FetchContent

New in version 3.11.

Note

The Using Dependencies Guide provides a high-level introduction to this general topic. It provides a broader overview of where the FetchContent module fits into the bigger picture, including its relationship to the find_package() command. The guide is recommended pre-reading before moving on to the details below.

Overview

This module enables populating content at configure time via any method supported by the ExternalProject module. Whereas ExternalProject_Add() downloads at build time, the FetchContent module makes content available immediately, allowing the configure step to use the content in commands like add_subdirectory(), include() or file() operations.

Content population details should be defined separately from the command that performs the actual population. This separation ensures that all the dependency details are defined before anything might try to use them to populate content. This is particularly important in more complex project hierarchies where dependencies may be shared between multiple projects.

The following shows a typical example of declaring content details for some dependencies and then ensuring they are populated with a separate call:

FetchContent_Declare(
  googletest
  GIT_REPOSITORY https://github.com/google/googletest.git
  GIT_TAG        703bd9caab50b139428cea1aaff9974ebee5742e # release-1.10.0
)
FetchContent_Declare(
  myCompanyIcons
  URL      https://intranet.mycompany.com/assets/iconset_1.12.tar.gz
  URL_HASH MD5=5588a7b18261c20068beabfb4f530b87
)

FetchContent_MakeAvailable(googletest myCompanyIcons)

The FetchContent_MakeAvailable() command ensures the named dependencies have been populated, either by an earlier call or by populating them itself. When performing the population, it will also add them to the main build, if possible, so that the main build can use the populated projects' targets, etc. See the command's documentation for how these steps are performed.

When using a hierarchical project arrangement, projects at higher levels in the hierarchy are able to override the declared details of content specified anywhere lower in the project hierarchy. The first details to be declared for a given dependency take precedence, regardless of where in the project hierarchy that occurs. Similarly, the first call that tries to populate a dependency "wins", with subsequent populations reusing the result of the first instead of repeating the population again. See the Examples which demonstrate this scenario.

In some cases, the main project may need to have more precise control over the population, or it may be required to explicitly define the population steps in a way that cannot be captured by the declared details alone. For such situations, the lower level FetchContent_GetProperties() and FetchContent_Populate() commands can be used. These lack the richer features provided by FetchContent_MakeAvailable() though, so their direct use should be considered a last resort. The typical pattern of such custom steps looks like this:

# NOTE: Where possible, prefer to use FetchContent_MakeAvailable()
#       instead of custom logic like this

# Check if population has already been performed
FetchContent_GetProperties(depname)
if(NOT depname_POPULATED)
  # Fetch the content using previously declared details
  FetchContent_Populate(depname)

  # Set custom variables, policies, etc.
  # ...

  # Bring the populated content into the build
  add_subdirectory(${depname_SOURCE_DIR} ${depname_BINARY_DIR})
endif()

The FetchContent module also supports defining and populating content in a single call, with no check for whether the content has been populated elsewhere already. This should not be done in projects, but may be appropriate for populating content in CMake's script mode. See FetchContent_Populate() for details.

Commands

FetchContent_Declare
FetchContent_Declare(
  <name>
  <contentOptions>...
  [EXCLUDE_FROM_ALL]
  [SYSTEM]
  [OVERRIDE_FIND_PACKAGE |
   FIND_PACKAGE_ARGS args...]
)

The FetchContent_Declare() function records the options that describe how to populate the specified content. If such details have already been recorded earlier in this project (regardless of where in the project hierarchy), this and all later calls for the same content <name> are ignored. This "first to record, wins" approach is what allows hierarchical projects to have parent projects override content details of child projects.

The content <name> can be any string without spaces, but good practice would be to use only letters, numbers and underscores. The name will be treated case-insensitively and it should be obvious for the content it represents, often being the name of the child project or the value given to its top level project() command (if it is a CMake project). For well-known public projects, the name should generally be the official name of the project. Choosing an unusual name makes it unlikely that other projects needing that same content will use the same name, leading to the content being populated multiple times.

The <contentOptions> can be any of the download, update or patch options that the ExternalProject_Add() command understands. The configure, build, install and test steps are explicitly disabled and therefore options related to them will be ignored. The SOURCE_SUBDIR option is an exception, see FetchContent_MakeAvailable() for details on how that affects behavior.

In most cases, <contentOptions> will just be a couple of options defining the download method and method-specific details like a commit tag or archive hash. For example:

FetchContent_Declare(
  googletest
  GIT_REPOSITORY https://github.com/google/googletest.git
  GIT_TAG        703bd9caab50b139428cea1aaff9974ebee5742e # release-1.10.0
)

FetchContent_Declare(
  myCompanyIcons
  URL      https://intranet.mycompany.com/assets/iconset_1.12.tar.gz
  URL_HASH MD5=5588a7b18261c20068beabfb4f530b87
)

FetchContent_Declare(
  myCompanyCertificates
  SVN_REPOSITORY svn+ssh://svn.mycompany.com/srv/svn/trunk/certs
  SVN_REVISION   -r12345
)

Where contents are being fetched from a remote location and you do not control that server, it is advisable to use a hash for GIT_TAG rather than a branch or tag name. A commit hash is more secure and helps to confirm that the downloaded contents are what you expected.

Changed in version 3.14: Commands for the download, update or patch steps can access the terminal. This may be needed for things like password prompts or real-time display of command progress.

New in version 3.22: The CMAKE_TLS_VERIFY, CMAKE_TLS_CAINFO, CMAKE_NETRC and CMAKE_NETRC_FILE variables now provide the defaults for their corresponding content options, just like they do for ExternalProject_Add(). Previously, these variables were ignored by the FetchContent module.

New in version 3.24:

FIND_PACKAGE_ARGS

This option is for scenarios where the FetchContent_MakeAvailable() command may first try a call to find_package() to satisfy the dependency for <name>. By default, such a call would be simply find_package(<name>), but FIND_PACKAGE_ARGS can be used to provide additional arguments to be appended after the <name>. FIND_PACKAGE_ARGS can also be given with nothing after it, which indicates that find_package() can still be called if FETCHCONTENT_TRY_FIND_PACKAGE_MODE is set to OPT_IN or is not set.

Everything after the FIND_PACKAGE_ARGS keyword is appended to the find_package() call, so all other <contentOptions> must come before the FIND_PACKAGE_ARGS keyword. If the CMAKE_FIND_PACKAGE_TARGETS_GLOBAL variable is set to true at the time FetchContent_Declare() is called, a GLOBAL keyword will be appended to the find_package() arguments if it was not already specified. It will also be appended if FIND_PACKAGE_ARGS was not given, but FETCHCONTENT_TRY_FIND_PACKAGE_MODE was set to ALWAYS.

OVERRIDE_FIND_PACKAGE cannot be used when FIND_PACKAGE_ARGS is given.

Dependency Providers discusses another way that FetchContent_MakeAvailable() calls can be redirected. FIND_PACKAGE_ARGS is intended for project control, whereas dependency providers allow users to override project behavior.

OVERRIDE_FIND_PACKAGE

When a FetchContent_Declare(<name> ...) call includes this option, subsequent calls to find_package(<name> ...) will ensure that FetchContent_MakeAvailable(<name>) has been called, then use the config package files in the CMAKE_FIND_PACKAGE_REDIRECTS_DIR directory (which are usually created by FetchContent_MakeAvailable()). This effectively makes FetchContent_MakeAvailable() override find_package() for the named dependency, allowing the former to satisfy the package requirements of the latter. FIND_PACKAGE_ARGS cannot be used when OVERRIDE_FIND_PACKAGE is given.

If a dependency provider has been set and the project calls find_package() for the <name> dependency, OVERRIDE_FIND_PACKAGE will not prevent the provider from seeing that call. Dependency providers always have the opportunity to intercept any direct call to find_package(), except if that call contains the BYPASS_PROVIDER option.

New in version 3.25:

SYSTEM

If the SYSTEM argument is provided, the SYSTEM directory property of a subdirectory added by FetchContent_MakeAvailable() will be set to true. This will affect non-imported targets created as part of that command. See the SYSTEM target property documentation for a more detailed discussion of the effects.

New in version 3.28:

EXCLUDE_FROM_ALL

If the EXCLUDE_FROM_ALL argument is provided, then targets in the subdirectory added by FetchContent_MakeAvailable() will not be included in the ALL target by default, and may be excluded from IDE project files. See the add_subdirectory() EXCLUDE_FROM_ALL argument documentation for a more detailed discussion of the effects.

FetchContent_MakeAvailable

New in version 3.14.

FetchContent_MakeAvailable(<name1> [<name2>...])

This command ensures that each of the named dependencies are made available to the project by the time it returns. There must have been a call to FetchContent_Declare() for each dependency, and the first such call will control how that dependency will be made available, as described below.

If <lowercaseName>_SOURCE_DIR is not set:

  • New in version 3.24: If a dependency provider is set, call the provider's command with FETCHCONTENT_MAKEAVAILABLE_SERIAL as the first argument, followed by the arguments of the first call to FetchContent_Declare() for <name>. If SOURCE_DIR or BINARY_DIR were not part of the original declared arguments, they will be added with their default values. If FETCHCONTENT_TRY_FIND_PACKAGE_MODE was set to NEVER when the details were declared, any FIND_PACKAGE_ARGS will be omitted. The OVERRIDE_FIND_PACKAGE keyword is also always omitted. If the provider fulfilled the request, FetchContent_MakeAvailable() will consider that dependency handled, skip the remaining steps below and move on to the next dependency in the list.

  • New in version 3.24: If permitted, find_package(<name> [<args>...]) will be called, where <args>... may be provided by the FIND_PACKAGE_ARGS option in FetchContent_Declare(). The value of the FETCHCONTENT_TRY_FIND_PACKAGE_MODE variable at the time FetchContent_Declare() was called determines whether FetchContent_MakeAvailable() can call find_package(). If the CMAKE_FIND_PACKAGE_TARGETS_GLOBAL variable is set to true when FetchContent_MakeAvailable() is called, it still affects any imported targets created when that in turn calls find_package(), even if that variable was false when the corresponding details were declared.

If the dependency was not satisfied by a provider or a find_package() call, FetchContent_MakeAvailable() then uses the following logic to make the dependency available:

  • If the dependency has already been populated earlier in this run, set the <lowercaseName>_POPULATED, <lowercaseName>_SOURCE_DIR and <lowercaseName>_BINARY_DIR variables in the same way as a call to FetchContent_GetProperties(), then skip the remaining steps below and move on to the next dependency in the list.

  • Call FetchContent_Populate() to populate the dependency using the details recorded by an earlier call to FetchContent_Declare(). Halt with a fatal error if no such details have been recorded. FETCHCONTENT_SOURCE_DIR_<uppercaseName> can be used to override the declared details and use content provided at the specified location instead.

  • New in version 3.24: Ensure the CMAKE_FIND_PACKAGE_REDIRECTS_DIR directory contains a <lowercaseName>-config.cmake and a <lowercaseName>-config-version.cmake file (or equivalently <name>Config.cmake and <name>ConfigVersion.cmake). The directory that the CMAKE_FIND_PACKAGE_REDIRECTS_DIR variable points to is cleared at the start of every CMake run. If no config file exists when FetchContent_Populate() returns, a minimal one will be written which includes any <lowercaseName>-extra.cmake or <name>Extra.cmake file with the OPTIONAL flag (so the files can be missing and won't generate a warning). Similarly, if no config version file exists, a very simple one will be written which sets PACKAGE_VERSION_COMPATIBLE and PACKAGE_VERSION_EXACT to true. This ensures all future calls to find_package() for the dependency will use the redirected config file, regardless of any version requirements. CMake cannot automatically determine an arbitrary dependency's version, so it cannot set PACKAGE_VERSION. When a dependency is pulled in via add_subdirectory() in the next step, it may choose to overwrite the generated config version file in CMAKE_FIND_PACKAGE_REDIRECTS_DIR with one that also sets PACKAGE_VERSION. The dependency may also write a <lowercaseName>-extra.cmake or <name>Extra.cmake file to perform custom processing or define any variables that their normal (installed) package config file would otherwise usually define (many projects don't do any custom processing or set any variables and therefore have no need to do this). If required, the main project can write these files instead if the dependency project doesn't do so. This allows the main project to add missing details from older dependencies that haven't or can't be updated to support this functionality. See Integrating With find_package() for examples.

  • If the top directory of the populated content contains a CMakeLists.txt file, call add_subdirectory() to add it to the main build. It is not an error for there to be no CMakeLists.txt file, which allows the command to be used for dependencies that make downloaded content available at a known location, but which do not need or support being added directly to the build.

    New in version 3.18: The SOURCE_SUBDIR option can be given in the declared details to look somewhere below the top directory instead (i.e. the same way that SOURCE_SUBDIR is used by the ExternalProject_Add() command). The path provided with SOURCE_SUBDIR must be relative and will be treated as relative to the top directory. It can also point to a directory that does not contain a CMakeLists.txt file or even to a directory that doesn't exist. This can be used to avoid adding a project that contains a CMakeLists.txt file in its top directory.

    New in version 3.25: If the SYSTEM keyword was included in the call to FetchContent_Declare(), the SYSTEM keyword will be added to the add_subdirectory() command as well.

    New in version 3.28: If the EXCLUDE_FROM_ALL keyword was included in the call to FetchContent_Declare(), the EXCLUDE_FROM_ALL keyword will be added to the add_subdirectory() command as well.

Projects should aim to declare the details of all dependencies they might use before they call FetchContent_MakeAvailable() for any of them. This ensures that if any of the dependencies are also sub-dependencies of one or more of the others, the main project still controls the details that will be used (because it will declare them first before the dependencies get a chance to). In the following code samples, assume that the uses_other dependency also uses FetchContent to add the other dependency internally:

# WRONG: Should declare all details first
FetchContent_Declare(uses_other ...)
FetchContent_MakeAvailable(uses_other)

FetchContent_Declare(other ...)    # Will be ignored, uses_other beat us to it
FetchContent_MakeAvailable(other)  # Would use details declared by uses_other
# CORRECT: All details declared first, so they will take priority
FetchContent_Declare(uses_other ...)
FetchContent_Declare(other ...)
FetchContent_MakeAvailable(uses_other other)

Note that CMAKE_VERIFY_INTERFACE_HEADER_SETS is explicitly set to false upon entry to FetchContent_MakeAvailable(), and is restored to its original value before the command returns. Developers typically only want to verify header sets from the main project, not those from any dependencies. This local manipulation of the CMAKE_VERIFY_INTERFACE_HEADER_SETS variable provides that intuitive behavior. You can use variables like CMAKE_PROJECT_INCLUDE or CMAKE_PROJECT_<PROJECT-NAME>_INCLUDE to turn verification back on for all or some dependencies. You can also set the VERIFY_INTERFACE_HEADER_SETS property of individual targets.

FetchContent_Populate

Note

Where possible, prefer to use FetchContent_MakeAvailable() instead of implementing population manually with this command.

FetchContent_Populate(<name>)

In most cases, the only argument given to FetchContent_Populate() is the <name>. When used this way, the command assumes the content details have been recorded by an earlier call to FetchContent_Declare(). The details are stored in a global property, so they are unaffected by things like variable or directory scope. Therefore, it doesn't matter where in the project the details were previously declared, as long as they have been declared before the call to FetchContent_Populate(). Those saved details are then used to construct a call to ExternalProject_Add() in a private sub-build to perform the content population immediately. The implementation of ExternalProject_Add() ensures that if the content has already been populated in a previous CMake run, that content will be reused rather than repopulating them again. For the common case where population involves downloading content, the cost of the download is only paid once.

An internal global property records when a particular content population request has been processed. If FetchContent_Populate() is called more than once for the same content name within a configure run, the second call will halt with an error. Projects can and should check whether content population has already been processed with the FetchContent_GetProperties() command before calling FetchContent_Populate().

FetchContent_Populate() will set three variables in the scope of the caller:

<lowercaseName>_POPULATED

This will always be set to TRUE by the call.

<lowercaseName>_SOURCE_DIR

The location where the populated content can be found upon return.

<lowercaseName>_BINARY_DIR

A directory intended for use as a corresponding build directory.

The main use case for the <lowercaseName>_SOURCE_DIR and <lowercaseName>_BINARY_DIR variables is to call add_subdirectory() immediately after population:

FetchContent_Populate(FooBar)
add_subdirectory(${foobar_SOURCE_DIR} ${foobar_BINARY_DIR})

The values of the three variables can also be retrieved from anywhere in the project hierarchy using the FetchContent_GetProperties() command.

The FetchContent_Populate() command also supports a syntax allowing the content details to be specified directly rather than using any saved details. This is more low-level and use of this form is generally to be avoided in favor of using saved content details as outlined above. Nevertheless, in certain situations it can be useful to invoke the content population as an isolated operation (typically as part of implementing some other higher level feature or when using CMake in script mode):

FetchContent_Populate(
  <name>
  [QUIET]
  [SUBBUILD_DIR <subBuildDir>]
  [SOURCE_DIR <srcDir>]
  [BINARY_DIR <binDir>]
  ...
)

This form has a number of key differences to that where only <name> is provided:

  • All required population details are assumed to have been provided directly in the call to FetchContent_Populate(). Any saved details for <name> are ignored.

  • No check is made for whether content for <name> has already been populated.

  • No global property is set to record that the population has occurred.

  • No global properties record the source or binary directories used for the populated content.

  • The FETCHCONTENT_FULLY_DISCONNECTED and FETCHCONTENT_UPDATES_DISCONNECTED cache variables are ignored.

The <lowercaseName>_SOURCE_DIR and <lowercaseName>_BINARY_DIR variables are still returned to the caller, but since these locations are not stored as global properties when this form is used, they are only available to the calling scope and below rather than the entire project hierarchy. No <lowercaseName>_POPULATED variable is set in the caller's scope with this form.

The supported options for FetchContent_Populate() are the same as those for FetchContent_Declare(). Those few options shown just above are either specific to FetchContent_Populate() or their behavior is slightly modified from how ExternalProject_Add() treats them:

QUIET

The QUIET option can be given to hide the output associated with populating the specified content. If the population fails, the output will be shown regardless of whether this option was given or not so that the cause of the failure can be diagnosed. The global FETCHCONTENT_QUIET cache variable has no effect on FetchContent_Populate() calls where the content details are provided directly.

SUBBUILD_DIR

The SUBBUILD_DIR argument can be provided to change the location of the sub-build created to perform the population. The default value is ${CMAKE_CURRENT_BINARY_DIR}/<lowercaseName>-subbuild and it would be unusual to need to override this default. If a relative path is specified, it will be interpreted as relative to CMAKE_CURRENT_BINARY_DIR. This option should not be confused with the SOURCE_SUBDIR option which only affects the FetchContent_MakeAvailable() command.

SOURCE_DIR, BINARY_DIR

The SOURCE_DIR and BINARY_DIR arguments are supported by ExternalProject_Add(), but different default values are used by FetchContent_Populate(). SOURCE_DIR defaults to ${CMAKE_CURRENT_BINARY_DIR}/<lowercaseName>-src and BINARY_DIR defaults to ${CMAKE_CURRENT_BINARY_DIR}/<lowercaseName>-build. If a relative path is specified, it will be interpreted as relative to CMAKE_CURRENT_BINARY_DIR.

In addition to the above explicit options, any other unrecognized options are passed through unmodified to ExternalProject_Add() to perform the download, patch and update steps. The following options are explicitly prohibited (they are disabled by the FetchContent_Populate() command):

  • CONFIGURE_COMMAND

  • BUILD_COMMAND

  • INSTALL_COMMAND

  • TEST_COMMAND

If using FetchContent_Populate() within CMake's script mode, be aware that the implementation sets up a sub-build which therefore requires a CMake generator and build tool to be available. If these cannot be found by default, then the CMAKE_GENERATOR and/or CMAKE_MAKE_PROGRAM variables will need to be set appropriately on the command line invoking the script.

New in version 3.18: Added support for the DOWNLOAD_NO_EXTRACT option.

FetchContent_GetProperties

When using saved content details, a call to FetchContent_MakeAvailable() or FetchContent_Populate() records information in global properties which can be queried at any time. This information may include the source and binary directories associated with the content and also whether or not the content population has been processed during the current configure run.

FetchContent_GetProperties(
  <name>
  [SOURCE_DIR <srcDirVar>]
  [BINARY_DIR <binDirVar>]
  [POPULATED <doneVar>]
)

The SOURCE_DIR, BINARY_DIR and POPULATED options can be used to specify which properties should be retrieved. Each option accepts a value which is the name of the variable in which to store that property. Most of the time though, only <name> is given, in which case the call will then set the same variables as a call to FetchContent_MakeAvailable(name) or FetchContent_Populate(name). Note that the SOURCE_DIR and BINARY_DIR values can be empty if the call is fulfilled by a dependency provider.

This command is rarely needed when using FetchContent_MakeAvailable(). It is more commonly used as part of implementing the following pattern with FetchContent_Populate(), which ensures that the relevant variables will always be defined regardless of whether or not the population has been performed elsewhere in the project already:

# Check if population has already been performed
FetchContent_GetProperties(depname)
if(NOT depname_POPULATED)
  # Fetch the content using previously declared details
  FetchContent_Populate(depname)

  # Set custom variables, policies, etc.
  # ...

  # Bring the populated content into the build
  add_subdirectory(${depname_SOURCE_DIR} ${depname_BINARY_DIR})
endif()
FetchContent_SetPopulated

New in version 3.24.

Note

This command should only be called by dependency providers. Calling it in any other context is unsupported and future CMake versions may halt with a fatal error in such cases.

FetchContent_SetPopulated(
  <name>
  [SOURCE_DIR <srcDir>]
  [BINARY_DIR <binDir>]
)

If a provider command fulfills a FETCHCONTENT_MAKEAVAILABLE_SERIAL request, it must call this function before returning. The SOURCE_DIR and BINARY_DIR arguments can be used to specify the values that FetchContent_GetProperties() should return for its corresponding arguments. Only provide SOURCE_DIR and BINARY_DIR if they have the same meaning as if they had been populated by the built-in FetchContent_MakeAvailable() implementation.

Variables

A number of cache variables can influence the behavior where details from a FetchContent_Declare() call are used to populate content.

Note

All of these variables are intended for the developer to customize behavior. They should not normally be set by the project.

FETCHCONTENT_BASE_DIR

In most cases, the saved details do not specify any options relating to the directories to use for the internal sub-build, final source and build areas. It is generally best to leave these decisions up to the FetchContent module to handle on the project's behalf. The FETCHCONTENT_BASE_DIR cache variable controls the point under which all content population directories are collected, but in most cases, developers would not need to change this. The default location is ${CMAKE_BINARY_DIR}/_deps, but if developers change this value, they should aim to keep the path short and just below the top level of the build tree to avoid running into path length problems on Windows.

FETCHCONTENT_QUIET

The logging output during population can be quite verbose, making the configure stage quite noisy. This cache option (ON by default) hides all population output unless an error is encountered. If experiencing problems with hung downloads, temporarily switching this option off may help diagnose which content population is causing the issue.

FETCHCONTENT_FULLY_DISCONNECTED

When this option is enabled, no attempt is made to download or update any content. It is assumed that all content has already been populated in a previous run or the source directories have been pointed at existing contents the developer has provided manually (using options described further below). When the developer knows that no changes have been made to any content details, turning this option ON can significantly speed up the configure stage. It is OFF by default.

FETCHCONTENT_UPDATES_DISCONNECTED

This is a less severe download/update control compared to FETCHCONTENT_FULLY_DISCONNECTED. Instead of bypassing all download and update logic, FETCHCONTENT_UPDATES_DISCONNECTED only prevents the update step from making connections to remote servers when using the git or hg download methods. Updates still occur if details about the update step change, but the update is attempted with only the information already available locally (so switching to a different tag or commit that is already fetched locally will succeed, but switching to an unknown commit hash will fail). The download step is not affected, so if content has not been downloaded previously, it will still be downloaded when this option is enabled. This can speed up the configure step, but not as much as FETCHCONTENT_FULLY_DISCONNECTED. FETCHCONTENT_UPDATES_DISCONNECTED is OFF by default.

FETCHCONTENT_TRY_FIND_PACKAGE_MODE

New in version 3.24.

This variable modifies the details that FetchContent_Declare() records for a given dependency. While it ultimately controls the behavior of FetchContent_MakeAvailable(), it is the variable's value when FetchContent_Declare() is called that gets used. It makes no difference what the variable is set to when FetchContent_MakeAvailable() is called. Since the variable should only be set by the user and not by projects directly, it will typically have the same value throughout anyway, so this distinction is not usually noticeable.

FETCHCONTENT_TRY_FIND_PACKAGE_MODE ultimately controls whether FetchContent_MakeAvailable() is allowed to call find_package() to satisfy a dependency. The variable can be set to one of the following values:

OPT_IN

FetchContent_MakeAvailable() will only call find_package() if the FetchContent_Declare() call included a FIND_PACKAGE_ARGS keyword. This is also the default behavior if FETCHCONTENT_TRY_FIND_PACKAGE_MODE is not set.

ALWAYS

find_package() can be called by FetchContent_MakeAvailable() regardless of whether the FetchContent_Declare() call included a FIND_PACKAGE_ARGS keyword or not. If no FIND_PACKAGE_ARGS keyword was given, the behavior will be as though FIND_PACKAGE_ARGS had been provided, with no additional arguments after it.

NEVER

FetchContent_MakeAvailable() will not call find_package(). Any FIND_PACKAGE_ARGS given to the FetchContent_Declare() call will be ignored.

As a special case, if the FETCHCONTENT_SOURCE_DIR_<uppercaseName> variable has a non-empty value for a dependency, it is assumed that the user is overriding all other methods of making that dependency available. FETCHCONTENT_TRY_FIND_PACKAGE_MODE will have no effect on that dependency and FetchContent_MakeAvailable() will not try to call find_package() for it.

In addition to the above, the following variables are also defined for each content name:

FETCHCONTENT_SOURCE_DIR_<uppercaseName>

If this is set, no download or update steps are performed for the specified content and the <lowercaseName>_SOURCE_DIR variable returned to the caller is pointed at this location. This gives developers a way to have a separate checkout of the content that they can modify freely without interference from the build. The build simply uses that existing source, but it still defines <lowercaseName>_BINARY_DIR to point inside its own build area. Developers are strongly encouraged to use this mechanism rather than editing the sources populated in the default location, as changes to sources in the default location can be lost when content population details are changed by the project.

FETCHCONTENT_UPDATES_DISCONNECTED_<uppercaseName>

This is the per-content equivalent of FETCHCONTENT_UPDATES_DISCONNECTED. If the global option or this option is ON, then updates for the git and hg methods will not contact any remote for the named content. They will only use information already available locally. Disabling updates for individual content can be useful for content whose details rarely change, while still leaving other frequently changing content with updates enabled.

Examples

Typical Case

This first fairly straightforward example ensures that some popular testing frameworks are available to the main build:

include(FetchContent)
FetchContent_Declare(
  googletest
  GIT_REPOSITORY https://github.com/google/googletest.git
  GIT_TAG        703bd9caab50b139428cea1aaff9974ebee5742e # release-1.10.0
)
FetchContent_Declare(
  Catch2
  GIT_REPOSITORY https://github.com/catchorg/Catch2.git
  GIT_TAG        605a34765aa5d5ecbf476b4598a862ada971b0cc # v3.0.1
)

# After the following call, the CMake targets defined by googletest and
# Catch2 will be available to the rest of the build
FetchContent_MakeAvailable(googletest Catch2)

Integrating With find_package()

For the previous example, if the user wanted to try to find googletest and Catch2 via find_package() first before trying to download and build them from source, they could set the FETCHCONTENT_TRY_FIND_PACKAGE_MODE variable to ALWAYS. This would also affect any other calls to FetchContent_Declare() throughout the project, which might not be acceptable. The behavior can be enabled for just these two dependencies instead by adding FIND_PACKAGE_ARGS to the declared details and leaving FETCHCONTENT_TRY_FIND_PACKAGE_MODE unset, or set to OPT_IN:

include(FetchContent)
FetchContent_Declare(
  googletest
  GIT_REPOSITORY https://github.com/google/googletest.git
  GIT_TAG        703bd9caab50b139428cea1aaff9974ebee5742e # release-1.10.0
  FIND_PACKAGE_ARGS NAMES GTest
)
FetchContent_Declare(
  Catch2
  GIT_REPOSITORY https://github.com/catchorg/Catch2.git
  GIT_TAG        605a34765aa5d5ecbf476b4598a862ada971b0cc # v3.0.1
  FIND_PACKAGE_ARGS
)

# This will try calling find_package() first for both dependencies
FetchContent_MakeAvailable(googletest Catch2)

For Catch2, no additional arguments to find_package() are needed, so no additional arguments are provided after the FIND_PACKAGE_ARGS keyword. For googletest, its package is more commonly called GTest, so arguments are added to support it being found by that name.

If the user wanted to disable FetchContent_MakeAvailable() from calling find_package() for any dependency, even if it provided FIND_PACKAGE_ARGS in its declared details, they could set FETCHCONTENT_TRY_FIND_PACKAGE_MODE to NEVER.

If the project wanted to indicate that these two dependencies should be downloaded and built from source and that find_package() calls should be redirected to use the built dependencies, the OVERRIDE_FIND_PACKAGE option should be used when declaring the content details:

include(FetchContent)
FetchContent_Declare(
  googletest
  GIT_REPOSITORY https://github.com/google/googletest.git
  GIT_TAG        703bd9caab50b139428cea1aaff9974ebee5742e # release-1.10.0
  OVERRIDE_FIND_PACKAGE
)
FetchContent_Declare(
  Catch2
  GIT_REPOSITORY https://github.com/catchorg/Catch2.git
  GIT_TAG        605a34765aa5d5ecbf476b4598a862ada971b0cc # v3.0.1
  OVERRIDE_FIND_PACKAGE
)

# The following will automatically forward through to FetchContent_MakeAvailable()
find_package(googletest)
find_package(Catch2)

CMake provides a FindGTest module which defines some variables that older projects may use instead of linking to the imported targets. To support those cases, we can provide an extra file. In keeping with the "first to define, wins" philosophy of FetchContent, we only write out that file if something else hasn't already done so.

FetchContent_MakeAvailable(googletest)

if(NOT EXISTS ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/googletest-extra.cmake AND
   NOT EXISTS ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/googletestExtra.cmake)
  file(WRITE ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/googletest-extra.cmake
[=[
if("${GTEST_LIBRARIES}" STREQUAL "" AND TARGET GTest::gtest)
  set(GTEST_LIBRARIES GTest::gtest)
endif()
if("${GTEST_MAIN_LIBRARIES}" STREQUAL "" AND TARGET GTest::gtest_main)
  set(GTEST_MAIN_LIBRARIES GTest::gtest_main)
endif()
if("${GTEST_BOTH_LIBRARIES}" STREQUAL "")
  set(GTEST_BOTH_LIBRARIES ${GTEST_LIBRARIES} ${GTEST_MAIN_LIBRARIES})
endif()
]=])
endif()

Projects will also likely be using find_package(GTest) rather than find_package(googletest), but it is possible to make use of the CMAKE_FIND_PACKAGE_REDIRECTS_DIR area to pull in the latter as a dependency of the former. This is likely to be sufficient to satisfy a typical find_package(GTest) call.

FetchContent_MakeAvailable(googletest)

if(NOT EXISTS ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/gtest-config.cmake AND
   NOT EXISTS ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/GTestConfig.cmake)
  file(WRITE ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/gtest-config.cmake
[=[
include(CMakeFindDependencyMacro)
find_dependency(googletest)
]=])
endif()

if(NOT EXISTS ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/gtest-config-version.cmake AND
   NOT EXISTS ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/GTestConfigVersion.cmake)
  file(WRITE ${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/gtest-config-version.cmake
[=[
include(${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/googletest-config-version.cmake OPTIONAL)
if(NOT PACKAGE_VERSION_COMPATIBLE)
  include(${CMAKE_FIND_PACKAGE_REDIRECTS_DIR}/googletestConfigVersion.cmake OPTIONAL)
endif()
]=])
endif()

Overriding Where To Find CMakeLists.txt

If the sub-project's CMakeLists.txt file is not at the top level of its source tree, the SOURCE_SUBDIR option can be used to tell FetchContent where to find it. The following example shows how to use that option, and it also sets a variable which is meaningful to the subproject before pulling it into the main build (set as an INTERNAL cache variable to avoid problems with policy CMP0077):

include(FetchContent)
FetchContent_Declare(
  protobuf
  GIT_REPOSITORY https://github.com/protocolbuffers/protobuf.git
  GIT_TAG        ae50d9b9902526efd6c7a1907d09739f959c6297 # v3.15.0
  SOURCE_SUBDIR  cmake
)
set(protobuf_BUILD_TESTS OFF CACHE INTERNAL "")
FetchContent_MakeAvailable(protobuf)

Complex Dependency Hierarchies

In more complex project hierarchies, the dependency relationships can be more complicated. Consider a hierarchy where projA is the top level project and it depends directly on projects projB and projC. Both projB and projC can be built standalone and they also both depend on another project projD. projB additionally depends on projE. This example assumes that all five projects are available on a company git server. The CMakeLists.txt of each project might have sections like the following:

projA
include(FetchContent)
FetchContent_Declare(
  projB
  GIT_REPOSITORY git@mycompany.com:git/projB.git
  GIT_TAG        4a89dc7e24ff212a7b5167bef7ab079d
)
FetchContent_Declare(
  projC
  GIT_REPOSITORY git@mycompany.com:git/projC.git
  GIT_TAG        4ad4016bd1d8d5412d135cf8ceea1bb9
)
FetchContent_Declare(
  projD
  GIT_REPOSITORY git@mycompany.com:git/projD.git
  GIT_TAG        origin/integrationBranch
)
FetchContent_Declare(
  projE
  GIT_REPOSITORY git@mycompany.com:git/projE.git
  GIT_TAG        v2.3-rc1
)

# Order is important, see notes in the discussion further below
FetchContent_MakeAvailable(projD projB projC)
projB
include(FetchContent)
FetchContent_Declare(
  projD
  GIT_REPOSITORY git@mycompany.com:git/projD.git
  GIT_TAG        20b415f9034bbd2a2e8216e9a5c9e632
)
FetchContent_Declare(
  projE
  GIT_REPOSITORY git@mycompany.com:git/projE.git
  GIT_TAG        68e20f674a48be38d60e129f600faf7d
)

FetchContent_MakeAvailable(projD projE)
projC
include(FetchContent)
FetchContent_Declare(
  projD
  GIT_REPOSITORY git@mycompany.com:git/projD.git
  GIT_TAG        7d9a17ad2c962aa13e2fbb8043fb6b8a
)

# This particular version of projD requires workarounds
FetchContent_GetProperties(projD)
if(NOT projd_POPULATED)
  FetchContent_Populate(projD)

  # Copy an additional/replacement file into the populated source
  file(COPY someFile.c DESTINATION ${projd_SOURCE_DIR}/src)

  add_subdirectory(${projd_SOURCE_DIR} ${projd_BINARY_DIR})
endif()

A few key points should be noted in the above:

  • projB and projC define different content details for projD, but projA also defines a set of content details for projD. Because projA will define them first, the details from projB and projC will not be used. The override details defined by projA are not required to match either of those from projB or projC, but it is up to the higher level project to ensure that the details it does define still make sense for the child projects.

  • In the projA call to FetchContent_MakeAvailable(), projD is listed ahead of projB and projC to ensure that projA is in control of how projD is populated.

  • While projA defines content details for projE, it does not need to explicitly call FetchContent_MakeAvailable(projE) or FetchContent_Populate(projD) itself. Instead, it leaves that to the child projB. For higher level projects, it is often enough to just define the override content details and leave the actual population to the child projects. This saves repeating the same thing at each level of the project hierarchy unnecessarily.

Populating Content Without Adding It To The Build

Projects don't always need to add the populated content to the build. Sometimes the project just wants to make the downloaded content available at a predictable location. The next example ensures that a set of standard company toolchain files (and potentially even the toolchain binaries themselves) is available early enough to be used for that same build.

cmake_minimum_required(VERSION 3.14)

include(FetchContent)
FetchContent_Declare(
  mycom_toolchains
  URL  https://intranet.mycompany.com//toolchains_1.3.2.tar.gz
)
FetchContent_MakeAvailable(mycom_toolchains)

project(CrossCompileExample)

The project could be configured to use one of the downloaded toolchains like so:

cmake -DCMAKE_TOOLCHAIN_FILE=_deps/mycom_toolchains-src/toolchain_arm.cmake /path/to/src

When CMake processes the CMakeLists.txt file, it will download and unpack the tarball into _deps/mycompany_toolchains-src relative to the build directory. The CMAKE_TOOLCHAIN_FILE variable is not used until the project() command is reached, at which point CMake looks for the named toolchain file relative to the build directory. Because the tarball has already been downloaded and unpacked by then, the toolchain file will be in place, even the very first time that cmake is run in the build directory.

Populating Content In CMake Script Mode

This last example demonstrates how one might download and unpack a firmware tarball using CMake's script mode. The call to FetchContent_Populate() specifies all the content details and the unpacked firmware will be placed in a firmware directory below the current working directory.

getFirmware.cmake
# NOTE: Intended to be run in script mode with cmake -P
include(FetchContent)
FetchContent_Populate(
  firmware
  URL        https://mycompany.com/assets/firmware-1.23-arm.tar.gz
  URL_HASH   MD5=68247684da89b608d466253762b0ff11
  SOURCE_DIR firmware
)