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git/t/t2300-cd-to-toplevel.sh

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git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
#!/bin/sh
test_description='cd_to_toplevel'
. ./test-lib.sh
t2300: "git --exec-path" is not usable in $PATH on Windows as-is The "git" command prepends the exec-path to the PATH environment variable for processes it spawns. That is how ". git-sh-setup" in our scripted Porcelains can find the dot-sourced file in the exec-path location that is not usually on user's PATH. When t2300 runs, because it is not spawned by the "git" command, the scriptlet being tested did not run with a realistic setting of PATH environment. It lacked the exec-path on the PATH, and failed to find the dot-sourced file. A recent update to t2300 attempted to fix this, with "PATH=$(git --exec-path):$PATH", which has been the recommended way around v1.6.0 days (a script whose original was written before that release that survives to this day is likely to have such a line). However, the "git --exec-path" command outputs C:\path\to\exec\dir (not /c/path/to/exec/dir) on Windows; the recent update failed to consider the problem that comes from it. Even though Git itself, when doing the equivalent internally, does so in a platform native way (i.e. on Windows, C:\path\to\exec\dir is prepended to the existing value of %PATH% using ';' as a component separator), the result is further massaged by bash and gets turned into $PATH that uses /c/path/to/exec/dir with ':' separating the components, which is the form understood by bash, so scripted Porcelains find commands from PATH correctly. An end user script written in shell, however, cannot prepend "C:\path\to\exec\dir:" to the existing value of $PATH and expect bash to magically turn it into the form it understands. In other words, "PATH=$(git --exec-path):$PATH" does not work as an emulation of what "Git" internally does to the PATH on Windows. To correctly emulate how exec-path is prepended to the PATH environment internally on Windows, we'd need to convert C:\git-sdk-64\usr\src\git to at least /c\git-sdk-64\usr\src\git ourselves before prepending it to PATH. Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2016-06-18 12:49:11 +02:00
EXEC_PATH="$(git --exec-path)"
test_have_prereq !MINGW ||
case "$EXEC_PATH" in
[A-Za-z]:/*)
EXEC_PATH="/${EXEC_PATH%%:*}${EXEC_PATH#?:}"
;;
esac
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
test_cd_to_toplevel () {
test_expect_success $3 "$2" '
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
(
cd '"'$1'"' &&
t2300: "git --exec-path" is not usable in $PATH on Windows as-is The "git" command prepends the exec-path to the PATH environment variable for processes it spawns. That is how ". git-sh-setup" in our scripted Porcelains can find the dot-sourced file in the exec-path location that is not usually on user's PATH. When t2300 runs, because it is not spawned by the "git" command, the scriptlet being tested did not run with a realistic setting of PATH environment. It lacked the exec-path on the PATH, and failed to find the dot-sourced file. A recent update to t2300 attempted to fix this, with "PATH=$(git --exec-path):$PATH", which has been the recommended way around v1.6.0 days (a script whose original was written before that release that survives to this day is likely to have such a line). However, the "git --exec-path" command outputs C:\path\to\exec\dir (not /c/path/to/exec/dir) on Windows; the recent update failed to consider the problem that comes from it. Even though Git itself, when doing the equivalent internally, does so in a platform native way (i.e. on Windows, C:\path\to\exec\dir is prepended to the existing value of %PATH% using ';' as a component separator), the result is further massaged by bash and gets turned into $PATH that uses /c/path/to/exec/dir with ':' separating the components, which is the form understood by bash, so scripted Porcelains find commands from PATH correctly. An end user script written in shell, however, cannot prepend "C:\path\to\exec\dir:" to the existing value of $PATH and expect bash to magically turn it into the form it understands. In other words, "PATH=$(git --exec-path):$PATH" does not work as an emulation of what "Git" internally does to the PATH on Windows. To correctly emulate how exec-path is prepended to the PATH environment internally on Windows, we'd need to convert C:\git-sdk-64\usr\src\git to at least /c\git-sdk-64\usr\src\git ourselves before prepending it to PATH. Signed-off-by: Johannes Schindelin <johannes.schindelin@gmx.de> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2016-06-18 12:49:11 +02:00
PATH="$EXEC_PATH:$PATH" &&
. git-sh-setup &&
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
cd_to_toplevel &&
[ "$(pwd -P)" = "$TOPLEVEL" ]
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
)
'
}
TOPLEVEL="$(pwd -P)/repo"
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
mkdir -p repo/sub/dir
mv .git repo/
SUBDIRECTORY_OK=1
test_cd_to_toplevel repo 'at physical root'
test_cd_to_toplevel repo/sub/dir 'at physical subdir'
ln -s repo symrepo 2>/dev/null
test_cd_to_toplevel symrepo 'at symbolic root' SYMLINKS
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
ln -s repo/sub/dir subdir-link 2>/dev/null
test_cd_to_toplevel subdir-link 'at symbolic subdir' SYMLINKS
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
cd repo
ln -s sub/dir internal-link 2>/dev/null
test_cd_to_toplevel internal-link 'at internal symbolic subdir' SYMLINKS
git-sh-setup: Fix scripts whose PWD is a symlink into a git work-dir I want directories of my working tree to be linked to from various paths on my filesystem where third-party components expect them, both in development and production environments. A build system's install step could solve this, but I develop scripts and web pages that don't need to be built. Git's submodule system could solve this, but we tend to develop, branch, and test those directories all in unison, so one big repository feels more natural. We prefer to edit and commit on the symlinked paths, not the canonical ones, and in that setting, "git pull" fails to find the top-level directory of the repository while other commands work fine. "git pull" fails because POSIX shells have a notion of current working directory that is different from getcwd(). The shell stores this path in PWD. As a result, "cd ../" can be interpreted differently in a shell script than chdir("../") in a C program. The shell interprets "../" by essentially stripping the last textual path component from PWD, whereas C chdir() follows the ".." link in the current directory on the filesystem. When PWD is a symlink, these are different destinations. As a result, Git's C commands find the correct top-level working tree, and shell scripts do not. Changes: * When interpreting a relative upward (../) path in cd_to_toplevel, prepend the cwd without symlinks, given by /bin/pwd * Add tests for cd_to_toplevel and "git pull" in a symlinked directory that failed before this fix, plus contrasting scenarios that already worked Signed-off-by: Marcel M. Cary <marcel@oak.homeunix.org> Signed-off-by: Junio C Hamano <gitster@pobox.com>
2008-12-15 18:34:37 +01:00
test_done