.TH MACH-MAP 3 .SH NAME allocmap, addseg, findseg, addrtoseg, addrtosegafter, removeseg, freemap, get1, get2, get4, get8, put1, put2, put4, put8, rget, rput, fpformat, locnone, locaddr, locconst, locreg, locindir, loccmp, loceval, locfmt, locsimplify, lget1, lget2, lget4, lget8, lput1, lput2, lput4, lput8 \- machine-independent access to address spaces and register sets .SH SYNOPSIS .B #include .br .B #include .br .B #include .PP .ft B .ta \w'\fBxxxxxx'u +\w'xxxxxxx'u .nf typedef struct Map Map; typedef struct Seg Seg; .PP .ft B .nf struct Seg { char *name; char *file; int fd; ulong base; ulong size; ulong offset; int (*rw)(Map*, Seg*, ulong, void*, uint, int); }; .PP .ft B .nf struct Map { Seg *seg; int nseg; \fI...\fR }; .PP .ft B Map *allocmap(void) .br int addseg(Map *map, Seg seg) .br int findseg(Map *map, char *name, char *file) .br int addrtoseg(Map *map, ulong addr, Seg *seg) .br int addrtosegafter(Map *map, ulong addr, Seg *seg) .br void removeseg(Map *map, int i) .br void freemap(Map *map) .PP .ft B int get1(Map *map, ulong addr, uchar *a, uint n) .br int get2(Map *map, ulong addr, u16int *u) .br int get4(Map *map, ulong addr, u32int *u) .br int get8(Map *map, ulong addr, u64int *u) .PP .ft B int put1(Map *map, ulong addr, uchar *a, uint n) .br int put2(Map *map, ulong addr, u16int u) .br int put4(Map *map, ulong addr, u32int u) .br int put8(Map *map, ulong addr, u64int u) .PP .ft B int rget(Regs *regs, char *reg, ulong *u) .br int fpformat(Map *map, char *reg, char *a, uint n, char code); .PP .ft B int rput(Regs *regs, char *name, ulong u) .PP .ft B Loc locnone(void) .br Loc locaddr(ulong addr) .br Loc locconst(ulong con) .br Loc locreg(char *reg) .br Loc locindir(char *reg, long offset) .PP .ft B int loccmp(Loc *a, Loc *b) .br int loceval(Map *map, Loc loc, ulong *addr) .br int locfmt(Fmt *fmt) .br int locsimplify(Map *map, Loc *regs, Loc loc, Loc *newloc) .PP .ft B int lget1(Map *map, Loc loc, uchar *a, uint n) .br int lget2(Map *map, Loc loc, u16int *u) .br int lget4(Map *map, Loc loc, u32int *u) .br int lget8(Map *map, Loc loc, u64int *u) .PP .ft B int lput1(Map *map, Loc loc, uchar *a, uint n) .br int lput2(Map *map, Loc loc, u16int u) .br int lput4(Map *map, Loc loc, u32int u) .br int lput8(Map *map, Loc loc, u64int u) .PP .SH DESCRIPTION These functions provide a processor-independent interface for accessing executable files, core files, and running processes via .IR maps , data structures that provides access to an address space and register set. The functions described in .MR mach-file (3) are typically used to construct these maps. Related library functions described in .MR mach-symbol (3) provide similar access to symbol tables. .PP Each .I map comprises an optional register set and one or more .BR segments , each associating a non-overlapping range of memory addresses with a logical section of an executable file or of a running process's address space. Other library functions then use a map and the architecture-specific data structures to provide a generic interface to the processor-dependent data. .PP Each segment has a name (e.g., .B text or .BR data ) and may be associated with a particular file. A segment represents a range of accessible address space. Segments may be backed an arbitary access function (if the .B rw pointer is non-nil), or by the contents of an open file (using the .B fd file descriptor). Each range has a starting address in the space .RB ( base ) and an extent .RB ( size ). In segments mapped by files, the range begins at byte .B offset in the file. The .B rw function is most commonly used to provide access to executing processes via .MR ptrace (2) and to zeroed segments. .PP .I Allocmap creates an empty map; .IR freemap frees a map. .PP .I Addseg adds the given segment to the map, resizing the map's .I seg array if necessary. A negative return value indicates an allocation error. .PP .I Findseg returns the index of the segment with the given name (and, if .I file is non-nil, the given file), or \-1 if no such segment is found. .PP .I Addrtoseg returns the index of the segment containing for the given address, or \-1 if that address is not mapped. Segments may have overlapping address ranges: .I addseg appends segments to the end of the .I seg array in the map, and .I addrtoseg searches the map backwards from the end, so the most recently mapped segment wins. .PP .I Addrtosegafter returns the index of the segment containing the lowest mapped address greater than .IR addr . .PP .I Removeseg removes the segment at the given index. .PP .IR Get1 , .IR get2 , .IR get4 , and .I get8 retrieve the data stored at address .I addr in the address space associated with .IR map . .I Get1 retrieves .I n bytes of data beginning at .I addr into .IR buf . .IR Get2 , .I get4 and .I get8 retrieve 16-bit, 32-bit and 64-bit values respectively, into the location pointed to by .IR u . The value is byte-swapped if the source byte order differs from that of the current architecture. This implies that the value returned by .IR get2 , .IR get4 , and .I get8 may not be the same as the byte sequences returned by .I get1 when .I n is two, four or eight; the former may be byte-swapped, the latter reflects the byte order of the target architecture. These functions return the number of bytes read or a \-1 when there is an error. .PP .IR Put1 , .IR put2 , .IR put4 , and .I put8 write to the address space associated with .IR map . The address is translated using the map parameters and multi-byte quantities are byte-swapped, if necessary, before they are written. .I Put1 transfers .I n bytes stored at .IR buf ; .IR put2 , .IR put4 , and .I put8 write the 16-bit, 32-bit or 64-bit quantity contained in .IR val , respectively. The number of bytes transferred is returned. A \-1 return value indicates an error. .PP When representing core files or running programs, maps also provide access to the register set. .IR Rget and .IR rput read or write the register named by .IR reg . If the register is smaller than a .BR ulong , the high bits are ignored. .PP .I Fpformat converts the contents of a floating-point register to a string. .I Buf is the address of a buffer of .I n bytes to hold the resulting string. .I Code must be either .L F or .LR f , selecting double or single precision, respectively. If .I code is .LR F , the contents of the specified register and the following register are interpreted as a double-precision floating-point number; this is meaningful only for architectures that implement double-precision floats by combining adjacent single-precision registers. .PP A .I location represents a place in an executing image capable of storing a value. Note that locations are typically passed by value rather than by reference. .PP .I Locnone returns an unreadable, unwritable location. .I Locaddr returns a location representing the memory address .IR addr . .I Locreg returns a location representing the register .IR reg . .I Locindir returns an location representing the memory address at .I offset added to the value of .IR reg . .I Locconst returns an imaginary unwritable location holding the constant .IR con ; such locations are useful for passing specific constants to functions expect locations, such as .I unwind (see .MR mach-stack (3) ). .PP .I Loccmp compares two locations, returning negative, zero, or positive values if .B *a is less than, equal to, or greater than .BR *b , respectively. Register locations are ordered before memory addresses, which are ordered before indirections. .PP .I Locfmt is a .MR print (3) -verb that formats a .B Loc structure .RI ( not a pointer to one). .PP Indirection locations are needed in some contexts (e.g., when using .I findlsym (see .MR mach-symbol (3) )), but bothersome in most. .I Locsimplify rewrites indirections as absolute memory addresses, by evaluating the register using the given map and adding the offset. .PP The functions .IR lget1 , .IR lget2 , .IR lget4 , .IR lget8 , .IR lput1 , .IR lput2 , .IR lput4 , and .I lput8 read and write the given locations, using the .IR get , .IR put , .IR rget , and .I rput function families as necessary. .SH SOURCE .B \*9/src/libmach .SH "SEE ALSO" .MR mach (3) , .MR mach-file (3) .SH DIAGNOSTICS These routines set .IR errstr . .SH BUGS This man page needs to describe .B Regs and .B Regdesc and .I coreregs.