When Accelerator runs a build for the first time, it takes aggressive action to run all jobs as fast as possible in parallel. Jobs that run in the wrong order because of missing makefile dependencies are automatically re-run to ensure correct output. (These failed steps are also called conflicts . See Conflicts and Conflict Detection for information about conflicts.)
To avoid the cost of re-running jobs on subsequent builds, eMake saves the missing dependency information in a history data file . The history data file evolves with each new run and enables Accelerator.
You can choose the location of the history file and how it is updated.
By default, eMake creates the history file in the directory you use to invoke the build and names it
emake.data by default. The file location can be explicitly specified using the command-line option:
The history file is used for two operations during an eMake cluster build:
Input—eMake reads the history file as it starts a build to improve build performance.
Output—eMake writes to the history file as it completes a build to improve performance of subsequent builds.
If the history file (
emake.data or whatever was specified with
--emake-historyfile ) exists, it is always read and used to improve performance.
Data written to the history file after the build depends on the
--emake-history option setting. Three options are available:
Merge—By default, eMake merges new dependencies into the existing history file. In this way, the history file evolves automatically as your makefiles change by learning dependencies that accelerate your builds.
--emake-historyis set to
create, the old history file contents are overwritten by new dependencies discovered in the run that just completed. Use this setting to start a fresh history file to eliminate stale information from the file.
--emake-historyis set to
read, no data is written to the history file at build completion, and any new dependencies discovered are discarded. Use this setting when developers share a single, static copy of the history file.
By default, the history file is updated even if the build fails, regardless of the value of
--emake-history. You can override this behavior by setting
The history file directly impacts the number of conflicts the build can encounter. Ideally, a CloudBees Accelerator cluster build with good history should have almost no conflicts. If conflicts are increasing, check for a current history file.
--emake-readdir-conflicts=1 to guarantee correct history. Some parallel builds do not succeed without a good history file. In particular, builds that use wildcard or globbing operators to produce build-generated lists of files and operate on those lists might fail. For example, a makefile might use
ld .o as shorthand to avoid enumerating all the
.o files in a directory. Running the build with
--emake-readdir-conflicts=1 guarantees that the build succeeds and that a history file is created for use by subsequent parallel builds.
Do not enable
--emake-readdir-conflicts=1 all the time. Instead, enable it for one run if you suspect a globbing problem, and then disable it, but use the history file generated by the previous run.
You can alternatively use the
#pragma readdirconflicts pragma to enable directory-read conflicts on a per-job basis. You can apply it to targets or rules in your makefiles. This pragma has less overhead than
--emake-readdir-conflicts=1 (which enables directory-read conflicts for an entire build). You can use this pragma in pragma addendum files as well as in standard makefiles.
EMAKE_ROOT locations must match. The history file records target file names relative to the
EMAKE_ROOT specified during that run. For a subsequent build to use the history file correctly, target file names must have the same path name relative to the eMake root.
For example, if your eMake root is
/home/alice/builds and your build references a path name in that root:
/home/alice/builds/lib/foo.o, then the history file records it as
lib/foo.o. If a subsequent build sets the eMake root to
/home/bob/builds, the history file will match correctly.
If, however, the eMake root is
/home/bob, then the file that exists on the disk as
/home/bob/builds/lib/foo.o is assigned the root-relative name of
builds/lib/foo.o, which does not match the name
lib/foo.o in the history file generated above. Because the history file does not match, performance might suffer.
For builds with multiple roots, the roots must have the same alphabetical sorting order in each build so that the history matches.
remaphist utility makes it easier for users to share history files. It is located at:
remaphist utility has two modes of operation:
Makes a standard eMake history file “relocatable” (and therefore usable in other build environments).
History files store paths in the form
<root_relative_path>, so if your root is
/home/stevecand you have a path such as
/home/stevec/proj1, the history file records it as
0 proj1. A relocatable history file flattens those references and then replaces the root prefixes with variables that are easier to “swizzle” later. For example, this step takes
Converts a relocatable history file back into a standard history file.
This step expands the variables according to the new user’s specification and then converts them into new root-relative paths. For example, this step takes
To remap a standard file to make it relocatable:
remaphist -i <input_file> -o <mapped_file> [-r <emake_root(s)>] <VARIABLE>=<absolute_path> [<VARIABLE2>=<absolute_path2> … ]
To convert a relocatable file back to a standard file:
remaphist -u -i <mapped_file> -o <output_file> -r <emake_root(s)><VARIABLE>=<absolute_path> [<VARIABLE2>=<absolute_path2> … ]
Performs an unmapping. The default is to perform a remapping.
Path to the unmapped (standard) input file.
Path to the remapped (relocatable) file to create.
Path to the remapped (relocatable) input file.
Path to the unmapped (standard) file to create.
Specifies the eMake root(s).
(Optional) Specifies whether to sort the root directories. The default is
<VARIABLE> = <absolute_path> [ <VARIABLE2> = <absolute_path2> … ]
eMake roots. You can specify one or more roots.
(Optional) Prints the help message.
The following example shows how to remap a standard history file to make it relocatable:
remaphist -i emake.data -o remapped.data PATHVAR=/opt/chrish/work PATHVAR2=/opt/chrish/work2/q1proj
The following example shows how to convert a remapped history file back to a standard file:
remaphist -u -i remapped.data -o emake.data2 -r /workspace/tools MYVAR=/opt/kathy/abs/proj MYVAR2=/opt/kathy/modules/