#include #include "testdata.h" #define FDTLONG(val) \ .byte ((val) >> 24) & 0xff ; \ .byte ((val) >> 16) & 0xff ; \ .byte ((val) >> 8) & 0xff ; \ .byte (val) & 0xff ; #define TREE_HDR(tree) \ .balign 8 ; \ .globl tree ; \ tree: \ FDTLONG(FDT_MAGIC) ; \ FDTLONG(tree##_end - tree) ; \ FDTLONG(tree##_struct - tree) ; \ FDTLONG(tree##_strings - tree) ; \ FDTLONG(tree##_rsvmap - tree) ; \ FDTLONG(0x11) ; \ FDTLONG(0x10) ; \ FDTLONG(0) ; \ FDTLONG(tree##_strings_end - tree##_strings) ; \ FDTLONG(tree##_struct_end - tree##_struct) ; #define RSVMAP_ENTRY(addrh, addrl, lenh, lenl) \ FDTLONG(addrh) ; \ FDTLONG(addrl) ; \ FDTLONG(lenh) ; \ FDTLONG(lenl) #define EMPTY_RSVMAP(tree) \ .balign 8 ; \ tree##_rsvmap: ; \ RSVMAP_ENTRY(0, 0, 0, 0) \ tree##_rsvmap_end: ; #define PROPHDR(tree, name, len) \ FDTLONG(FDT_PROP) ; \ FDTLONG(len) ; \ FDTLONG(tree##_##name - tree##_strings) ; #define PROP_EMPTY(tree, name) \ PROPHDR(tree, name, 0) ; #define PROP_INT(tree, name, val) \ PROPHDR(tree, name, 4) \ FDTLONG(val) ; #define PROP_INT64(tree, name, valh, vall) \ PROPHDR(tree, name, 8) \ FDTLONG(valh) ; \ FDTLONG(vall) ; #define PROP_STR(tree, name, str) \ PROPHDR(tree, name, 55f - 54f) \ 54: \ .string str ; \ 55: \ .balign 4 ; #define BEGIN_NODE(name) \ FDTLONG(FDT_BEGIN_NODE) ; \ .string name ; \ .balign 4 ; #define END_NODE \ FDTLONG(FDT_END_NODE) ; #define STRING(tree, name, str) \ tree##_##name: ; \ .string str ; .data TREE_HDR(test_tree1) .balign 8 test_tree1_rsvmap: RSVMAP_ENTRY(TEST_ADDR_1H, TEST_ADDR_1L, TEST_SIZE_1H, TEST_SIZE_1L) RSVMAP_ENTRY(TEST_ADDR_2H, TEST_ADDR_2L, TEST_SIZE_2H, TEST_SIZE_2L) RSVMAP_ENTRY(0, 0, 0, 0) test_tree1_rsvmap_end: test_tree1_struct: BEGIN_NODE("") PROP_STR(test_tree1, compatible, "test_tree1") PROP_INT(test_tree1, prop_int, TEST_VALUE_1) PROP_INT64(test_tree1, prop_int64, TEST_VALUE64_1H, TEST_VALUE64_1L) PROP_STR(test_tree1, prop_str, TEST_STRING_1) PROP_INT(test_tree1, address_cells, 1) PROP_INT(test_tree1, size_cells, 0) BEGIN_NODE("subnode@1") PROP_STR(test_tree1, compatible, "subnode1") PROP_INT(test_tree1, reg, 1) PROP_INT(test_tree1, prop_int, TEST_VALUE_1) BEGIN_NODE("subsubnode") PROP_STR(test_tree1, compatible, "subsubnode1\0subsubnode") PROP_STR(test_tree1, placeholder, "this is a placeholder string\0string2") PROP_INT(test_tree1, prop_int, TEST_VALUE_1) END_NODE BEGIN_NODE("ss1") END_NODE END_NODE BEGIN_NODE("subnode@2") PROP_INT(test_tree1, reg, 2) PROP_INT(test_tree1, linux_phandle, PHANDLE_1) PROP_INT(test_tree1, prop_int, TEST_VALUE_2) PROP_INT(test_tree1, address_cells, 1) PROP_INT(test_tree1, size_cells, 0) BEGIN_NODE("subsubnode@0") PROP_INT(test_tree1, reg, 0) PROP_INT(test_tree1, phandle, PHANDLE_2) PROP_STR(test_tree1, compatible, "subsubnode2\0subsubnode") PROP_INT(test_tree1, prop_int, TEST_VALUE_2) END_NODE BEGIN_NODE("ss2") END_NODE END_NODE END_NODE FDTLONG(FDT_END) test_tree1_struct_end: test_tree1_strings: STRING(test_tree1, compatible, "compatible") STRING(test_tree1, prop_int, "prop-int") STRING(test_tree1, prop_int64, "prop-int64") STRING(test_tree1, prop_str, "prop-str") STRING(test_tree1, linux_phandle, "linux,phandle") STRING(test_tree1, phandle, "phandle") STRING(test_tree1, reg, "reg") STRING(test_tree1, placeholder, "placeholder") STRING(test_tree1, address_cells, "#address-cells") STRING(test_tree1, size_cells, "#size-cells") test_tree1_strings_end: test_tree1_end: TREE_HDR(truncated_property) EMPTY_RSVMAP(truncated_property) truncated_property_struct: BEGIN_NODE("") PROPHDR(truncated_property, prop_truncated, 4) /* Oops, no actual property data here */ truncated_property_struct_end: truncated_property_strings: STRING(truncated_property, prop_truncated, "truncated") truncated_property_strings_end: truncated_property_end: TREE_HDR(bad_node_char) EMPTY_RSVMAP(bad_node_char) bad_node_char_struct: BEGIN_NODE("") BEGIN_NODE("sub$node") END_NODE END_NODE FDTLONG(FDT_END) bad_node_char_struct_end: bad_node_char_strings: bad_node_char_strings_end: bad_node_char_end: TREE_HDR(bad_node_format) EMPTY_RSVMAP(bad_node_format) bad_node_format_struct: BEGIN_NODE("") BEGIN_NODE("subnode@1@2") END_NODE END_NODE FDTLONG(FDT_END) bad_node_format_struct_end: bad_node_format_strings: bad_node_format_strings_end: bad_node_format_end: TREE_HDR(bad_prop_char) EMPTY_RSVMAP(bad_prop_char) bad_prop_char_struct: BEGIN_NODE("") PROP_INT(bad_prop_char, prop, TEST_VALUE_1) END_NODE FDTLONG(FDT_END) bad_prop_char_struct_end: bad_prop_char_strings: STRING(bad_prop_char, prop, "prop$erty") bad_prop_char_strings_end: bad_prop_char_end: /* overflow_size_strings */ .balign 8 .globl ovf_size_strings ovf_size_strings: FDTLONG(FDT_MAGIC) FDTLONG(ovf_size_strings_end - ovf_size_strings) FDTLONG(ovf_size_strings_struct - ovf_size_strings) FDTLONG(ovf_size_strings_strings - ovf_size_strings) FDTLONG(ovf_size_strings_rsvmap - ovf_size_strings) FDTLONG(0x11) FDTLONG(0x10) FDTLONG(0) FDTLONG(0xffffffff) FDTLONG(ovf_size_strings_struct_end - ovf_size_strings_struct) EMPTY_RSVMAP(ovf_size_strings) ovf_size_strings_struct: BEGIN_NODE("") PROP_INT(ovf_size_strings, bad_string, 0) END_NODE FDTLONG(FDT_END) ovf_size_strings_struct_end: ovf_size_strings_strings: STRING(ovf_size_strings, x, "x") ovf_size_strings_bad_string = ovf_size_strings_strings + 0x10000000 ovf_size_strings_strings_end: ovf_size_strings_end: /* truncated_string */ TREE_HDR(truncated_string) EMPTY_RSVMAP(truncated_string) truncated_string_struct: BEGIN_NODE("") PROP_EMPTY(truncated_string, good_string) PROP_EMPTY(truncated_string, bad_string) END_NODE FDTLONG(FDT_END) truncated_string_struct_end: truncated_string_strings: STRING(truncated_string, good_string, "good") truncated_string_bad_string: .byte 'b' .byte 'a' .byte 'd' /* NOTE: terminating \0 deliberately missing */ truncated_string_strings_end: truncated_string_end: /* truncated_memrsv */ TREE_HDR(truncated_memrsv) truncated_memrsv_struct: BEGIN_NODE("") END_NODE FDTLONG(FDT_END) truncated_memrsv_struct_end: truncated_memrsv_strings: truncated_memrsv_strings_end: .balign 8 truncated_memrsv_rsvmap: RSVMAP_ENTRY(TEST_ADDR_1H, TEST_ADDR_1L, TEST_SIZE_1H, TEST_SIZE_1L) truncated_memrsv_rsvmap_end: truncated_memrsv_end: