_object, so we need
some way of accessing the backend file for an object outside of
consume_object as well.
UnifiedSources, not the recursivemake backend, should be responsible for
figuring out what unified files to generate, and what those unified
files should contain.
Generating the list of idl deps to generate an xpt from its dependency list
makes us give all _previous_ dependencies, inherited from the .deps makefiles.
This leads to removed files being listed on xpidl-process.py command line, and
the command subsequently failing.
Instead, use generated lists of idl dependencies. At the same time, lighten the
generated Makefile further by not emitting xpt dependencies on their containing
directory, and instead generating it from the $xpt_files list.
This brings down the Makefile size from 100k to 38k.
The previous debugger was setting a breakpoint in the mach dispatcher.
This required users to step into the main function to be called into.
Using pdb.runcall(), the debugger starts at the first line in the
executed command, which is far more useful.
--HG--
extra : rebase_source : 10734805ad40ec85eedbb089b11d618dc32398e7
extra : amend_source : da89da1af1f137db2f5902bcb5a69312f4636a4b