A.OUT(5) UNIX Programmer's Manual A.OUT(5) NAME a.out - assembler and link editor output SYNOPSIS #include DESCRIPTION _A._o_u_t is the output file of the assembler _a_s(1) and the link editor _l_d(1). Both programs make _a._o_u_t executable if there were no errors and no unresolved external references. Lay- out information as given in the include file for the PDP11 is: /* * Header prepended to each a.out file. */ struct exec { int a_magic; /* magic number */ unsigned int a_text; /* size of text segment */ unsigned int a_data; /* size of initialized data */ unsigned int a_bss; /* size of uninitialized data */ unsigned int a_syms; /* size of symbol table */ unsigned int a_entry; /* entry point */ unsigned int a_unused; /* not used */ unsigned int a_flag; /* relocation info stripped */ }; #define NOVL 15 /* number of overlays */ struct ovlhdr { int max_ovl; /* maximum overlay size */ unsigned int ov_siz[NOVL]; /* size of i'th overlay */ }; struct xexec { struct exec e; struct ovlhdr o; }; #define A_MAGIC1 0407 /* normal */ #define A_MAGIC2 0410 /* read-only text */ #define A_MAGIC3 0411 /* separated I&D */ #define A_MAGIC4 0405 /* overlay */ #define A_MAGIC5 0430 /* auto-overlay (nonseparate) */ #define A_MAGIC6 0431 /* auto-overlay (separate) */ /* * Macros which take exec structures as arguments and tell whether * the file has a reasonable magic number or offset to text. */ #define N_BADMAG(x) \ (((x).a_magic)!=A_MAGIC1 && ((x).a_magic)!=A_MAGIC2 && \ ((x).a_magic)!=A_MAGIC3 && ((x).a_magic)!=A_MAGIC4 && \ Printed 11/26/99 January 9, 1994 1 A.OUT(5) UNIX Programmer's Manual A.OUT(5) ((x).a_magic)!=A_MAGIC5 && ((x).a_magic)!=A_MAGIC6) #define N_TXTOFF(x) \ ((x).a_magic==A_MAGIC5 || (x).a_magic==A_MAGIC6 ? \ sizeof(struct ovlhdr) + sizeof(struct exec) : sizeof(struct exec)) /* * The following were added as part of the new object file format. They * call functions because calculating the sums of overlay sizes was too * messy (and verbose) to do 'inline'. * * NOTE: if the magic number is that of an overlaid object the program * must pass an extended header ('xexec') as the argument. */ off_t n_stroff(), n_symoff(), n_datoff(), n_dreloc(), n_treloc(); #define N_STROFF(e) (n_stroff(&e)) #define N_SYMOFF(e) (n_symoff(&e)) #define N_DATOFF(e) (n_datoff(&e)) #define N_DRELOC(e) (n_dreloc(&e)) #define N_TRELOC(e) (n_treloc(&e)) The file has five sections: a header, the program text and data, relocation information, a symbol table and a strings table (in that order). The last three may be omitted if the program was loaded with the `-s' option of _l_d or if the sym- bols and relocation have been removed by _s_t_r_i_p(1). In the header the sizes of each section are given in bytes, but are even. The size of the header is not included in any of the other sizes. When an _a._o_u_t file is executed, three or four logical seg- ments are set up: the text segment, a possible text overlay segment, the data segment (with uninitialized data, which starts off as all 0, following initialized), and a stack. The text segment begins at 0 in the core image; the header is not loaded. _N_o_n-_o_v_e_r_l_a_i_d _o_b_j_e_c_t_s: If the magic number in the header is A_MAGIC1 (0407), it indicates that the text segment is not to be write-protected and shared, so the data segment is immediately contiguous with the text segment. This is the oldest kind of executable program and is the default; it should not be used for production binaries. If the magic number is A_MAGIC2 (0410), the data segment begins at the first 0 mod 8K byte boundary following the text segment, and the text segment is not writable by the program; if other processes are executing the same file, they will share the text segment. If the magic number is A_MAGIC3 (0411), the text segment is again pure, write-protected, and shared, and Printed 11/26/99 January 9, 1994 2 A.OUT(5) UNIX Programmer's Manual A.OUT(5) moreover instruction and data space are separated; the text and data segment both begin at location 0. This format is only runnable on processors which support separate instruc- tion and data space but can provide significantly more data space than an A_MAGIC2 format of the same object. _T_e_x_t _r_e_p_l_a_c_e_m_e_n_t _o_b_j_e_c_t_s : If the magic number is A_MAGIC4 (0405), the text segment is overlaid on an existing non- overlaid pure (A_MAGIC2 or A_MAGIC3) or text replacement (A_MAGIC4) text segment and the existing data segment is preserved. The text segment of the previous memory image must be the same size as that of the text replacement object being loaded. There is, unfortunately, no loader support to help achieve this requirement. The text replacement format is useful for objects which need a large amount of data space on non-separate I&D processors. _O_v_e_r_l_a_i_d _o_b_j_e_c_t_s : If the magic number is A_MAGIC5 (0430), a base text segment is write-protected and shared and is fol- lowed by a text overlay segment. There are a maximum of NOVL overlays, all pure and shared. The base segment runs from 0 to txtsiz. The overlay region begins at the next 0 mod 8k byte boundary, which is as large as the largest over- lay. When running, any one of the overlays can be mapped into this region. The data segment begins at the following 0 mod 8k byte boundary. If the magic number is A_MAGIC6 (0431), the situation is the same as for type A_MAGIC5 except that instruction and data spaces are separated and both begin at location 0. As with the A_MAGIC3 format, an _a._o_u_t in A_MAGIC6 format can only be run on a processor which supports separate I&D, but again can provide signifi- cantly more data space than A_MAGIC5 format. Both A_MAGIC5 and A_MAGIC6 executable files have a second header between the normal a.out header and the start of the text image; it contains the maximum overlay size and the sizes of each of the overlays. The text images of the overlays follow the text in the object file. The stack segment will occupy the highest possible locations in the core image: growing downwards from 0177776(8). The stack segment is automatically extended as required. The data segment is only extended as requested by _b_r_k(2). The include file a.out.h defines __A_O_U_T__I_N_C_L_U_D_E_, the include file nlist.h does not. This permits compile time initiali- zation of the _n__n_a_m_e field for programs that are not looking at the executable header. The layout of a symbol table entry and the principal flag values that distinguish symbol types are given in the include file as follows: Printed 11/26/99 January 9, 1994 3 A.OUT(5) UNIX Programmer's Manual A.OUT(5) struct nlist { #ifdef _AOUT_INCLUDE_ union { char *n_name;/* In memory address of symbol name */ off_t n_strx;/* String table offset (file) */ } n_un; #else char *n_name; /* symbol name (in memory) */ #endif u_char n_type; /* Type of symbol - see below */ char n_ovly; /* Overlay number */ u_int n_value; /* Symbol value */ }; /* * Simple values for n_type. */ #define N_UNDF 0x0 /* undefined */ #define N_ABS 0x1 /* absolute */ #define N_TEXT 0x2 /* text symbol */ #define N_DATA 0x3 /* data symbol */ #define N_BSS 0x4 /* bss symbol */ #define N_REG 0x14 /* register name */ #define N_FN 0x1f /* file name symbol */ #define N_EXT 0x20 /* external bit, or'ed in */ #define N_TYPE 0x1f /* mask for all the type bits */ /* * Format for namelist values. */ #define N_FORMAT "%06o" If a symbol's type is undefined external, and the value field is non-zero, the symbol is interpreted by the loader _l_d as the name of a common region whose size is indicated by the value of the symbol. The value of a word in the text or data which is not a por- tion of a reference to an undefined external symbol is exactly that value which will appear in memory when the file is executed. If a word in the text or data involves a reference to an undefined external symbol, as indicated by the relocation information, then the value stored in the file is an offset from the associated external symbol. When the file is processed by the link editor and the external symbol becomes defined, the value of the symbol will be added into the word in the file. If relocation information is present, it amounts to one word per word of program text or initialized data. There is no relocation information if the `relocation info stripped' Printed 11/26/99 January 9, 1994 4 A.OUT(5) UNIX Programmer's Manual A.OUT(5) flag in the header is on. Automatic-overlay (A_MAGIC5 and A_MAGIC6) files do not contain relocation information. Bits 1-3 of a relocation word indicate the segment referred to by the text or data word associated with the relocation word: 000 absolute number 002 reference to text segment 004 reference to initialized data 006 reference to uninitialized data (bss) 010 reference to undefined external symbol Bit 0 of the relocation word indicates, if 1, that the reference is relative to the pc (e.g. `clr x'); if 0, that the reference is to the actual symbol (e.g., `clr *$x'). The remainder of the relocation word (bits 15-4) contains a symbol number in the case of external references, and is unused otherwise. The string table begins with a longword containing the length of the string table (including the longword itself). All strings are null terminated. The first symbol is numbered 0, the second 1, etc. SEE ALSO as(1), ld(1), nm(1), strip(1), nlist(3) BUGS The current implementation places a maximum length of 32 characters for symbol names in _a._o_u_t files. This is (rela- tively) easily raised with the caveat that the linker and other programs which look at symbol tables will slow down even more than they already have. The _4_B_S_D _a._o_u_t format has been implemented. This involved modifying the first phase of the C compiler (/_l_i_b/_c_0), the assembler (/_b_i_n/_a_s), the debugger adb(_1), the linker ld(_1), and then simply porting the 4.3BSD/Net-2 _a_r(1), _n_m(1), _r_a_n_- _l_i_b(1), _s_t_r_i_p(1) and _n_l_i_s_t(3). As part of this effort the include file _s_h_o_r_t__n_a_m_e_s._h has gone away. Printed 11/26/99 January 9, 1994 5