A set of command line tools and Python library for working with SARIF files.
Read more about the SARIF format here: sarifweb.azurewebsites.net.
You need Python 3.8 or later installed. Get it from python.org.
This document assumes that the python
command runs that version.
Open a user command prompt and type:
pip install sarif-tools
Check for a warning such as the following:
WARNING: The script sarif.exe is installed in 'C:\tools\Python38\Scripts' which is not on PATH.
Go into Windows Settings and search for "env" (Edit environment variables for your account) and
add the missing path to your PATH variable. You'll need to open a new terminal or reboot, and
then you can type sarif --version
at the command prompt.
To install system-wide for all users, use an Administrator command prompt instead, if you are comfortable with the security risks.
pip install sarif-tools
Check for a warning such as the following:
WARNING: The script sarif is installed in '/home/XYZ/.local/bin' which is not on PATH.
Add the missing path to your PATH. How to do that varies by Linux flavour, but editing ~/.profile
is often a good approach. Then after opening a new terminal or running source ~/.profile
, you
should be able to type sarif --version
at the command prompt.
To install system-wide, use sudo pip install
. Be aware that this is discouraged from a
security perspective.
After installing using pip
, you should then be able to run:
sarif --version
This section has suggestions in case the sarif
command is not available after installation.
A launcher called sarif
or sarif.exe
is created in Python's Scripts
directory. The Scripts
directory needs to be in the PATH
environment variable for you to be able to type sarif
at the
command prompt; this is most likely the case if pip
is run as a super-user when installing (e.g.
Administrator Command Prompt on Windows, or using sudo
on Linux).
If the SARIF tools are installed for the current user only, adding the user's Scripts directory to
the current user's PATH variable is the best approach. Search online for how to do that on your
system.
If the Scripts
directory is not in the PATH
, then you can type python -m sarif
instead of
sarif
to run the tool.
Confusion can arise when the python
and pip
commands on the PATH
are from different
installations, or the python
installation on the super-user's PATH
is different from the
python
command on the normal user's path. On Windows, you can use where python
and where pip
in normal CMD and Admin CMD to see which installations are in use; on Linux, it's which python
and
which pip
with and without sudo
.
SARIF is a standard format for the output of static analysis tools, but as always, different tools use the standard in different ways. The key parts of the spec that the SARIF Tools look at are:
- Severity: Only
error
,warning
,note
andnone
are allowed by the SARIF standard. - Code and message: Issue types should have a short code and a short name, called "message" in the standard and usually called "description" in Sarif-Tools.
- Location: A specific location where the issue occurred, normally a file path and a line number.
Static analysis tools often have different ideas from the SARIF standard about how to represent these pieces of data, and tool authors make different levels of effort to map their output to the SARIF standard. Examples we have seen are:
- Only using one SARIF severity level, and putting the "real" severity level into a custom property.
- Including the location information in the message, so that the same issue in different locations has a different message.
- Representing the location in different ways.
The Sarif-Tools code applies some minor fudging to produce decent results for mildly-divergent tools. For example, issue types are identified by a combination of code and truncated message, either of which is allowed to be absent. However, if Sarif-Tools is producing bad results for a specific tool, you may need to implement custom pre-processing of the SARIF output, or ask the tool authors to improve the quality of their tool's SARIF output to better align to the standard, or raise an issue against Sarif-Tools.
usage: sarif [-h] [--version] [--debug] [--check {error,warning,note}] {blame,codeclimate,copy,csv,diff,emacs,html,info,ls,summary,trend,usage,word} ...
Process sets of SARIF files
positional arguments:
{blame,codeclimate,copy,csv,diff,emacs,html,info,ls,summary,trend,usage,word}
command
optional arguments:
-h, --help show this help message and exit
--version, -v show program's version number and exit
--debug Print information useful for debugging
--check {error,warning,note}, -x {error,warning,note}
Exit with error code if there are any issues of the specified level (or for diff, an increase in issues at that level).
commands:
blame Enhance SARIF file with information from `git blame`
codeclimate Write a JSON representation in Code Climate format of SARIF file(s) for viewing as a Code Quality report in GitLab UI
copy Write a new SARIF file containing optionally-filtered data from other SARIF file(s)
csv Write a CSV file listing the issues from the SARIF files(s) specified
diff Find the difference between two [sets of] SARIF files
emacs Write a representation of SARIF file(s) for viewing in emacs
html Write an HTML representation of SARIF file(s) for viewing in a web browser
info Print information about SARIF file(s) structure
ls List all SARIF files in the directories specified
summary Write a text summary with the counts of issues from the SARIF files(s) specified
trend Write a CSV file with time series data from SARIF files with "yyyymmddThhmmssZ" timestamps in their filenames
usage (Command optional) - print usage and exit
word Produce MS Word .docx summaries of the SARIF files specified
Run `sarif <COMMAND> --help` for command-specific help.
The commands are illustrated below assuming input files in the following locations:
C:\temp\sarif_files
= a directory of SARIF files with arbitrary filenames.C:\temp\sarif_with_date
= a directory of SARIF files with filenames including timestamps e.g.C:\temp\sarif_with_date\myapp_devskim_output_20211001T012000Z.sarif
.C:\temp\old_sarif_files
= a directory of SARIF files with arbitrary filenames from an older build.C:\code\my_source_repo
= checkout directory of source code files from which SARIF results were obtained.
usage: sarif blame [-h] [--output PATH] [--code PATH] [file_or_dir [file_or_dir ...]]
Enhance SARIF file with information from `git blame`
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
--code PATH, -c PATH Path to git repository; if not specified, the current working directory is used
Augment SARIF files with git blame
information, and write the augmented files to a specified location.
sarif blame -o "C:\temp\sarif_files_with_blame_info" -c "C:\code\my_source_repo" "C:\temp\sarif_files"
If the current working directory is the git repository, the -c
argument can be omitted.
Blame information is added to the property bag of each result
object for which it was successfully obtained. The keys and values used are as in the git blame porcelain format. E.g.:
{
"ruleId": "SM00702",
...
"properties": {
"blame": {
"author": "aperson",
"author-mail": "<[email protected]>",
"author-time": "1350899798",
"author-tz": "+0000",
"committer": "aperson",
"committer-mail": "<[email protected]>",
"committer-time": "1350899798",
"committer-tz": "+0000",
"summary": "blah blah commit comment blah",
"boundary": true,
"filename": "src/net/myproject/mypackage/MyClass.java"
}
}
}
Note that the bare boundary
key is given the automatic value true
.
usage: sarif codeclimate [-h] [--output PATH] [--filter FILE] [--autotrim] [--trim PREFIX] [file_or_dir ...]
Write a JSON representation in Code Climate format of SARIF file(s) for viewing as a Code Quality report in GitLab UI
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
--autotrim, -a Strip off the common prefix of paths in the CSV output
--trim PREFIX Prefix to strip from issue paths, e.g. the checkout directory on the build agent
Write out a JSON file of Code Climate tool format from [a set of] SARIF files. This can then be published as a Code Quality report artefact in a GitLab pipeline and shown in GitLab UI for merge requests.
The JSON output can also be filtered using the blame information; see
Filtering below for how to use the --filter
option.
usage: sarif copy [-h] [--output FILE] [--filter FILE] [--timestamp] [file_or_dir [file_or_dir ...]]
Write a new SARIF file containing optionally-filtered data from other SARIF file(s)
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output FILE, -o FILE
Output file
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
--timestamp, -t Append current timestamp to output filename in the "yyyymmddThhmmssZ" format used by the `sarif trend` command
Write a new SARIF file containing optionally-filtered data from an existing SARIF file or multiple SARIF files. The resulting file contains each run from the original SARIF files back-to-back. The results can be filtered (see Filtering below), in which case only those results from the original SARIF files that meet the filter are included; the output file contains no information about the excluded records. If a run in the original file was empty, or all its results are filtered out, the empty run is still included.
If no output filename is provided, a file called out.sarif
in the current directory is written.
If the output file already exists and is also in the input file list, it is not included in the
inputs, to avoid duplication of results. The output file is overwritten without warning.
The file_or_dir
specifier can include wildcards e.g. c:\temp\**\devskim*.sarif
(i.e.
a "glob"). This works for all commands, but it is particularly useful for copy
.
One use for this is to combine a set of SARIF files from multiple static analysis tools run during a build process into a single file that can be more easily stored and processed as a build asset.
usage: sarif csv [-h] [--output PATH] [--filter FILE] [--autotrim] [--trim PREFIX] [file_or_dir [file_or_dir ...]]
Write a CSV file listing the issues from the SARIF files(s) specified
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
--autotrim, -a Strip off the common prefix of paths in the CSV output
--trim PREFIX Prefix to strip from issue paths, e.g. the checkout directory on the build agent
Write out a simple tabular list of issues from [a set of] SARIF files. This can then be analysed, e.g. via Pivot Tables in Excel.
Use the --trim
option to strip specific prefixes from the paths, to make the CSV less verbose. Alternatively, use --autotrim
to strip off the longest common prefix.
Generate a CSV summary of a single SARIF file with common file path prefix suppressed:
sarif csv "C:\temp\sarif_files\devskim_myapp.sarif"
Generate a CSV summary of a directory of SARIF files with path prefix C:\code\my_source_repo
suppressed:
sarif csv --trim c:\code\my_source_repo "C:\temp\sarif_files"
If the SARIF file(s) contain blame information (as added by the blame
command), then the CSV
includes an "Author" column indicating who last modified the line in question.
The CSV output can also be filtered using the same blame information; see
Filtering below for how to use the --filter
option.
usage: sarif diff [-h] [--output FILE] [--filter FILE] old_file_or_dir new_file_or_dir
Find the difference between two [sets of] SARIF files
positional arguments:
old_file_or_dir An old SARIF file or a directory containing the old SARIF files
new_file_or_dir A new SARIF file or a directory containing the new SARIF files
optional arguments:
-h, --help show this help message and exit
--output FILE, -o FILE
Output file
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
Print the difference between two [sets of] SARIF files.
Difference between the issues in two SARIF files:
sarif diff "C:\temp\old_sarif_files\devskim_myapp.sarif" "C:\temp\sarif_files\devskim_myapp.sarif"
Difference between the issues in two directories of SARIF files:
sarif diff "C:\temp\old_sarif_files" "C:\temp\sarif_files"
Write output to JSON file instead of printing to stdout:
sarif diff -o mydiff.json "C:\temp\old_sarif_files\devskim_myapp.sarif" "C:\temp\sarif_files\devskim_myapp.sarif"
The JSON format is like this:
{
"all": {
"+": 5,
"-": 11
},
"error": {
"+": 2,
"-": 0,
"codes": {
"XYZ1234 Some Issue": {
"<": 0,
">": 2,
"+@": [
{
"Location": "C:\\code\\file1.py",
"Line": 119
},
{
"Location": "C:\\code\\file2.py",
"Line": 61
}
]
},
}
},
"warning": {
"+": 3,
"-": 11,
"codes": {...}
},
"note": {
"+": 3,
"-": 11,
"codes": {...}
}
}
Where:
- "+" indicates new issue types at this severity, "error", "warning" or "note"
- "-" indicates resolved issue types at this severity (no occurrences remaining)
- "codes" lists each issue code where the number of occurrences has changed:
- occurrences before indicated by "<"
- occurrences after indicated by ">"
- new locations indicated by "+@"
If the set of issue codes at a given severity has changed, diff will report this even if the total number of issue types at that severity is unchanged.
When the number of occurrences of an issue code is unchanged, diff will not report this issue code, although it is possible that an equal number of new occurrences of the specific issue have arisen as have been resolved. This is to avoid reporting line number changes.
The diff
operation shows the location of new occurrences of each issue. When writing to an
output JSON file, all new locations are written, but when writing output to the console, a maximum
of three locations are shown. Note that there can be some false positives here, if line numbers
have changed.
See Filtering below for how to use the --filter
option.
usage: sarif emacs [-h] [--output PATH] [--filter FILE] [--no-autotrim] [--image IMAGE] [--trim PREFIX] [file_or_dir [file_or_dir ...]]
Write a representation of SARIF file(s) for viewing in emacs
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
--no-autotrim, -n Do not strip off the common prefix of paths in the output document
--image IMAGE Image to include at top of file - SARIF logo by default
--trim PREFIX Prefix to strip from issue paths, e.g. the checkout directory on the build agent
usage: sarif html [-h] [--output PATH] [--filter FILE] [--no-autotrim] [--image IMAGE] [--trim PREFIX] [file_or_dir [file_or_dir ...]]
Write an HTML representation of SARIF file(s) for viewing in a web browser
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
--no-autotrim, -n Do not strip off the common prefix of paths in the output document
--image IMAGE Image to include at top of file - SARIF logo by default
--trim PREFIX Prefix to strip from issue paths, e.g. the checkout directory on the build agent
Create an HTML file summarising SARIF results.
sarif html -o summary.html "C:\temp\sarif_files"
Use the --trim
option to strip specific prefixes from the paths, to make the generated HTML page less verbose. The longest common prefix of the paths will be trimmed unless --no-autotrim
is specified.
Use the --image
option to provide a header image for the top of the HTML page. The image is embedded into the HTML, so the HTML document remains a portable standalone file.
See Filtering below for how to use the --filter
option.
usage: sarif info [-h] [--output FILE] [file_or_dir [file_or_dir ...]]
Print information about SARIF file(s) structure
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output FILE, -o FILE
Output file
Print information about the structure of a SARIF file or multiple files. This is about the JSON structure rather than any meaning of the results produced by the tool. The summary includes the full path of the file, its size and modified date, the number of runs, and for each run, the tool that generated the run, the number of results, and the entries in the results' property bags.
c:\temp\sarif_files\ios_devskim_output.sarif
1256241 bytes (1.2 MiB)
modified: 2021-10-13 21:50:01.251544, accessed: 2022-01-09 18:23:00.060573, ctime: 2021-10-13 20:49:00
1 run
Tool: devskim
1323 results
All results have properties: tags, DevSkimSeverity
usage: sarif ls [-h] [--output FILE] [file_or_dir [file_or_dir ...]]
List all SARIF files in the directories specified
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output FILE, -o FILE
Output file
List SARIF files in one or more directories.
sarif ls "C:\temp\sarif_files" "C:\temp\sarif_with_date"
usage: sarif summary [-h] [--output PATH] [--filter FILE] [file_or_dir [file_or_dir ...]]
Write a text summary with the counts of issues from the SARIF files(s) specified
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
Print a summary of the issues in one or more SARIF file(s), grouped by severity and then ordered by number of occurrences.
When directories are provided as input and output, a summary is written for each input file, along with another file containing the totals.
sarif summary -o summaries "C:\temp\sarif_files"
When no output directory or file is specified, the overall summary is printed to the standard output.
sarif summary "C:\temp\sarif_files\devskim_myapp.sarif"
See Filtering below for how to use the --filter
option.
usage: sarif trend [-h] [--output FILE] [--filter FILE] [--dateformat {dmy,mdy,ymd}] [file_or_dir [file_or_dir ...]]
Write a CSV file with time series data from SARIF files with "yyyymmddThhmmssZ" timestamps in their filenames
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output FILE, -o FILE
Output file
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
--dateformat {dmy,mdy,ymd}, -f {dmy,mdy,ymd}
Date component order to use in output CSV. Default is `dmy`
Generate a CSV showing a timeline of issues from a set of SARIF files in a directory. The SARIF file names must contain a
timestamp in the specific format yyyymmddThhhmmss
e.g. 20211012T110000Z
.
The CSV can be loaded in Microsoft Excel for graphing and trend analysis.
sarif trend -o timeline.csv "C:\temp\sarif_with_date" --dateformat dmy
See Filtering below for how to use the --filter
option.
usage: sarif upgrade-filter [-h] [--output PATH] [file [file ...]]
Upgrade a v1-style blame filter file to a v2-style filter YAML file
positional arguments:
file A v1-style blame-filter file
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
usage: sarif usage [-h] [--output FILE]
(Command optional) - print usage and exit
optional arguments:
-h, --help show this help message and exit
--output FILE, -o FILE
Output file
Print usage and exit.
usage: sarif version [-h]
Print version and exit
optional arguments:
-h, --help show this help message and exit
Prints the version number of sarif-tools in a bare format.
usage: sarif word [-h] [--output PATH] [--filter FILE] [--no-autotrim] [--image IMAGE] [--trim PREFIX] [file_or_dir [file_or_dir ...]]
Produce MS Word .docx summaries of the SARIF files specified
positional arguments:
file_or_dir A SARIF file or a directory containing SARIF files
optional arguments:
-h, --help show this help message and exit
--output PATH, -o PATH
Output file or directory
--filter FILE, -b FILE
Specify the filter file to apply. See README for format.
--no-autotrim, -n Do not strip off the common prefix of paths in the output document
--image IMAGE Image to include at top of file - SARIF logo by default
--trim PREFIX Prefix to strip from issue paths, e.g. the checkout directory on the build agent
Create Word documents representing a SARIF file or multiple SARIF files.
If directories are provided for the -o
option and the input, then a Word document is produced for each individual SARIF file
and for the full set of SARIF files. Otherwise, a single Word document is created.
Create a Word document for each SARIF file and one for all of them together, in the reports
directory (created if non-existent):
sarif word -o reports "C:\temp\sarif_files"
Create a Word document for a single SARIF file:
sarif word -o "reports\devskim_myapp.docx" "C:\temp\sarif_files\devskim_myapp.sarif"
Use the --trim
option to strip specific prefixes from the paths, to make the generated documents less verbose. The longest common prefix of the paths will be trimmed unless --no-autotrim
is specified.
Use the --image
option to provide a header image for the top of the Word document.
See Filtering below for how to use the --filter
option.
The data in each result
object can then be used for filtering via the --filter
option available for various commands. This option requires a path to a filter-list YAML file, containing a list of patterns and substrings to match against data in a SARIF file. The format of a filter-list file is as follows:
# Lines beginning with # are interpreted as comments and ignored.
# Optional description for the filter. If no title is specified, the filter file name is used.
description: Example filter from README.md
# Optional configuration section to override default values.
configuration:
# This option controls whether to include results where a property to check is missing, default
# value is true.
default-include: false
# This option only applies filter criteria if the line number is present and not equal to 1.
# Some static analysis tools set the line number to 1 for whole file issues, but this does not
# work with blame filtering, because who last changed line 1 is irrelevant. Default value is
# true.
check-line-number: true
# Items in `include` list are interpreted as inclusion filtering rules.
# Items are treated with OR operator, the filtered results includes objects matching any rule.
# Each item can be one rule or a list of rules, in the latter case rules in the list are treated
# with AND operator - all rules must match.
include:
# The following line includes issues whose author-mail property contains "@microsoft.com" AND
# found in Java files.
# Values with special characters `\:;_()$%^@,` must be enclosed in quotes (single or double):
- author-mail: "@microsoft.com"
locations[*].physicalLocation.artifactLocation.uri: "*.java"
# Instead of a substring, a regular expression can be used, enclosed in "/" characters.
# Issues whose committer-mail property includes a string matching the regular expression are included.
# Use ^ and $ to match the whole committer-mail property.
- committer-mail:
value: "/^<myname.*\\.com>$/"
# Configuration options can be overridden for any rule.
default-include: true
check-line-number: true
# Lines under `exclude` are interpreted as exclusion filtering rules.
exclude:
# The following line excludes issues whose location is in test Java files with names starting with
# the "Test" prefix.
- location: "Test*.java"
# The value for the property can be empty, in this case only existence of the property is checked.
- suppression:
Here's an example of a filter-file that includes issues on lines changed by an @microsoft.com
email address or a myname.SOMETHING.com
email address, but not if those email addresses end in [email protected]
or contain a GUID. It's the same as the above example, with comments stripped out.
description: Example filter from README.md
configuration:
default-include: true
check-line-number: true
include:
- author-mail: "@microsoft.com"
- author-mail: "/myname\\..*\\.com/"
exclude:
- author-mail: [email protected]
- author-mail: '/[0-9A-F]{8}[-][0-9A-F]{4}[-][0-9A-F]{4}[-][0-9A-F]{4}[-][0-9A-F]{12}\@microsoft.com/'
Field names must be specified in JSONPath notation
accessing data in the SARIF result
object.
For commonly used properties the following shortcuts are defined:
Shortcut | Full JSONPath |
---|---|
author | properties.blame.author |
author-mail | properties.blame.author-mail |
committer | properties.blame.committer |
committer-mail | properties.blame.committer-mail |
location | locations[*].physicalLocation.artifactLocation.uri |
rule | ruleId |
suppression | suppressions[*].kind |
For the property uri
(e.g. in locations[*].physicalLocation.artifactLocation.uri
) file name wildcard characters can be used as it represents a file location:
?
- a single occurrence of any character in a directory or file name*
- zero or more occurrences of any character in a directory or file name**
- zero or more occurrences across multiple directory levels
E.g.
tests/Test???.js
src/js/*.js
src/js/**/*.js
All matching is case insensitive, because email addresses are. Whitespace at the start and end of lines is ignored, which also means that line ending characters don't matter. The filter file must be UTF-8 encoded (including plain ASCII7).
If there are no inclusion patterns, all issues are included except for those matching the exclusion patterns. If there are inclusion patterns, only issues matching the inclusion patterns are included. If an issue matches one or more inclusion patterns and also at least one exclusion pattern, it is excluded.
Although not its primary purpose, you can use sarif-tools from a Python script or module to load and summarise SARIF results.
After installation, use sarif.loader
to load a SARIF file or files, and then use the operations
on the returned SarifFile
or SarifFileSet
objects to explore the data.
from sarif import loader
sarif_data = loader.load_sarif_file(path_to_sarif_file)
report = sarif_data.get_report()
error_histogram = report.get_issue_type_histogram_for_severity("error")
The three classes defined in the sarif_files
module, SarifFileSet
, SarifFile
and SarifRun
,
provide similar APIs, which allows SARIF results to be handled similarly at multiple levels of
aggregation. To explore the results, use get_report()
.
There are three levels of normalisation and aggregation of the results from the SARIF files:
- Results, obtained from the
SarifFileSet
,SarifFile
orSarifRun
via theget_results()
method. These are dicts directly deserialised from the JSON Result objects in the SARIF data, as defined in the SARIF standard section 3.27. - Records, obtained from the
SarifFileSet
,SarifFile
orSarifRun
via theget_records()
method. Each record is a flat dict of key-value pairs where the keys are those insarif_file.BASIC_RECORD_ATTRIBUTES
:"Tool"
- the tool name for the run containing the result."Severity"
- the SARIF severity for the record. One oferror
,warning
(the default if the record doesn't specify),note
ornone
."Code"
- the issue code from the result."Description"
- the issue name from the result - corresponding to the Code."Location"
- the location of the issue, typically the file containing the issue. Format varies by tool."Line"
- the line number in the file where the issue occurs. Value is a string. This defaults to"1"
if the tool failed to identify the line. This flat list of records is useful for machine-readable output formats like CSV.
- Reports are
IssuesReport
objects, as defined in theissues_report.py
. Reports group and sort records to provide a useful structure for human-readable output formats like Word and HTML. The report can be obtained from theSarifFileSet
,SarifFile
orSarifRun
via theget_report()
method.
These methods exist across SarifFileSet
, SarifFile
and SarifRun
.
get_distinct_tool_names()
- Returns a list of distinct tool names in a
SarifFile
or for all files in aSarifFileSet
. ASarifRun
has a single tool name so the equivalent method isget_tool_name()
.
- Returns a list of distinct tool names in a
get_results()
- Return the list of SARIF result objects as dicts - see above.
get_records()
- Return the list of SARIF records as flat dicts - see above.
get_report()
- Return the
IssuesReport
object that groups the records by issue type and sorts them by location.
- Return the
The IssuesReport
provides methods that group issues in three levels:
- Severity: SARIF defines severity levels
error
,warning
andnote
, plusnone
which is sometimes used when the results in the SARIF file are not issues. - Issue Type: SARIF Results are identified by code, description or a combination of the two.
The same issue can occur in multiple locations, so the
IssuesReport
groups these together per issue type, within a given severity level. The issue type code key is formed by combining the issue code and issue description, with a space character inserted in-between, but truncated to be shorter than 120 characters. - Record: The individual records under an issue type represent the locations where that issue occurs. They are sorted into a sensible location order.
The key methods on the IssuesReport
are:
get_severities()
: Get the ordered list of severities, from worst to least bad. To render a report, get the list of severities and then iterate through them calling other methods to get the summary of results at that severity level in the required form.any_none_severities()
:True
orFalse
that there are any records with severitynone
. Severitynone
is not used by many tools, so it is only included as a heading if there are any matching records, to avoid a redundant and potentially-confusingnone
header otherwise. Severitieserror
,warning
andnote
are always included even if no records, as these levels are all relevant for static analysis issues.get_issue_count_for_severity(severity)
: Get the total number of results at this severity.get_issue_type_count_for_severity(severity)
: Get the total number of issue types at this severity.get_issues_grouped_by_type_for_severity(severity)
: Get a dict from issue type key (code + description) to the sorted list of results of that type.get_issue_type_histogram_for_severity(severity)
: Get a dict from issue type key (code + description) to the number of results of that type.get_issues_for_severity(severity)
: Get a flat list of results at the given severity. This is like the result ofget_issues_grouped_by_type_for_severity
but flattened from adict[str, list]
to a singlelist
in the same order as the original sequence of lists.
These fields and methods allow access to the underlying information about the SARIF files.
SarifFileSet.subdirs
- a list ofSarifFileSet
objects corresponding to the subdirectories of the directory from which theSarifFileSet
was created.SarifFileSet.files
- a list ofSarifFile
objects corresponding to the SARIF files contained in the directory from which theSarifFileSet
was created.SarifFile.get_abs_file_path()
- get the absolute path to the SARIF file.SarifFile.get_file_name()
- get the name of the SARIF file.SarifFile.get_file_name_without_extension()
- get the name of the SARIF file without its extension. Useful for constructing derived filenames.SarifFile.get_filename_timestamp()
- extract the timestamp from the filename of a SARIF file, and return it as a string. The timestamp must be in the format specified in thesarif trend
command.SarifFile.runs
- a list ofSarifRun
objects contained in the SARIF file. Most SARIF files only contain a single run, but it is possible to aggregate runs from multiple tools into a single SARIF file.
Call init_path_prefix_stripping(autotrim, path_prefixes)
on a SarifFileSet
, SarifFile
or SarifRun
object to set up path filtering, either automatically removing the longest common prefix (autotrim=True
) or removing specific prefixes (autotrim=False
and a list of strings in path_prefixes
).
Call init_general_filter(filter_description, include_filters, exclude_filters)
on a SarifFileSet
, SarifFile
or SarifRun
object to set up filtering. filter_description
is a string and the other parameters are lists of inclusion and exclusion rules. They correspond in an obvious way to the filter file contents described in Filtering above.
Call get_filter_stats()
to retrieve the filter stats after reading the results or records from sarif files. It returns None
if there is no filter, or otherwise a sarif_file.FilterStats
object with integer fields filtered_in_result_count
, filtered_out_result_count
. Call to_string()
on the FilterStats
object for a readable representation of these statistics, which also includes the filter file name or description (filter_description
field).
Using the --check
option in combination with the summary
command causes sarif-tools to exit
with a nonzero exit code if there are any issues of the specified level, or higher. This can
be useful to fail a continuous integration (CI) pipeline in the case of SAST violation.
The SARIF issue levels are error
, warning
and note
. These are all valid options for the
--check
option.
E.g. to fail if there are any errors or warnings:
sarif --check warning summary c:\temp\sarif_files
The diff
command can check for any increase in issues of the specified level or above, relative
to a previous or baseline build.
E.g. to fail if there are any new issue codes at error level:
sarif --check error diff c:\temp\old_sarif_files c:\temp\sarif_files
You can also use sarif-tools to filter and consolidate the output from multiple tools. E.g.
# First run your static analysis tools, configured to write SARIF output. How to do that depends
# the tool.
# Now run the blame command to augment the output with blame information.
sarif blame -o with_blame/myapp_mytool_with_blame.sarif myapp_mytool.sarif
# Now combine all tools' output into a single file
sarif copy --timestamp -o artifacts/myapp_alltools_with_blame.sarif
Download the file myapp_alltools_with_blame_TIMESTAMP.sarif
that is generated. Then later you can
filter the results using the --filter
argument, or generate graph of code quality over time
using sarif trend
.
sarif-tools was originally developed during the Microsoft Global Hackathon 2021 by Simon Abykov, Nick Brabbs, Anthony Hayward, Sivaji Kondapalli, Matt Parkes and Kathryn Pentland.
Thank you to everyone who has contributed pull requests since the initial release!