# gosec - Go Security Checker Inspects source code for security problems by scanning the Go AST and SSA code representation. ## License Licensed under the Apache License, Version 2.0 (the "License"). You may not use this file except in compliance with the License. You may obtain a copy of the License [here](http://www.apache.org/licenses/LICENSE-2.0). ## Project status [![CII Best Practices](https://bestpractices.coreinfrastructure.org/projects/3218/badge)](https://bestpractices.coreinfrastructure.org/projects/3218) [![Build Status](https://github.com/securego/gosec/workflows/CI/badge.svg)](https://github.com/securego/gosec/actions?query=workflows%3ACI) [![Coverage Status](https://codecov.io/gh/securego/gosec/branch/master/graph/badge.svg)](https://codecov.io/gh/securego/gosec) [![GoReport](https://goreportcard.com/badge/github.com/securego/gosec)](https://goreportcard.com/report/github.com/securego/gosec) [![GoDoc](https://pkg.go.dev/badge/github.com/securego/gosec/v2)](https://pkg.go.dev/github.com/securego/gosec/v2) [![Docs](https://readthedocs.org/projects/docs/badge/?version=latest)](https://securego.io/) [![Downloads](https://img.shields.io/github/downloads/securego/gosec/total.svg)](https://github.com/securego/gosec/releases) [![Docker Pulls](https://img.shields.io/docker/pulls/securego/gosec.svg)](https://hub.docker.com/r/securego/gosec/tags) [![Slack](https://img.shields.io/badge/Slack-4A154B?style=for-the-badge&logo=slack&logoColor=white)](http://securego.slack.com) ## Install ### CI Installation ```bash # binary will be $(go env GOPATH)/bin/gosec curl -sfL https://raw.githubusercontent.com/securego/gosec/master/install.sh | sh -s -- -b $(go env GOPATH)/bin vX.Y.Z # or install it into ./bin/ curl -sfL https://raw.githubusercontent.com/securego/gosec/master/install.sh | sh -s vX.Y.Z # In alpine linux (as it does not come with curl by default) wget -O - -q https://raw.githubusercontent.com/securego/gosec/master/install.sh | sh -s vX.Y.Z # If you want to use the checksums provided on the "Releases" page # then you will have to download a tar.gz file for your operating system instead of a binary file wget https://github.com/securego/gosec/releases/download/vX.Y.Z/gosec_vX.Y.Z_OS.tar.gz # The file will be in the current folder where you run the command # and you can check the checksum like this echo " gosec_vX.Y.Z_OS.tar.gz" | sha256sum -c - gosec --help ``` ### GitHub Action You can run `gosec` as a GitHub action as follows: ```yaml name: Run Gosec on: push: branches: - master pull_request: branches: - master jobs: tests: runs-on: ubuntu-latest env: GO111MODULE: on steps: - name: Checkout Source uses: actions/checkout@v3 - name: Run Gosec Security Scanner uses: securego/gosec@master with: args: ./... ``` ### Integrating with code scanning You can [integrate third-party code analysis tools](https://docs.github.com/en/github/finding-security-vulnerabilities-and-errors-in-your-code/integrating-with-code-scanning) with GitHub code scanning by uploading data as SARIF files. The workflow shows an example of running the `gosec` as a step in a GitHub action workflow which outputs the `results.sarif` file. The workflow then uploads the `results.sarif` file to GitHub using the `upload-sarif` action. ```yaml name: "Security Scan" # Run workflow each time code is pushed to your repository and on a schedule. # The scheduled workflow runs every at 00:00 on Sunday UTC time. on: push: schedule: - cron: '0 0 * * 0' jobs: tests: runs-on: ubuntu-latest env: GO111MODULE: on steps: - name: Checkout Source uses: actions/checkout@v3 - name: Run Gosec Security Scanner uses: securego/gosec@master with: # we let the report trigger content trigger a failure using the GitHub Security features. args: '-no-fail -fmt sarif -out results.sarif ./...' - name: Upload SARIF file uses: github/codeql-action/upload-sarif@v2 with: # Path to SARIF file relative to the root of the repository sarif_file: results.sarif ``` ### Local Installation ```bash go install github.com/securego/gosec/v2/cmd/gosec@latest ``` ## Usage Gosec can be configured to only run a subset of rules, to exclude certain file paths, and produce reports in different formats. By default all rules will be run against the supplied input files. To recursively scan from the current directory you can supply `./...` as the input argument. ### Available rules - G101: Look for hard coded credentials - G102: Bind to all interfaces - G103: Audit the use of unsafe block - G104: Audit errors not checked - G106: Audit the use of ssh.InsecureIgnoreHostKey - G107: Url provided to HTTP request as taint input - G108: Profiling endpoint automatically exposed on /debug/pprof - G109: Potential Integer overflow made by strconv.Atoi result conversion to int16/32 - G110: Potential DoS vulnerability via decompression bomb - G111: Potential directory traversal - G112: Potential slowloris attack - G113: Usage of Rat.SetString in math/big with an overflow (CVE-2022-23772) - G114: Use of net/http serve function that has no support for setting timeouts - G115: Potential integer overflow when converting between integer types - G201: SQL query construction using format string - G202: SQL query construction using string concatenation - G203: Use of unescaped data in HTML templates - G204: Audit use of command execution - G301: Poor file permissions used when creating a directory - G302: Poor file permissions used with chmod - G303: Creating tempfile using a predictable path - G304: File path provided as taint input - G305: File traversal when extracting zip/tar archive - G306: Poor file permissions used when writing to a new file - G307: Poor file permissions used when creating a file with os.Create - G401: Detect the usage of MD5 or SHA1 - G402: Look for bad TLS connection settings - G403: Ensure minimum RSA key length of 2048 bits - G404: Insecure random number source (rand) - G405: Detect the usage of DES or RC4 - G406: Detect the usage of MD4 or RIPEMD160 - G407: Detect the usage of hardcoded Initialization Vector(IV)/Nonce - G501: Import blocklist: crypto/md5 - G502: Import blocklist: crypto/des - G503: Import blocklist: crypto/rc4 - G504: Import blocklist: net/http/cgi - G505: Import blocklist: crypto/sha1 - G506: Import blocklist: golang.org/x/crypto/md4 - G507: Import blocklist: golang.org/x/crypto/ripemd160 - G601: Implicit memory aliasing of items from a range statement (only for Go 1.21 or lower) - G602: Slice access out of bounds ### Retired rules - G105: Audit the use of math/big.Int.Exp - [CVE is fixed](https://github.com/golang/go/issues/15184) - G307: Deferring a method which returns an error - causing more inconvenience than fixing a security issue, despite the details from this [blog post](https://www.joeshaw.org/dont-defer-close-on-writable-files/) ### Selecting rules By default, gosec will run all rules against the supplied file paths. It is however possible to select a subset of rules to run via the `-include=` flag, or to specify a set of rules to explicitly exclude using the `-exclude=` flag. ```bash # Run a specific set of rules $ gosec -include=G101,G203,G401 ./... # Run everything except for rule G303 $ gosec -exclude=G303 ./... ``` ### CWE Mapping Every issue detected by `gosec` is mapped to a [CWE (Common Weakness Enumeration)](http://cwe.mitre.org/data/index.html) which describes in more generic terms the vulnerability. The exact mapping can be found [here](https://github.com/securego/gosec/blob/master/issue/issue.go#L50). ### Configuration A number of global settings can be provided in a configuration file as follows: ```JSON { "global": { "nosec": "enabled", "audit": "enabled" } } ``` - `nosec`: this setting will overwrite all `#nosec` directives defined throughout the code base - `audit`: runs in audit mode which enables addition checks that for normal code analysis might be too nosy ```bash # Run with a global configuration file $ gosec -conf config.json . ``` Also some rules accept configuration. For instance on rule `G104`, it is possible to define packages along with a list of functions which will be skipped when auditing the not checked errors: ```JSON { "G104": { "ioutil": ["WriteFile"] } } ``` You can also configure the hard-coded credentials rule `G101` with additional patterns, or adjust the entropy threshold: ```JSON { "G101": { "pattern": "(?i)passwd|pass|password|pwd|secret|private_key|token", "ignore_entropy": false, "entropy_threshold": "80.0", "per_char_threshold": "3.0", "truncate": "32" } } ``` #### Go version Some rules require a specific Go version which is retrieved from the Go module file present in the project. If this version cannot be found, it will fallback to Go runtime version. The Go module version is parsed using the `go list` command which in some cases might lead to performance degradation. In this situation, the go module version can be easily provided by setting the environment variable `GOSECGOVERSION=go1.21.1`. ### Dependencies gosec will fetch automatically the dependencies of the code which is being analyzed when go module is turned on (e.g.`GO111MODULE=on`). If this is not the case, the dependencies need to be explicitly downloaded by running the `go get -d` command before the scan. ### Excluding test files and folders gosec will ignore test files across all packages and any dependencies in your vendor directory. The scanning of test files can be enabled with the following flag: ```bash gosec -tests ./... ``` Also additional folders can be excluded as follows: ```bash gosec -exclude-dir=rules -exclude-dir=cmd ./... ``` ### Excluding generated files gosec can ignore generated go files with default generated code comment. ``` // Code generated by some generator DO NOT EDIT. ``` ```bash gosec -exclude-generated ./... ``` ### Auto fixing vulnerabilities gosec can suggest fixes based on AI recommendation. It will call an AI API to receive a suggestion for a security finding. You can enable this feature by providing the following command line arguments: - `ai-api-provider`: the name of the AI API provider, currently only `gemini`is supported. - `ai-api-key` or set the environment variable `GOSEC_AI_API_KEY`: the key to access the AI API, For gemini, you can create an API key following [these instructions](https://ai.google.dev/gemini-api/docs/api-key). - `ai-endpoint`: the endpoint of the AI provider, this is optional argument. ```bash gosec -ai-api-provider="gemini" -ai-api-key="your_key" ./... ``` ### Annotating code As with all automated detection tools, there will be cases of false positives. In cases where gosec reports a failure that has been manually verified as being safe, it is possible to annotate the code with a comment that starts with `#nosec`. The `#nosec` comment should have the format `#nosec [RuleList] [-- Justification]`. The `#nosec` comment needs to be placed on the line where the warning is reported. ```go func main() { tr := &http.Transport{ TLSClientConfig: &tls.Config{ InsecureSkipVerify: true, // #nosec G402 }, } client := &http.Client{Transport: tr} _, err := client.Get("https://go.dev/") if err != nil { fmt.Println(err) } } ``` When a specific false positive has been identified and verified as safe, you may wish to suppress only that single rule (or a specific set of rules) within a section of code, while continuing to scan for other problems. To do this, you can list the rule(s) to be suppressed within the `#nosec` annotation, e.g: `/* #nosec G401 */` or `//#nosec G201 G202 G203` You could put the description or justification text for the annotation. The justification should be after the rule(s) to suppress and start with two or more dashes, e.g: `//#nosec G101 G102 -- This is a false positive` In some cases you may also want to revisit places where `#nosec` annotations have been used. To run the scanner and ignore any `#nosec` annotations you can do the following: ```bash gosec -nosec=true ./... ``` ### Tracking suppressions As described above, we could suppress violations externally (using `-include`/ `-exclude`) or inline (using `#nosec` annotations) in gosec. This suppression inflammation can be used to generate corresponding signals for auditing purposes. We could track suppressions by the `-track-suppressions` flag as follows: ```bash gosec -track-suppressions -exclude=G101 -fmt=sarif -out=results.sarif ./... ``` - For external suppressions, gosec records suppression info where `kind` is `external` and `justification` is a certain sentence "Globally suppressed". - For inline suppressions, gosec records suppression info where `kind` is `inSource` and `justification` is the text after two or more dashes in the comment. **Note:** Only SARIF and JSON formats support tracking suppressions. ### Build tags gosec is able to pass your [Go build tags](https://pkg.go.dev/go/build/) to the analyzer. They can be provided as a comma separated list as follows: ```bash gosec -tags debug,ignore ./... ``` ### Output formats gosec currently supports `text`, `json`, `yaml`, `csv`, `sonarqube`, `JUnit XML`, `html` and `golint` output formats. By default results will be reported to stdout, but can also be written to an output file. The output format is controlled by the `-fmt` flag, and the output file is controlled by the `-out` flag as follows: ```bash # Write output in json format to results.json $ gosec -fmt=json -out=results.json *.go ``` Results will be reported to stdout as well as to the provided output file by `-stdout` flag. The `-verbose` flag overrides the output format when stdout the results while saving them in the output file ```bash # Write output in json format to results.json as well as stdout $ gosec -fmt=json -out=results.json -stdout *.go # Overrides the output format to 'text' when stdout the results, while writing it to results.json $ gosec -fmt=json -out=results.json -stdout -verbose=text *.go ``` **Note:** gosec generates the [generic issue import format](https://docs.sonarqube.org/latest/analysis/generic-issue/) for SonarQube, and a report has to be imported into SonarQube using `sonar.externalIssuesReportPaths=path/to/gosec-report.json`. ## Development [CONTRIBUTING.md](https://github.com/securego/gosec/blob/master/CONTRIBUTING.md) contains detailed information about adding new rules to gosec. ### Build You can build the binary with: ```bash make ``` ### Note on Sarif Types Generation Install the tool with : ```bash go get -u github.com/a-h/generate/cmd/schema-generate ``` Then generate the types with : ```bash schema-generate -i sarif-schema-2.1.0.json -o mypath/types.go ``` Most of the MarshallJSON/UnmarshalJSON are removed except the one for PropertyBag which is handy to inline the additional properties. The rest can be removed. The URI,ID, UUID, GUID were renamed so it fits the Go convention defined [here](https://github.com/golang/lint/blob/master/lint.go#L700) ### Tests You can run all unit tests using: ```bash make test ``` ### Release You can create a release by tagging the version as follows: ``` bash git tag v1.0.0 -m "Release version v1.0.0" git push origin v1.0.0 ``` The GitHub [release workflow](.github/workflows/release.yml) triggers immediately after the tag is pushed upstream. This flow will release the binaries using the [goreleaser](https://goreleaser.com/actions/) action and then it will build and publish the docker image into Docker Hub. The released artifacts are signed using [cosign](https://docs.sigstore.dev/). You can use the public key from [cosign.pub](cosign.pub) file to verify the signature of docker image and binaries files. The docker image signature can be verified with the following command: ``` cosign verify --key cosign.pub securego/gosec: ``` The binary files signature can be verified with the following command: ``` cosign verify-blob --key cosign.pub --signature gosec__darwin_amd64.tar.gz.sig gosec__darwin_amd64.tar.gz ``` ### Docker image You can also build locally the docker image by using the command: ```bash make image ``` You can run the `gosec` tool in a container against your local Go project. You only have to mount the project into a volume as follows: ```bash docker run --rm -it -w // -v /:/ securego/gosec //... ``` **Note:** the current working directory needs to be set with `-w` option in order to get successfully resolved the dependencies from go module file ### Generate TLS rule The configuration of TLS rule can be generated from [Mozilla's TLS ciphers recommendation](https://statics.tls.security.mozilla.org/server-side-tls-conf.json). First you need to install the generator tool: ```bash go get github.com/securego/gosec/v2/cmd/tlsconfig/... ``` You can invoke now the `go generate` in the root of the project: ```bash go generate ./... ``` This will generate the `rules/tls_config.go` file which will contain the current ciphers recommendation from Mozilla. ## Who is using gosec? This is a [list](USERS.md) with some of the gosec's users. ## Sponsors Support this project by becoming a sponsor. Your logo will show up here with a link to your website