It is useful to be able to create a device tree from scratch using
software. This is supported in libfdt but not currently available in the
Python bindings.
Add a new FdtSw class to handle this, with various methods corresponding
to the libfdt functions. When the tree is complete, calling AsFdt() will
return the completed device-tree object.
Signed-off-by: Simon Glass <sjg@xxxxxxxxxxxx>
---
Changes in v5:
- Drop error return from resize()
- Drop the unnecessary check for a negative size in the FdtSw() constructor
- Drop work-around for apparent bug in fdt_resize()
- Fix copying logic in as_fdt(), and add a test for it
Changes in v4:
- Drop patches previously indicated as applied (but not yet present in master)
- Make resizing reactive (to -FDT_ERR_NOTFOUND) instead of proactive
Changes in v3:
- Add a separate comment explaining the purpose of the FdtSw context manager
- Adjust operation of as_fdt() to include calling fdt_finish()
- Drop unnecessary data copy in resize() an rely on fdt_resize() instead
- Rename AddNode() to add_node()
- Rename AsFdt() to as_fdt()
- Rename _fdt_property() to fdt_property_stub()
- Rename the size passed to the FdtSw() to a hint only
- Use fdtsw instead of fdtrw as internal variable in FdtSw
pylibfdt/libfdt.i | 289 ++++++++++++++++++++++++++++++++++++++++
tests/pylibfdt_tests.py | 93 ++++++++++++-
2 files changed, 376 insertions(+), 6 deletions(-)
diff --git a/pylibfdt/libfdt.i b/pylibfdt/libfdt.i
index aed5390..61b0232 100644
--- a/pylibfdt/libfdt.i
+++ b/pylibfdt/libfdt.i
@@ -57,6 +57,18 @@
%{
#define SWIG_FILE_WITH_INIT
#include "libfdt.h"
+
+/*
+ * We rename this function here to avoid problems with swig, since we also have
+ * a struct called fdt_property. That struct causes swig to create a class in
+ * libfdt.py called fdt_property(), which confuses things.
+ */
+static int fdt_property_stub(void *fdt, const char *name, const char *val,
+ int len)
+{
+ return fdt_property(fdt, name, val, len);
+}
+
%}
%pythoncode %{
@@ -88,6 +100,7 @@ import struct
# Pass this as the 'quiet' parameter to return -ENOTFOUND on NOTFOUND errors,
# instead of raising an exception.
QUIET_NOTFOUND = (NOTFOUND,)
+QUIET_NOSPACE = (NOSPACE,)
class FdtException(Exception):
@@ -693,6 +706,268 @@ class Property(bytearray):
if 0 in self[:-1]:
raise ValueError('Property contains embedded nul characters')
return self[:-1].decode('utf-8')
+
+
+class FdtSw(object):
+ """Software interface to create a device tree from scratch
+
+ The methods in this class work by adding to an existing 'partial' device
+ tree buffer of a fixed size created by instantiating this class. When the
+ tree is complete, call as_fdt() to obtain a device tree ready to be used.
+
+ Similarly with nodes, a new node is started with begin_node() and finished
+ with end_node().
+
+ The context manager functions can be used to make this a bit easier:
+
+ # First create the device tree with a node and property:
+ sw = FdtSw()
+ with sw.add_node('node'):
+ sw.property_u32('reg', 2)
+ fdt = sw.as_fdt()
+
+ # Now we can use it as a real device tree
+ fdt.setprop_u32(0, 'reg', 3)
+
+ The size hint provides a starting size for the space to be used by the
+ device tree. This will be increased automatically as needed as new items
+ are added to the tree.
+ """
+ INC_SIZE = 1024 # Expand size by this much when out of space
+
+ def __init__(self, size_hint=None):
+ """Create a new FdtSw object
+
+ Args:
+ size_hint: A hint as to the initial size to use
+
+ Raises:
+ ValueError if size_hint is negative
+
+ Returns:
+ FdtSw object on success, else integer error code (if not raising)
+ """
+ if not size_hint:
+ size_hint = self.INC_SIZE
+ fdtsw = bytearray(size_hint)
+ err = check_err(fdt_create(fdtsw, size_hint))
+ if err:
+ return err
+ self._fdtsw = fdtsw
+
+ def as_fdt(self):
+ """Convert a FdtSw into an Fdt so it can be accessed as normal
+
+ Creates a new Fdt object from the work-in-progress device tree. This
+ does not call fdt_finish() on the current object, so it is possible to
+ add more nodes/properties and call as_fdt() again to get an updated
+ tree.
+
+ Returns:
+ Fdt object allowing access to the newly created device tree
+ """
+ fdtsw = bytearray(self._fdtsw)
+ check_err(fdt_finish(fdtsw))
+ return Fdt(fdtsw)
+
+ def check_space(self, val):
+ """Check if we need to add more space to the FDT
+
+ This should be called with the error code from an operation. If this is
+ -NOSPACE then the FDT will be expanded to have more space, and True will
+ be returned, indicating that the operation needs to be tried again.
+
+ Args:
+ val: Return value from the operation that was attempted
+
+ Returns:
+ True if the operation must be retried, else False
+ """
+ if check_err(val, QUIET_NOSPACE) < 0:
+ self.resize(len(self._fdtsw) + self.INC_SIZE)
+ return True
+ return False
+
+ def resize(self, size):
+ """Resize the buffer to accommodate a larger tree
+
+ Args:
+ size: New size of tree
+
+ Raises:
+ FdtException on any error
+ """
+ fdt = bytearray(size)
+ err = check_err(fdt_resize(self._fdtsw, fdt, size))
+ self._fdtsw = fdt
+
+ def add_reservemap_entry(self, addr, size):
+ """Add a new memory reserve map entry
+
+ Once finished adding, you must call finish_reservemap().
+
+ Args:
+ addr: 64-bit start address
+ size: 64-bit size
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_add_reservemap_entry(self._fdtsw, addr,
+ size)):
+ pass
+
+ def finish_reservemap(self):
+ """Indicate that there are no more reserve map entries to add
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_finish_reservemap(self._fdtsw)):
+ pass
+
+ def begin_node(self, name):
+ """Begin a new node
+
+ Use this before adding properties to the node. Then call end_node() to
+ finish it. You can also use the context manager as shown in the FdtSw
+ class comment.
+
+ Args:
+ name: Name of node to begin
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_begin_node(self._fdtsw, name)):
+ pass
+
+ def property_string(self, name, string):
+ """Add a property with a string value
+
+ The string will be nul-terminated when written to the device tree
+
+ Args:
+ name: Name of property to add
+ string: String value of property
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_property_string(self._fdtsw, name, string)):
+ pass
+
+ def property_u32(self, name, val):
+ """Add a property with a 32-bit value
+
+ Write a single-cell value to the device tree
+
+ Args:
+ name: Name of property to add
+ val: Value of property
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_property_u32(self._fdtsw, name, val)):
+ pass
+
+ def property_u64(self, name, val):
+ """Add a property with a 64-bit value
+
+ Write a double-cell value to the device tree in big-endian format
+
+ Args:
+ name: Name of property to add
+ val: Value of property
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_property_u64(self._fdtsw, name, val)):
+ pass
+
+ def property_cell(self, name, val):
+ """Add a property with a single-cell value
+
+ Write a single-cell value to the device tree
+
+ Args:
+ name: Name of property to add
+ val: Value of property
+ quiet: Errors to ignore (empty to raise on all errors)
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_property_cell(self._fdtsw, name, val)):
+ pass
+
+ def property(self, name, val):
+ """Add a property
+
+ Write a new property with the given value to the device tree. The value
+ is taken as is and is not nul-terminated
+
+ Args:
+ name: Name of property to add
+ val: Value of property
+ quiet: Errors to ignore (empty to raise on all errors)
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_property_stub(self._fdtsw, name, val,
+ len(val))):
+ pass
+
+ def end_node(self):
+ """End a node
+
+ Use this after adding properties to a node to close it off. You can also
+ use the context manager as shown in the FdtSw class comment.
+
+ Args:
+ quiet: Errors to ignore (empty to raise on all errors)
+
+ Raises:
+ FdtException on any error
+ """
+ while self.check_space(fdt_end_node(self._fdtsw)):
+ pass
+
+ def add_node(self, name):
+ """Create a new context for adding a node
+
+ When used in a 'with' clause this starts a new node and finishes it
+ afterward.
+
+ Args:
+ name: Name of node to add
+ """
+ return NodeAdder(self, name)
+
+
+class NodeAdder():
+ """Class to provide a node context
+
+ This allows you to add nodes in a more natural way:
+
+ with fdtsw.add_node('name'):
+ fdtsw.property_string('test', 'value')
+
+ The node is automatically completed with a call to end_node() when the
+ context exits.
+ """
+ def __init__(self, fdtsw, name):
+ self._fdtsw = fdtsw
+ self._name = name
+
+ def __enter__(self):
+ self._fdtsw.begin_node(self._name)
+
+ def __exit__(self, type, value, traceback):
+ self._fdtsw.end_node()
%}
%rename(fdt_property) fdt_property_func;
@@ -757,6 +1032,11 @@ typedef uint32_t fdt32_t;
$1 = PyString_AsString($input); /* char *str */
}
+/* typemap used for fdt_add_reservemap_entry() */
+%typemap(in) uint64_t {
+ $1 = PyLong_AsUnsignedLong($input);
+}
+
/* typemaps used for fdt_next_node() */
%typemap(in, numinputs=1) int *depth (int depth) {
depth = (int) PyInt_AsLong($input);
@@ -800,4 +1080,13 @@ uint32_t fdt_boot_cpuid_phys(const void *fdt);
uint32_t fdt_size_dt_strings(const void *fdt);
uint32_t fdt_size_dt_struct(const void *fdt);
+int fdt_property_string(void *fdt, const char *name, const char *val);
+int fdt_property_cell(void *fdt, const char *name, uint32_t val);
+
+/*
+ * This function has a stub since the name fdt_property is used for both a
+ * function and a struct, which confuses SWIG.
+ */
+int fdt_property_stub(void *fdt, const char *name, const char *val, int len);
+
%include <../libfdt/libfdt.h>
diff --git a/tests/pylibfdt_tests.py b/tests/pylibfdt_tests.py
index 9f3e55a..03ccc95 100644
--- a/tests/pylibfdt_tests.py
+++ b/tests/pylibfdt_tests.py
@@ -56,17 +56,32 @@ import unittest
sys.path.insert(0, '../pylibfdt')
import libfdt
-from libfdt import Fdt, FdtException, QUIET_NOTFOUND, QUIET_ALL
-
-small_size = 160
-full_size = 1024
+from libfdt import Fdt, FdtSw, FdtException, QUIET_NOTFOUND, QUIET_ALL
+
+TEST_ADDR_1H = 0xdeadbeef
+TEST_ADDR_1L = 0x00000000
+TEST_ADDR_1 = (TEST_ADDR_1H << 32) | TEST_ADDR_1L
+TEST_ADDR_1 = 0x8000000000000000
+TEST_SIZE_1H = 0x00000000
+TEST_SIZE_1L = 0x00100000
+TEST_SIZE_1 = (TEST_SIZE_1H << 32) | TEST_SIZE_1L
+TEST_ADDR_2H = 0
+TEST_ADDR_2L = 123456789
+TEST_ADDR_2 = (TEST_ADDR_2H << 32) | TEST_ADDR_2L
+TEST_SIZE_2H = 0
+TEST_SIZE_2L = 010000
+TEST_SIZE_2 = (TEST_SIZE_2H << 32) | TEST_SIZE_2L
TEST_VALUE_1 = 0xdeadbeef
+TEST_VALUE_2 = 123456789
TEST_VALUE64_1H = 0xdeadbeef
TEST_VALUE64_1L = 0x01abcdef
TEST_VALUE64_1 = (TEST_VALUE64_1H << 32) | TEST_VALUE64_1L
+PHANDLE_1 = 0x2000
+PHANDLE_2 = 0x2001
+
TEST_STRING_1 = 'hello world'
TEST_STRING_2 = 'hi world'
TEST_STRING_3 = u'unicode ' + unichr(467)
@@ -94,8 +109,8 @@ def _ReadFdt(fname):
"""
return libfdt.Fdt(open(fname).read())
-class PyLibfdtTests(unittest.TestCase):
- """Test class for pylibfdt
+class PyLibfdtBasicTests(unittest.TestCase):
+ """Test class for basic pylibfdt access functions
Properties:
fdt: Device tree file used for testing
@@ -481,5 +496,71 @@ class PyLibfdtTests(unittest.TestCase):
self.assertIn('embedded nul', str(e.exception))
+class PyLibfdtSwTests(unittest.TestCase):
+ """Test class for pylibfdt sequential-write DT creation
+ """
+ def assertOk(self, err_code):
+ self.assertEquals(0, err_code)
+
+ def testCreate(self):
+ # First check the minimum size and also the FdtSw() constructor
+ with self.assertRaisesRegexp(FdtException, get_err(libfdt.NOSPACE)):
+ self.assertEquals(-libfdt.NOSPACE, FdtSw(3))
+
+ sw = FdtSw()
+ sw.add_reservemap_entry(TEST_ADDR_1, TEST_SIZE_1)
+ sw.add_reservemap_entry(TEST_ADDR_2, TEST_SIZE_2)
+ sw.finish_reservemap()
+
+ sw.begin_node('')
+ sw.property_string('compatible', 'test_tree1')
+ sw.property_u32('prop-int', TEST_VALUE_1)
+
+ sw.property_u32('prop-int', TEST_VALUE_1)
+ sw.property_u64('prop-int64', TEST_VALUE64_1)
+ sw.property_string('prop-str', TEST_STRING_1)
+ sw.property_u32('#address-cells', 1)
+ sw.property_u32('#size-cells', 0)
+
+ sw.begin_node('subnode@1')
+ sw.property_string('compatible', 'subnode1')
+ sw.property_u32('reg', 1)
+ sw.property_cell('prop-int', TEST_VALUE_1)
+ sw.begin_node('subsubnode')
+ sw.property('compatible', 'subsubnode1\0subsubnode')
+ sw.property_cell('prop-int', TEST_VALUE_1)
+ sw.end_node()
+ sw.begin_node('ss1')
+ sw.end_node()
+ sw.end_node()
+
+ for i in range(9):
+ with sw.add_node('subnode@%d' % i):
+ sw.property_u32('reg', 2)
+ sw.property_cell('linux,phandle', PHANDLE_1)
+ sw.property_cell('prop-int', TEST_VALUE_2)
+ sw.property_u32('#address-cells', 1)
+ sw.property_u32('#size-cells', 0)
+ with sw.add_node('subsubnode@0'):
+ sw.property_u32('reg', 0)
+ sw.property_cell('phandle', PHANDLE_2)
+ sw.property('compatible', 'subsubnode2\0subsubnode')
+ sw.property_cell('prop-int', TEST_VALUE_2)
+ with sw.add_node('ss2'):
+ pass
+ sw.end_node()
+
+ fdt = sw.as_fdt()
+ self.assertEqual(2, fdt.num_mem_rsv())
+ self.assertEqual([TEST_ADDR_1, TEST_SIZE_1], fdt.get_mem_rsv(0))
+
+ # Make sure we can add a few more things
+ with sw.add_node('another'):
+ sw.property_u32('reg', 3)
+
+ # Make sure we did at least two resizes
+ self.assertTrue(len(fdt.as_bytearray()) > FdtSw.INC_SIZE * 2)
+
+
if __name__ == "__main__":
unittest.main()
--
2.18.0.203.gfac676dfb9-goog
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