/* Copyright (C) 2000,2004 Silicon Graphics, Inc. All Rights Reserved. Portions Copyright 2002-2010 Sun Microsystems, Inc. All rights reserved. Portions Copyright 2007-2010 David Anderson. All rights reserved. This program is free software; you can redistribute it and/or modify it under the terms of version 2.1 of the GNU Lesser General Public License as published by the Free Software Foundation. This program is distributed in the hope that it would be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. Further, this software is distributed without any warranty that it is free of the rightful claim of any third person regarding infringement or the like. Any license provided herein, whether implied or otherwise, applies only to this software file. Patent licenses, if any, provided herein do not apply to combinations of this program with other software, or any other product whatsoever. You should have received a copy of the GNU Lesser General Public License along with this program; if not, write the Free Software Foundation, Inc., 51 Franklin Street - Fifth Floor, Boston MA 02110-1301, USA. Contact information: Silicon Graphics, Inc., 1500 Crittenden Lane, Mountain View, CA 94043, or: http://www.sgi.com For further information regarding this notice, see: http://oss.sgi.com/projects/GenInfo/NoticeExplan */ #include "config.h" #include "libdwarfdefs.h" #include #include #include #include "pro_incl.h" #include "pro_expr.h" #ifndef R_MIPS_NONE #define R_MIPS_NONE 0 #endif /* Indicates no relocation needed. */ #define NO_ELF_SYM_INDEX 0 /* Adds an attribute to a die */ extern void _dwarf_pro_add_at_to_die(Dwarf_P_Die die, Dwarf_P_Attribute attr); /* This function adds an attribute whose value is a target address to the given die. The attribute is given the name provided by attr. The address is given in pc_value. */ static Dwarf_P_Attribute local_add_AT_address(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Signed form, Dwarf_Unsigned pc_value, Dwarf_Unsigned sym_index, Dwarf_Error * error); /* old interface */ Dwarf_P_Attribute dwarf_add_AT_targ_address(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Unsigned pc_value, Dwarf_Signed sym_index, Dwarf_Error * error) { return dwarf_add_AT_targ_address_b(dbg, ownerdie, attr, pc_value, (Dwarf_Unsigned) sym_index, error); } /* New interface, replacing dwarf_add_AT_targ_address. Essentially just makes sym_index a Dwarf_Unsigned so for symbolic relocations it can be a full address. */ Dwarf_P_Attribute dwarf_add_AT_targ_address_b(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Unsigned pc_value, Dwarf_Unsigned sym_index, Dwarf_Error * error) { switch (attr) { case DW_AT_low_pc: case DW_AT_high_pc: /* added to support location lists */ /* no way to check that this is a loclist-style address though */ case DW_AT_location: case DW_AT_string_length: case DW_AT_return_addr: case DW_AT_frame_base: case DW_AT_segment: case DW_AT_static_link: case DW_AT_use_location: case DW_AT_vtable_elem_location: case DW_AT_const_value: /* Gcc can generate this as address. */ case DW_AT_entry_pc: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } return local_add_AT_address(dbg, ownerdie, attr, DW_FORM_addr, pc_value, sym_index, error); } Dwarf_P_Attribute dwarf_add_AT_ref_address(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Unsigned pc_value, Dwarf_Unsigned sym_index, Dwarf_Error * error) { switch (attr) { case DW_AT_type: case DW_AT_import: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } return local_add_AT_address(dbg, ownerdie, attr, DW_FORM_ref_addr, pc_value, sym_index, error); } /* Make sure attribute types are checked before entering here. */ static Dwarf_P_Attribute local_add_AT_address(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Signed form, Dwarf_Unsigned pc_value, Dwarf_Unsigned sym_index, Dwarf_Error * error) { Dwarf_P_Attribute new_attr; int upointer_size = dbg->de_pointer_size; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } /* attribute types have already been checked */ /* switch (attr) { ... } */ new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = attr; new_attr->ar_attribute_form = form; new_attr->ar_nbytes = upointer_size; new_attr->ar_rel_symidx = sym_index; new_attr->ar_reloc_len = upointer_size; new_attr->ar_next = 0; if (sym_index != NO_ELF_SYM_INDEX) new_attr->ar_rel_type = dbg->de_ptr_reloc; else new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_data = (char *) _dwarf_p_get_alloc(dbg, upointer_size); if (new_attr->ar_data == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } WRITE_UNALIGNED(dbg, new_attr->ar_data, (const void *) &pc_value, sizeof(pc_value), upointer_size); /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } /* Functions to compress and uncompress data from normal arrays of integral types into arrays of LEB128 numbers. Extend these functions as needed to handle wider input variety. Return values should be freed with _dwarf_p_dealloc after they aren't needed any more. */ /* return value points to an array of LEB number */ void * dwarf_compress_integer_block( Dwarf_P_Debug dbg, Dwarf_Bool unit_is_signed, Dwarf_Small unit_length_in_bits, void* input_block, Dwarf_Unsigned input_length_in_units, Dwarf_Unsigned* output_length_in_bytes_ptr, Dwarf_Error* error ) { Dwarf_Unsigned output_length_in_bytes = 0; char * output_block = 0; char encode_buffer[ENCODE_SPACE_NEEDED]; int i = 0; char * ptr = 0; int remain = 0; int result = 0; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return((void *)DW_DLV_BADADDR); } if (unit_is_signed == false || unit_length_in_bits != 32 || input_block == NULL || input_length_in_units == 0 || output_length_in_bytes_ptr == NULL) { _dwarf_p_error(NULL, error, DW_DLE_BADBITC); return ((void *) DW_DLV_BADADDR); } /* At this point we assume the format is: signed 32 bit */ /* First compress everything to find the total size. */ output_length_in_bytes = 0; for (i=0; ide_ar_data_attribute_form is data4 or data8 and dwarf4 changes the definition for such on DW_AT_high_pc. DWARF 3: the FORM here has no defined meaning for dwarf3. DWARF 4: the FORM here means that for DW_AT_high_pc the value is not a high address but is instead an offset from a (separate) DW_AT_low_pc. The intent for DWARF4 is that this is not a relocated address at all. Instead a simple offset. But this should NOT be called for a simple non-relocated offset. So do not call this with an attr of DW_AT_high_pc. Use dwarf_add_AT_unsigned_const() (for example) instead of dwarf_add_AT_dataref when the value is a simple offset . */ Dwarf_P_Attribute dwarf_add_AT_dataref( Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Unsigned pc_value, Dwarf_Unsigned sym_index, Dwarf_Error * error) { /* TODO: Add checking here */ return local_add_AT_address(dbg, ownerdie, attr, dbg->de_ar_data_attribute_form, pc_value, sym_index, error); } Dwarf_P_Attribute dwarf_add_AT_block( Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Small *block_data, Dwarf_Unsigned block_size, Dwarf_Error *error ) { Dwarf_P_Attribute new_attr = 0; int result = 0; char encode_buffer[ENCODE_SPACE_NEEDED]; int len_size = 0; char * attrdata = 0; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return((Dwarf_P_Attribute)DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return((Dwarf_P_Attribute)DW_DLV_BADADDR); } /* I don't mess with block1, block2, block4, not worth the effort */ /* So, encode the length into LEB128 */ result = _dwarf_pro_encode_leb128_nm(block_size, &len_size, encode_buffer,sizeof(encode_buffer)); if (result != DW_DLV_OK) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return((Dwarf_P_Attribute)DW_DLV_BADADDR); } /* Allocate the new attribute */ new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return((Dwarf_P_Attribute)DW_DLV_BADADDR); } /* Fill in the attribute */ new_attr->ar_attribute = attr; new_attr->ar_attribute_form = DW_FORM_block; new_attr->ar_nbytes = len_size + block_size; new_attr->ar_next = 0; new_attr->ar_data = attrdata = (char *) _dwarf_p_get_alloc(dbg, len_size + block_size); if (new_attr->ar_data == NULL) { /* free the block we got earlier */ _dwarf_p_dealloc(dbg, (unsigned char *) new_attr); _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return((Dwarf_P_Attribute)DW_DLV_BADADDR); } /* write length and data to attribute data buffer */ memcpy(attrdata, encode_buffer, len_size); attrdata += len_size; memcpy(attrdata, block_data, block_size); /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } /* This function adds attributes whose value is an unsigned constant. It determines the size of the value field from the value of the constant. */ Dwarf_P_Attribute dwarf_add_AT_unsigned_const(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Unsigned value, Dwarf_Error * error) { Dwarf_P_Attribute new_attr = 0; Dwarf_Half attr_form = 0; Dwarf_Small size = 0; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } switch (attr) { case DW_AT_ordering: case DW_AT_byte_size: case DW_AT_bit_offset: case DW_AT_bit_size: case DW_AT_inline: case DW_AT_language: case DW_AT_visibility: case DW_AT_virtuality: case DW_AT_accessibility: case DW_AT_address_class: case DW_AT_calling_convention: case DW_AT_encoding: case DW_AT_identifier_case: case DW_AT_MIPS_loop_unroll_factor: case DW_AT_MIPS_software_pipeline_depth: break; case DW_AT_decl_column: case DW_AT_decl_file: case DW_AT_decl_line: case DW_AT_const_value: case DW_AT_start_scope: case DW_AT_stride_size: case DW_AT_count: case DW_AT_associated: case DW_AT_allocated: case DW_AT_upper_bound: case DW_AT_lower_bound: case DW_AT_call_file: case DW_AT_call_line: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } /* Compute the number of bytes needed to hold constant. */ if (value <= UCHAR_MAX) { attr_form = DW_FORM_data1; size = 1; } else if (value <= USHRT_MAX) { attr_form = DW_FORM_data2; size = 2; } else if (value <= UINT_MAX) { attr_form = DW_FORM_data4; size = 4; } else { attr_form = DW_FORM_data8; size = 8; } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = attr; new_attr->ar_attribute_form = attr_form; new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_reloc_len = 0; /* irrelevant: unused with R_MIPS_NONE */ new_attr->ar_nbytes = size; new_attr->ar_next = 0; new_attr->ar_data = (char *) _dwarf_p_get_alloc(dbg, size); if (new_attr->ar_data == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } WRITE_UNALIGNED(dbg, new_attr->ar_data, (const void *) &value, sizeof(value), size); /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } /* This function adds attributes whose value is an signed constant. It determines the size of the value field from the value of the constant. */ Dwarf_P_Attribute dwarf_add_AT_signed_const(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Signed value, Dwarf_Error * error) { Dwarf_P_Attribute new_attr = 0; Dwarf_Half attr_form = 0; Dwarf_Small size = 0; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } switch (attr) { case DW_AT_lower_bound: case DW_AT_upper_bound: case DW_AT_const_value: case DW_AT_bit_offset: case DW_AT_bit_size: case DW_AT_byte_size: case DW_AT_count: case DW_AT_byte_stride: case DW_AT_bit_stride: case DW_AT_allocated: case DW_AT_associated: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } /* Compute the number of bytes needed to hold constant. */ if (value >= SCHAR_MIN && value <= SCHAR_MAX) { attr_form = DW_FORM_data1; size = 1; } else if (value >= SHRT_MIN && value <= SHRT_MAX) { attr_form = DW_FORM_data2; size = 2; } else if (value >= INT_MIN && value <= INT_MAX) { attr_form = DW_FORM_data4; size = 4; } else { attr_form = DW_FORM_data8; size = 8; } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = attr; new_attr->ar_attribute_form = attr_form; new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_reloc_len = 0; /* irrelevant: unused with R_MIPS_NONE */ new_attr->ar_nbytes = size; new_attr->ar_next = 0; new_attr->ar_data = (char *) _dwarf_p_get_alloc(dbg, size); if (new_attr->ar_data == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } WRITE_UNALIGNED(dbg, new_attr->ar_data, (const void *) &value, sizeof(value), size); /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } /* This function adds attributes whose value is a location expression. */ Dwarf_P_Attribute dwarf_add_AT_location_expr(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_P_Expr loc_expr, Dwarf_Error * error) { char encode_buffer[ENCODE_SPACE_NEEDED]; int res = 0; Dwarf_P_Attribute new_attr = 0; Dwarf_Half attr_form = 0; char *len_str = 0; int len_size = 0; int block_size = 0; char *block_dest_ptr = 0; int do_len_as_int = 0; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (loc_expr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_EXPR_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (loc_expr->ex_dbg != dbg) { _dwarf_p_error(dbg, error, DW_DLE_LOC_EXPR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } block_size = loc_expr->ex_next_byte_offset; switch (attr) { case DW_AT_location: case DW_AT_string_length: case DW_AT_const_value: case DW_AT_use_location: case DW_AT_return_addr: case DW_AT_data_member_location: case DW_AT_frame_base: case DW_AT_static_link: case DW_AT_vtable_elem_location: case DW_AT_lower_bound: case DW_AT_upper_bound: case DW_AT_count: case DW_AT_associated: case DW_AT_allocated: case DW_AT_data_location: case DW_AT_byte_stride: case DW_AT_bit_stride: case DW_AT_byte_size: case DW_AT_bit_size: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } /* Compute the number of bytes needed to hold constant. */ if (block_size <= UCHAR_MAX) { attr_form = DW_FORM_block1; len_size = 1; do_len_as_int = 1; } else if (block_size <= USHRT_MAX) { attr_form = DW_FORM_block2; len_size = 2; do_len_as_int = 1; } else if (block_size <= UINT_MAX) { attr_form = DW_FORM_block4; len_size = 4; do_len_as_int = 1; } else { attr_form = DW_FORM_block; res = _dwarf_pro_encode_leb128_nm(block_size, &len_size, encode_buffer, sizeof(encode_buffer)); if (res != DW_DLV_OK) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } len_str = (char *) encode_buffer; } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = attr; new_attr->ar_attribute_form = attr_form; new_attr->ar_reloc_len = dbg->de_pointer_size; if (loc_expr->ex_reloc_sym_index != NO_ELF_SYM_INDEX) { new_attr->ar_rel_type = dbg->de_ptr_reloc; } else { new_attr->ar_rel_type = R_MIPS_NONE; } new_attr->ar_rel_symidx = loc_expr->ex_reloc_sym_index; new_attr->ar_rel_offset = (Dwarf_Word) loc_expr->ex_reloc_offset + len_size; new_attr->ar_nbytes = block_size + len_size; new_attr->ar_next = 0; new_attr->ar_data = block_dest_ptr = (char *) _dwarf_p_get_alloc(dbg, block_size + len_size); if (new_attr->ar_data == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (do_len_as_int) { WRITE_UNALIGNED(dbg, block_dest_ptr, (const void *) &block_size, sizeof(block_size), len_size); } else { /* Is uleb number form, DW_FORM_block. See above. */ memcpy(block_dest_ptr, len_str, len_size); } block_dest_ptr += len_size; memcpy(block_dest_ptr, &(loc_expr->ex_byte_stream[0]), block_size); /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } /* This function adds attributes of reference class. The references here are local CU references, not DW_FORM_ref_addr. The offset field is 4 bytes for 32-bit objects, and 8-bytes for 64-bit objects. Otherdie is the that is referenced by ownerdie. For reference attributes, the ar_data and ar_nbytes are not needed. Instead, the ar_ref_die points to the other die, and its di_offset value is used as the reference value. */ Dwarf_P_Attribute dwarf_add_AT_reference(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_P_Die otherdie, Dwarf_Error * error) { Dwarf_P_Attribute new_attr; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (otherdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } switch (attr) { case DW_AT_specification: case DW_AT_discr: case DW_AT_common_reference: case DW_AT_import: case DW_AT_containing_type: case DW_AT_default_value: case DW_AT_abstract_origin: case DW_AT_friend: case DW_AT_priority: case DW_AT_type: case DW_AT_lower_bound: case DW_AT_upper_bound: case DW_AT_count: case DW_AT_associated: case DW_AT_allocated: case DW_AT_bit_offset: case DW_AT_bit_size: case DW_AT_byte_size: case DW_AT_sibling: case DW_AT_bit_stride: case DW_AT_byte_stride: case DW_AT_namelist_item: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = attr; new_attr->ar_attribute_form = dbg->de_ar_ref_attr_form; new_attr->ar_nbytes = dbg->de_offset_size; new_attr->ar_reloc_len = dbg->de_offset_size; new_attr->ar_ref_die = otherdie; new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_next = 0; /* Add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } /* This function adds attributes of the flag class. */ Dwarf_P_Attribute dwarf_add_AT_flag(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, Dwarf_Small flag, Dwarf_Error * error) { Dwarf_P_Attribute new_attr = 0; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } #if 0 switch (attr) { case DW_AT_is_optional: case DW_AT_artificial: case DW_AT_declaration: case DW_AT_external: case DW_AT_prototyped: case DW_AT_variable_parameter: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } #endif new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = attr; new_attr->ar_attribute_form = DW_FORM_flag; new_attr->ar_nbytes = 1; new_attr->ar_reloc_len = 0; /* not used */ new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_next = 0; new_attr->ar_data = (char *) _dwarf_p_get_alloc(dbg, 1); if (new_attr->ar_data == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } memcpy(new_attr->ar_data, &flag, 1); /* Add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } /* This function adds values of attributes belonging to the string class. */ Dwarf_P_Attribute dwarf_add_AT_string(Dwarf_P_Debug dbg, Dwarf_P_Die ownerdie, Dwarf_Half attr, char *string, Dwarf_Error * error) { Dwarf_P_Attribute new_attr; if (dbg == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DBG_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } if (ownerdie == NULL) { _dwarf_p_error(dbg, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } switch (attr) { case DW_AT_name: case DW_AT_comp_dir: case DW_AT_const_value: case DW_AT_producer: break; default: if ( attr < DW_AT_lo_user || attr > DW_AT_hi_user ) { _dwarf_p_error(dbg, error, DW_DLE_INPUT_ATTR_BAD); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } break; } new_attr->ar_attribute = attr; new_attr->ar_attribute_form = DW_FORM_string; new_attr->ar_nbytes = strlen(string) + 1; new_attr->ar_next = 0; new_attr->ar_data = (char *) _dwarf_p_get_alloc(dbg, strlen(string)+1); if (new_attr->ar_data == NULL) { _dwarf_p_error(dbg, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } strcpy(new_attr->ar_data, string); new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_reloc_len = 0; /* unused for R_MIPS_NONE */ /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } Dwarf_P_Attribute dwarf_add_AT_const_value_string(Dwarf_P_Die ownerdie, char *string_value, Dwarf_Error * error) { Dwarf_P_Attribute new_attr; if (ownerdie == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(ownerdie->di_dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = DW_AT_const_value; new_attr->ar_attribute_form = DW_FORM_string; new_attr->ar_nbytes = strlen(string_value) + 1; new_attr->ar_next = 0; new_attr->ar_data = (char *) _dwarf_p_get_alloc(ownerdie->di_dbg, strlen(string_value)+1); if (new_attr->ar_data == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } strcpy(new_attr->ar_data, string_value); new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_reloc_len = 0; /* unused for R_MIPS_NONE */ /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } Dwarf_P_Attribute dwarf_add_AT_producer(Dwarf_P_Die ownerdie, char *producer_string, Dwarf_Error * error) { Dwarf_P_Attribute new_attr; if (ownerdie == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(ownerdie->di_dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = DW_AT_producer; new_attr->ar_attribute_form = DW_FORM_string; new_attr->ar_nbytes = strlen(producer_string) + 1; new_attr->ar_next = 0; new_attr->ar_data = (char *) _dwarf_p_get_alloc(ownerdie->di_dbg, strlen(producer_string)+1); if (new_attr->ar_data == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } strcpy(new_attr->ar_data, producer_string); new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_reloc_len = 0; /* unused for R_MIPS_NONE */ /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } Dwarf_P_Attribute dwarf_add_AT_const_value_signedint(Dwarf_P_Die ownerdie, Dwarf_Signed signed_value, Dwarf_Error * error) { Dwarf_P_Attribute new_attr = 0; int leb_size = 0; char encode_buffer[ENCODE_SPACE_NEEDED]; int res = 0; if (ownerdie == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(ownerdie->di_dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = DW_AT_const_value; new_attr->ar_attribute_form = DW_FORM_sdata; new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_reloc_len = 0; /* unused for R_MIPS_NONE */ new_attr->ar_next = 0; res = _dwarf_pro_encode_signed_leb128_nm(signed_value, &leb_size, encode_buffer, sizeof(encode_buffer)); if (res != DW_DLV_OK) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_data = (char *) _dwarf_p_get_alloc(ownerdie->di_dbg, leb_size); if (new_attr->ar_data == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } memcpy(new_attr->ar_data, encode_buffer, leb_size); new_attr->ar_nbytes = leb_size; /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; } Dwarf_P_Attribute dwarf_add_AT_const_value_unsignedint(Dwarf_P_Die ownerdie, Dwarf_Unsigned unsigned_value, Dwarf_Error * error) { Dwarf_P_Attribute new_attr; int leb_size; char encode_buffer[ENCODE_SPACE_NEEDED]; int res; if (ownerdie == NULL) { _dwarf_p_error(NULL, error, DW_DLE_DIE_NULL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr = (Dwarf_P_Attribute) _dwarf_p_get_alloc(ownerdie->di_dbg, sizeof(struct Dwarf_P_Attribute_s)); if (new_attr == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_attribute = DW_AT_const_value; new_attr->ar_attribute_form = DW_FORM_udata; new_attr->ar_rel_type = R_MIPS_NONE; new_attr->ar_reloc_len = 0; /* unused for R_MIPS_NONE */ new_attr->ar_next = 0; res = _dwarf_pro_encode_leb128_nm(unsigned_value, &leb_size, encode_buffer, sizeof(encode_buffer)); if (res != DW_DLV_OK) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } new_attr->ar_data = (char *) _dwarf_p_get_alloc(ownerdie->di_dbg, leb_size); if (new_attr->ar_data == NULL) { _dwarf_p_error(NULL, error, DW_DLE_ALLOC_FAIL); return ((Dwarf_P_Attribute) DW_DLV_BADADDR); } memcpy(new_attr->ar_data, encode_buffer, leb_size); new_attr->ar_nbytes = leb_size; /* add attribute to the die */ _dwarf_pro_add_at_to_die(ownerdie, new_attr); return new_attr; }