Add a new test case to verify that mkimage properly detects and reports
memory region overlaps in FIT image configurations.
The test creates a FIT image with kernel and FDT components that have
the same load address (0x40000), which should trigger the overlap
detection logic and cause mkimage to fail with an appropriate error
message.
Test verifies:
- mkimage returns non-zero exit code when overlap is detected
- Error message contains "Error: Overlap detected:"
- Error message identifies the specific overlapping components
(kernel@1 and fdt@1)
This test ensures the overlap detection feature works correctly and
prevents deployment of FIT images with conflicting memory layouts
that could cause runtime failures.
Signed-off-by: Aristo Chen <aristo.chen@canonical.com>
Both of these tests are only valid for sandbox (and require dtc) so both
tests need the pytest annotations.
Fixes: 93d09d3bd8ea ("test: fit: add test case for invalid default configuration reference")
Signed-off-by: Tom Rini <trini@konsulko.com>
Recent changes to mkimage introduced a validation step to ensure that
the 'default' property under the /configurations node in a FIT image
references a valid configuration subnode. If the referenced node is
missing, mkimage will now return an error.
This patch adds a Python test case to verify that mkimage correctly
fails when the 'default' configuration does not exist. The test creates
a minimal ITS with an invalid default reference and checks that mkimage
produces the expected error message.
Signed-off-by: Aristo Chen <aristo.chen@canonical.com>
Add a test case to verify that mkimage correctly rejects a FIT source
that references a non-existent image from a configuration node.
This test introduces a minimal ITS that defines a valid kernel image
but references a missing "fdt" image under the /configurations section.
The test asserts that mkimage fails with a clear error message, as
introduced in the new validation logic.
This helps ensure the validation logic behaves correctly and prevents
regressions in future FIT enhancements.
Signed-off-by: Aristo Chen <aristo.chen@canonical.com>
