* Add a note that DNS server config is global in lwIP
* Add a section about defining LWIP config macros from CMake
* Mention the DNS limitation in ESP-IDF additions to lwIP
* Update CN for lwIP DNS limitation
Co-Authored-By: Wang Ziyan <wangziyan@espressif.com>
With 8959555cee7e[1] ("setup_git_directory(): add an owner check for the top..")
git added an ownership check of the git directory and refuses to
run any git commands, even parsing the config file, if the git directory
is not owned by the current user. The "fatal: detected dubious ownership in repository"
is reported.
This fixes CVE-2022-24765[2], which allows to compromise user account. On a
multi-user system or e.g. on a shared file system, one user may create a "rogue"
git repository with e.g. core.fsmonitor set to an arbitrary command. Other user
may unwillingly execute this command by running e.g. git-diff or
git-status within the "rogue" git repository, which may be in one of the parent
directories. If e.g. PS1 is set to display information about a git
repository in CWD, as suggested in Git in Bash[3], the user do not need to run
any git command to trigger this, just entering some subdirectory under
this "rogue" git repository is enough, because the git command will be
started transparently through the script used in PS1. The core.fsmonitor
can be set to arbitrary command. It's purpose is to help git to identify changed files
and speed up the scanning for changed files.
rogue
├── .git # owned by user1
└── dir1 # owned by user2
├── dir2 # owned by user2
└── .git # owned by user2
user1 sets core.fsmonitor for git repository in rogue directory
$ git config --add core.fsmonitor "bash -c 'rm -rf \$HOME'"
user2 enters dir1 and runs e.g. git diff and triggers the core.fsmonitor command.
The ownership check may cause problems when running git commands in
ESP-IDF Docker container. For example user may run the container as
root, but the mounted project may be owned by a particular user.
In this case git will refuse to execute any git command within the
"/project" directory, because it's not owned by root. To overcome this,
git allows to set safe.directories, for which the ownership check is
skipped. The security check may be completely disabled by setting
safe.directories to "*". This solution was proposed in PR 12636[4], but
it would allow make it possible to exploit this vulnerability again.
This fix allows user to specify git's safe.directory in IDF_GIT_SAFE_DIR
environmental variable, which may be set during container startup.
The IDF_GIT_SAFE_DIR has same format as PATH and multiple directories can be
specified by using a ":" separator. To entirely disable this git security check
within the container, user may set IDF_GIT_SAFE_DIR='*'. This might be
heplfull in CI.
Closes https://github.com/espressif/esp-idf/pull/12636
[1] - 8959555cee
[2] - https://nvd.nist.gov/vuln/detail/cve-2022-24765
[3] - https://git-scm.com/book/en/v2/Appendix-A%3A-Git-in-Other-Environments-Git-in-Bash
[4] - https://github.com/espressif/esp-idf/pull/12636
Signed-off-by: Frantisek Hrbata <frantisek.hrbata@espressif.com>
Some devices return full LANGID table, even if short LANGID table was requested.
No memory overflow occurs, because we have allocated enough memory for transfers to the
default pipe. So we can ignore the error and continue with string desc fetching.
This commit adds a subset of the DWC OTG configuration values to the
'usb_dwc_ll.h' file. Only relevant configuration values have been added.
Some DWC OTG releated constants have also been moved from 'usb_dwc_hal.h'
to 'usb_dwc_ll.h' and renamed.
This commit refactors SOC_USB_PERIPH_NUM as follows:
- Renamed to SOC_USB_OTG_PERIPH_NUM to avoid confusion with USB Serial JTAG
- Updated to unsigned integer "1U"
- Updated some build rules to depend on SOC_USB_OTG_SUPPORTED instead
- Split the sleep-related system commands into a separate file
- Don't compile that file and don't register sleep commands for H2 yet
- Exclude Wi-Fi commands if the chip doesn't have Wi-Fi
This commit adds a new feature to generate a salt and verifier pair for a given username and
password during the provisioning process. This is useful in scenarios where the pairing pin is
randomly generated and shown via some interface such as a display or console.
- Uses the provided username and password to generate a salt and verifier pair
- Adds support for dev mode where the pin/password can still be read from flash