\input texinfo @setfilename cuirass.info @documentencoding UTF-8 @include version.texi @settitle Cuirass Reference Manual @setchapternewpage odd @copying This manual is for Cuirass version @value{VERSION}, a build automation server. Copyright @copyright{} 2016, 2017 Mathieu Lirzin@* Copyright @copyright{} 2017, 2020 Mathieu Othacehe@* Copyright @copyright{} 2018 Ludovic Courtès@* Copyright @copyright{} 2018 Clément Lassieur @quotation Permission is granted to copy, distribute and/or modify this document under the terms of the GNU Free Documentation License, Version 1.3 or any later version published by the Free Software Foundation; with no Invariant Sections, no Front-Cover Texts, and no Back-Cover Texts. A copy of the license is included in the section entitled ``GNU Free Documentation License''. @end quotation @end copying @dircategory Software development @direntry * Cuirass: (cuirass). Build automation server. @end direntry @titlepage @title Cuirass Reference Manual @subtitle Build automation server @subtitle for version @value{VERSION}, @value{UPDATED} @author by Mathieu Lirzin @page @vskip 0pt plus 1filll @insertcopying @end titlepage @contents @ifnottex @node Top @top Cuirass @insertcopying @end ifnottex @c ********************************************************************* @menu * Introduction:: What is Cuirass about? Tutorial sections: * Overview:: A quick tour of Cuirass Reference sections: * Invocation:: How to run Cuirass. * Database:: About the database schema. * Web API:: Description of the Web API. * Contributing:: Your help needed! * GNU Free Documentation License:: The license of this manual. * Concept Index:: Concepts. @end menu @c ********************************************************************* @node Introduction @unnumbered Introduction @cindex introduction @dfn{Cuirass} is a general-purpose build automation server that checks out source files from @acronym{VCS, Version Control System} repositories, executes a @dfn{build job}, and notifies the results of that job. A build job consists of a combination of tasks such as compiling source code to binary code and running automated tests. Notification is achieved by using a database that stores the build results associated with an HTTP server that provides a convenient way to access them. Cuirass is inspired by the @url{https://nixos.org/hydra/, Hydra} continuous build system. Unlike Hydra, it is built on top of the @url{https://www.gnu.org/software/guix/, GNU Guix} functional package manager. The goal of Cuirass is to provide both on-demand, scheduled, and triggered builds. A Build server is an important tool in the software development process, because it allows modifying the source code while ensuring the portability and robustness of those changes. It is the basis of the @dfn{Continuous integration} practice. @menu * Continuous Integration:: A Software development practice @end menu @c ********************************************************************* @node Continuous Integration @unnumberedsec Continuous Integration @c ********************************************************************* @node Overview @chapter Overview @command{cuirass} acts as a daemon polling @acronym{VCS, version control system} repositories (called @dfn{inputs}) for changes, and evaluating a derivation when an input has changed (@pxref{Derivations, Derivations,, guix, Guix}). As a final step the derivation is realized and the result of that build allows you to know if the job succeeded or not. What is actually done by @command{cuirass} is specified in a @dfn{job specification} which is represented as an association list which is a basic and traditional Scheme data structure. Here is an example of what a specification might look like: @lisp '((#:name . "foo-master") (#:load-path-inputs . ("guix")) (#:package-path-inputs . ("packages")) (#:proc-input . "conf") (#:proc-file . "drv-list.scm") (#:proc . cuirass-jobs) (#:proc-args (subset . "foo")) (#:inputs . (((#:name . "guix") (#:url . "git://git.savannah.gnu.org/guix.git") (#:load-path . ".") (#:branch . "master") (#:no-compile? . #t)) ((#:name . "conf") (#:url . "git://my-personal-conf.git") (#:load-path . ".") (#:branch . "master") (#:no-compile? . #t)) ((#:name . "packages") (#:url . "git://my-custom-packages.git") (#:load-path . ".") (#:branch . "master") (#:no-compile? . #t)))) (#:build-outputs . (((#:job . "hello*") (#:type . "license") (#:output . "out") (#:path . "share/doc/hello-2.10/COPYING"))))) @end lisp In this specification the keys are Scheme keywords which have the nice property of being self evaluating. This means that they can't refer to another value like symbols do. There are three inputs: one tracking the Guix repository, one tracking the repository containing the @code{proc}, and one tracking the repository containing the custom packages (see @code{GUIX_PACKAGE_PATH}). @code{#:load-path-inputs}, @code{#:package-path-inputs} and @code{#:proc-input} refer to these inputs by their name. The @code{#:build-outputs} list specifies the files that will be made available for download, through the Web interface. Here, the @code{COPYING} file, in the @code{"out"} output, for all jobs whose name matches @code{"hello*"} regex. @quotation Note @c This refers to @c . Currently Cuirass only supports Git repositories, and only over the @code{git} and ``smart'' HTTP(S) transports (Git's so-called ``dumb HTTP'' transport, where the HTTP server does not know about Git, is not supported.) @end quotation Currently the only way to add those specifications to cuirass is to put a list of them in a file and set the @code{--specifications} command line option argument with the file name when launching the daemon (@pxref{Invocation}). The specifications are persistent (they are kept in a SQLite database) so the next time @command{cuirass} is run the previously added specifications will remain active even if you don't keep the @code{--specifications} option. @c ********************************************************************* @node Invocation @chapter Invoking cuirass @cindex invoking cuirass @cindex cuirass invocation @cindex options for invoking cuirass The usual way to invoke @code{cuirass} is as follows: @example cuirass --specifications @var{specs} @end example Additionally the following options can be used. @table @code @item --one-shot Instead of executing @code{cuirass} as a daemon looping over the jobs. Only evaluate and build the specifications once. @item --cache-directory=@var{directory} @var{directory} is the place where the VCS repositories used by the jobs are stored. @item --specifications=@var{specifications-file} @itemx -S @var{specifications-file} Add the specifications defined in @var{specifications-file} in the job database before launching the evaluation and build processes. @item --database=@var{database} @itemx -D @var{database} Use @var{database} as the database containing the jobs and the past build results. Since @code{cuirass} uses SQLite as a database engine, @var{database} must be a file name. If the file doesn't exist, it will be created. @item --ttl=@var{duration} Cuirass registers build results as garbage collector (GC) roots, thereby preventing them from being deleted by the GC. The @option{--ttl} option instructs it to keep those GC roots live for at least @var{duration}---e.g., @code{1m} for one month, @code{2w} for two weeks, and so on. The default is 30 days. Those GC roots are typically stored in @file{/var/guix/gcroots/profiles/per-user/@var{user}/cuirass}, where @var{user} is the user under which Cuirass is running. @item --port=@var{num} @itemx -p @var{num} Make the HTTP interface listen on port @var{num}. Use port 8080 by default. @item --listen=@var{host} Make the HTTP interface listen on network interface for @var{host}. Use localhost by default. @item --interval=@var{n} @itemx -I @var{n} Wait @var{n} seconds between each poll. @item --use-substitutes This can be useful when you are not interested in building the dependencies of a particular job. @item --threads=@var{n} Use up to @var{n} kernel threads. @var{n} should be lower than or equal to the number of CPU cores on the machine. In general though, having a large @var{n} is not very useful since the work of Cuirass is primarily I/O-bound---on the contrary, large values of @var{n} may increase overhead. The default value should be appropriate for most cases. @item --version @itemx -V Display the actual version of @code{cuirass}. @item --help @itemx -h Display an help message that summarize all the options provided. @end table @c ********************************************************************* @node Database @chapter Database schema @cindex cuirass database @cindex sqlite database @cindex persistent configuration Cuirass uses a SQLite database to store information about jobs and past build results, but also to coordinate the execution of jobs. The database contains the following tables: @code{Specifications}, @code{Inputs}, @code{Checkouts}, @code{Evaluations}, @code{Builds} and @code{Outputs}. The purpose of each of these tables is explained below. @section Specifications @cindex specifications, database This table stores specifications describing the repositories from whence Cuirass fetches code and the environment in which it will be processed. Entries in this table must have values for the following text fields: @table @code @item name This field holds the name of the specification. This field is also the primary key of this table. @item load_path_inputs This field holds a list of input names whose load path is prepended to Guile's @code{%load-path} when evaluating @code{proc_file}. @item package_path_inputs This field holds a list of input names whose load path is prepended to @code{GUIX_PACKAGE_PATH} when evaluating @code{proc_file}. @item proc_input The name of the input containing @code{proc}. @item proc_file The path of the Scheme file containing @code{proc}, relative to @code{proc_input}. @item proc This text field holds the name of the procedure in the Scheme file @code{proc_file} that produces a list of jobs. @item proc_args A list of arguments to be passed to @code{proc}. This can be used to produce a different set of jobs using the same @code{proc}. @end table @section Inputs @cindex inputs, database This table stores the data related to the repositories that are periodically fetched by Cuirass. Entries in this table must have values for the following text fields: @table @code @item specification This field holds the name of the specification from the @code{Specifications} table associated with the input. Every input belongs to a specification, and that specification can refer to its inputs. @item name This field holds the name of the input. That name can be used as a key by the @code{proc} if it needs access to its resulting checkout. @item url The URL of the repository. @item load_path Used by a specification when it refers to an input's load path. See @code{load_path_inputs} and @code{package_path_inputs}. @end table The following columns are optional: @table @code @item branch This text field determines which branch of the repository Cuirass should check out. @item tag This text field is an alternative to using @code{branch} or @code{revision}. It tells Cuirass to check out the repository at the specified tag. @item revision This text field is an alternative to using @code{branch} or @code{tag}. It tells Cuirass to check out the repository at a particular commit. @item no_compile_p When this integer field holds the value @code{1} Cuirass will skip compilation for the specified repository. @end table @section Checkouts @cindex checkouts, database When a specification is processed, the repositories must be downloaded at a certain revision as specified. The download is called a checkout. The @code{Checkouts} table stores the new checkouts for every specification when it is being processed. The @code{Checkouts} table has the following columns: @table @code @item specification The specification associated with the checkout. @item revision The revision of the checkout. Within the same specification, two checkouts can't be identical: they can't have the same revision. @item evaluation The evaluation that was triggered by the addition of that new checkout. @item input The input associated with the checkout. @item directory The directory into which the checkout was extracted. @end table @section Evaluations @cindex evaluations, database An evaluation relates a specification with the revision of the repository specified therein. Builds (see below) belong to a specific evaluation. The @code{Evaluations} table has the following columns: @table @code @item id This is an automatically incrementing numeric identifier. @item specification This field holds the @code{name} of a specification from the @code{Specifications} table. @item commits This text field holds the revisions (space separated commit hashes) of the repositories specified as inputs of the related specification. @end table @section Builds @cindex builds, database This table holds records of the derivations and their build status. Note that a job will be registered here only if its derivation doesn't already exist. @table @code @item derivation This text field holds the absolute name of the derivation file that resulted in this build. @item evaluation This integer field references the evaluation identifier from the @code{Evaluations} table, indicating to which evaluation this build belongs. @item job_name This text field holds the name of the job. @item system This text field holds the system name of the derivation. @item nix_name This text field holds the name of the derivation ---e.g., @code{coreutils-8.24}. @item log This text field holds the absolute file name of the build log file. @item status This integer field holds the build status of the derivation. @item timestamp This integer field holds a timestamp taken at build creation time. @item starttime This integer field holds a timestamp taken at build start time. Currently, it has the same value as the @code{timestamp} above. @item stoptime This integer field holds a timestamp taken at build stop time. Currently, it has the same value as the @code{timestamp} above. @end table @section Outputs @cindex outputs, database This table keep tracks for every eventual build outputs. Each build stored in @code{Builds} table may have zero (if it has failed), one or multiple outputs. @table @code @item derivation This field holds the @code{derivation} of a build from the @code{Builds} table. @item name This text field holds the name of the output. @item path This text field holds the path of the output. @end table @c ********************************************************************* @node Web API @chapter Web API @cindex web api Cuirass web API is derived from Hydra one, see @url{https://github.com/NixOS/hydra/blob/master/doc/manual/api.xml, Hydra API description}. For now only a subset of this API is implemented. @section API description @cindex description, json @subsection Build information It is possible to query Cuirass web server for build informations. The dedicated API is "/build/@var{build-id}" where @var{build-id} is the unique id associated to the build in database. The build information can also be queried by output. For example, @samp{/output/kg9mirg6xbvzcp0a98v7326n1nvvwgsj-hello-2.10} will return the details of the output, along with the build if available. For instance, querying a local Cuirass web server can be done with @code{curl} and @code{jq} to format the JSON response : @example $ curl -s "http://localhost:8080/build/2" | jq @{ "id": 2, "jobset": "guix", "job": "acpica-20150410-job", "timestamp": 1501347493, "starttime": 1501347493, "stoptime": 1501347493, "buildoutputs": @{ "out": @{ "path": "/gnu/store/6g3njhfzqpdm335s7qhvmwvs5l7gcbq1-acpica-20150410" @} @}, "system": "x86_64-linux", "nixname": "acpica-20150410", "buildstatus": 0, "busy": 0, "priority": 0, "finished": 1, "buildproducts": null, "releasename": null, "buildinputs_builds": null @} @end example If requested @var{build-id} is not known, the HTTP code 404 is answered with a JSON error message. For example: @example $ curl -s "http://localhost:8080/build/fff" @{"error" : "Build with ID fff doesn't exist."@} @end example The nominal output is a JSON object whose fields are described hereafter. @table @code @item id The unique build id. @item jobset The associated specification name, as a string. @item job The associated job-name, as a string. @item timestamp Timestamp taken at build creation time. @item starttime Timestamp taken at build start time. @item stoptime Timestamp taken at build stop time. @item buildoutputs Build outputs as a JSON object. The keys names are referring to the eventual output names. The associated value is another JSON object which only key is @code{path}. @code{path} value is the output directory in store as a string. @item system System name of the build, as a string. @item nixname Derivation name, as a string. @item buildstatus Build status, as an integer. Possible values are : @example 0 -> succeeded 1 -> failed 2 -> failed dependency 3 -> failed other 4 -> cancelled @end example @item busy Whether the build is pending, as an integer (not implemented yet). @item priority Build priority, as an integer (not implemented yet). @item finished Build finished, as an integer (not implemented yet : always 1). @item buildproducts Build products in store as a JSON object (not implemented yet). @item releasename Unknown, not implemented yet. @item buildinputs_builds Inputs used for the build, as a JSON object (not implemented yet). @end table @subsection Build raw log output It is possible to ask Cuirass for the raw build output log with the API "/build/@var{build-id}/log/raw" where @var{build-id} is the unique id associated to the build in database. The output is a raw text, for example: @example $ curl http://localhost:8080/build/2/log/raw starting phase `set-SOURCE-DATE-EPOCH' phase `set-SOURCE-DATE-EPOCH' succeeded after 0.0 seconds starting phase `set-paths' ... @end example If requested @var{build-id} is not known, the HTTP code 404 is answered with a JSON error message. For example: @example $ curl -s "http://localhost:8080/build/fff/log/raw" @{"error" : "Build with ID fff doesn't exist."@} @end example @subsection Latest builds The list of latest builds can be obtained with the API "/api/latestbuilds". The output is a JSON array of builds. Builds are represented as in "/build/@var{build-id} API. This request accepts a mandatory parameter and multiple optional ones. @table @code @item nr Limit query result to nr elements. This parameter is @emph{mandatory}. @item jobset Filter query result to builds with the given @code{jobset}. @item job Filter query result to builds with the given @code{job} name. @item system Filter query result to builds with the given @code{system}. @end table For example, to ask for the ten last builds: @example $ curl "http://localhost:8080/api/latestbuilds?nr=10" @end example or the five last builds where jobset ``guix'': @example $ curl "http://localhost:8080/api/latestbuilds?nr=5&jobset=guix" @end example If no builds matching given parameters are found, an empty JSON array is returned. @c ********************************************************************* @node Contributing @chapter Contributing Everyone is welcome to contribute to Cuirass. You can report bugs, send patches and share your ideas with others by sending emails the @email{guix-devel@@gnu.org, mailing list}. Development is done using the Git distributed version control system. Thus, access to the repository is not strictly necessary. We welcome contributions in the form of patches as produced by @code{git format-patch}. Please write commit logs in the ChangeLog format (@pxref{Change Logs,,, standards, GNU Coding Standards}); you can check the commit history for examples. When posting a patch to the mailing list, use @samp{[PATCH] @dots{}} as a subject. You may use your email client or the @command{git send-email} command. We prefer to get patches in plain text messages, either inline or as MIME attachments. You are advised to pay attention if your email client changes anything like line breaks or indentation which could potentially break the patches. @c ********************************************************************* @node GNU Free Documentation License @appendix GNU Free Documentation License @cindex license, GNU Free Documentation License @include fdl-1.3.texi @c ********************************************************************* @node Concept Index @unnumbered Concept Index @printindex cp @bye