(command.CommandList children: [ (command.ShAssignment left: <Id.Lit_VarLike 'MACHINE='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'MACHINE='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'MACHINE='> name:MACHINE) op: assign_op.Equal rhs: (rhs_word__Empty) ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'SCRIPT_NAME='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'SCRIPT_NAME='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'SCRIPT_NAME='> name:SCRIPT_NAME) op: assign_op.Equal rhs: {<mep>} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OUTPUT_FORMAT='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OUTPUT_FORMAT='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'OUTPUT_FORMAT='> name:OUTPUT_FORMAT) op: assign_op.Equal rhs: {(DQ <elf32-mep-little>)} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'TEXT_START_ADDR='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'TEXT_START_ADDR='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'TEXT_START_ADDR='> name:TEXT_START_ADDR) op: assign_op.Equal rhs: {<0x1000>} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'ARCH='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'ARCH='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'ARCH='> name:ARCH) op: assign_op.Equal rhs: {<mep>} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'MAXPAGESIZE='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'MAXPAGESIZE='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'MAXPAGESIZE='> name:MAXPAGESIZE) op: assign_op.Equal rhs: {<256>} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'ENTRY='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'ENTRY='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'ENTRY='> name:ENTRY) op: assign_op.Equal rhs: {<_start>} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'EMBEDDED='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'EMBEDDED='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'EMBEDDED='> name:EMBEDDED) op: assign_op.Equal rhs: {<yes>} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'TEMPLATE_NAME='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'TEMPLATE_NAME='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'TEMPLATE_NAME='> name:TEMPLATE_NAME) op: assign_op.Equal rhs: {<elf32>} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'DATA_START_SYMBOLS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'DATA_START_SYMBOLS='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'DATA_START_SYMBOLS='> name:DATA_START_SYMBOLS) op: assign_op.Equal rhs: {(SQ <'__data_start = . ;'>)} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OTHER_GOT_SYMBOLS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OTHER_GOT_SYMBOLS='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'OTHER_GOT_SYMBOLS='> name:OTHER_GOT_SYMBOLS) op: assign_op.Equal rhs: { (SQ <'\n'> <' . = ALIGN(4);\n'> <' __sdabase = . + 0x8000;\n'> <' .srodata : { *(.srodata) *(.srodata.*) *(.gnu.linkonce.srd.*) }\n'> ) } ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OTHER_SDATA_SECTIONS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OTHER_SDATA_SECTIONS='> lhs: (sh_lhs_expr.Name left: <Id.Lit_VarLike 'OTHER_SDATA_SECTIONS='> name: OTHER_SDATA_SECTIONS ) op: assign_op.Equal rhs: { (SQ <'\n'> <' PROVIDE (__sdabase = .);\n'> <' __assert_tiny_size = ASSERT ((. < __sdabase) || ((. - __sdabase) <= 0x8000),\n'> <'\t\t\t "tiny section overflow");\n'> ) } ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OTHER_READONLY_SECTIONS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OTHER_READONLY_SECTIONS='> lhs: (sh_lhs_expr.Name left: <Id.Lit_VarLike 'OTHER_READONLY_SECTIONS='> name: OTHER_READONLY_SECTIONS ) op: assign_op.Equal rhs: { (SQ <'\n'> <' __stack = 0x001ffff0;\n'> <' __stack_size = 0x100000;\n'> <' __stack0 = (__stack - (0 * (__stack_size / 1)) + 15) / 16 * 16;\n'> <'\n'> <' .rostacktab :\n'> <' {\n'> <' /* Emit a table describing the location of the different stacks.\n'> <' Only 1 processor in the default configuration. */\n'> <' . = ALIGN(4);\n'> <' __stack_table = .;\n'> <' LONG (__stack0);\n'> <' }\n'> ) } ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OTHER_END_SYMBOLS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OTHER_END_SYMBOLS='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'OTHER_END_SYMBOLS='> name:OTHER_END_SYMBOLS) op: assign_op.Equal rhs: {(SQ <'\n'> <' PROVIDE (__heap = _end);\n'> <' PROVIDE (__heap_end = 0);\n'>)} ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OTHER_TEXT_SECTIONS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OTHER_TEXT_SECTIONS='> lhs: (sh_lhs_expr.Name left: <Id.Lit_VarLike 'OTHER_TEXT_SECTIONS='> name: OTHER_TEXT_SECTIONS ) op: assign_op.Equal rhs: { (SQ <'\n'> <' *(.ftext) *(.ftext.*) *(.gnu.linkonce.ft.*)\n'> <' . = ALIGN(8);\n'> <' *(.vftext) *(.vftext.*) *(.gnu.linkonce.vf.*)\n'> <' *(.frodata) *(.frodata.*) *(.gnu.linkonce.frd.*)\n'> ) } ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OTHER_READWRITE_SECTIONS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OTHER_READWRITE_SECTIONS='> lhs: (sh_lhs_expr.Name left: <Id.Lit_VarLike 'OTHER_READWRITE_SECTIONS='> name: OTHER_READWRITE_SECTIONS ) op: assign_op.Equal rhs: { (SQ <'\n'> <' . = ALIGN(4);\n'> <' __tpbase = .;\n'> <' .based : { *(.based) *(.based.*) *(.gnu.linkonce.based.*) }\n'> <' __assert_based_size = ASSERT ((. - __tpbase) <= 0x80, "based section overflow");\n'> <' .far : { *(.far) *(.far.*) *(.gnu.linkonce.far.*) }\n'> ) } ) ] redirects: [] ) (command.ShAssignment left: <Id.Lit_VarLike 'OTHER_BSS_SECTIONS='> pairs: [ (AssignPair left: <Id.Lit_VarLike 'OTHER_BSS_SECTIONS='> lhs: (sh_lhs_expr.Name left:<Id.Lit_VarLike 'OTHER_BSS_SECTIONS='> name:OTHER_BSS_SECTIONS) op: assign_op.Equal rhs: { (SQ <'\n'> <' __assert_near_size = ASSERT (. <= 0x1000000, "near section overflow");\n'> < ' .farbss : { PROVIDE (__farbss_start = .); *(.farbss) *(.farbss.*) PROVIDE (__farbss_end = .); }\n' > ) } ) ] redirects: [] ) ] )