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- .TH MACH 2
- .SH NAME
- crackhdr, machbytype, machbyname, newmap, setmap, findseg, unusemap,
- loadmap, attachproc, get1, get2, get4, get8, geta, put1, put2, put4, put8, puta
- beswab, beswal, beswav, leswab, leswal, leswav \- machine-independent access to executable files
- .SH SYNOPSIS
- .B #include <u.h>
- .br
- .B #include <libc.h>
- .br
- .B #include <bio.h>
- .br
- .B #include <mach.h>
- .PP
- .ta \w'\fLmachines 'u
- .B
- int crackhdr(int fd, Fhdr *fp)
- .PP
- .B
- void machbytype(int type)
- .PP
- .B
- int machbyname(char *name)
- .PP
- .B
- Map *newmap(Map *map, int n)
- .PP
- .B
- int setmap(Map *map, int fd, ulong base, ulong end,
- .PP
- .B
- ulong foffset, char *name)
- .PP
- .B
- int findseg(Map *map, char *name)
- .PP
- .B
- void unusemap(Map *map, int seg)
- .PP
- .B
- Map *loadmap(Map *map, int fd, Fhdr *fp)
- .PP
- .B
- Map *attachproc(int pid, int kflag, int corefd, Fhdr *fp)
- .PP
- .B
- int get1(Map *map, ulong addr, uchar *buf, int n)
- .PP
- .B
- int get2(Map *map, ulong addr, ushort *val)
- .PP
- .B
- int get4(Map *map, ulong addr, long *val)
- .PP
- .B
- int get8(Map *map, ulong addr, vlong *val)
- .PP
- .B
- int geta(Map *map, uvlong addr, uvlong *val)
- .PP
- .B
- int put1(Map *map, ulong addr, uchar *buf, int n)
- .PP
- .B
- int put2(Map *map, ulong addr, ushort val)
- .PP
- .B
- int put4(Map *map, ulong addr, long val)
- .PP
- .B
- int put8(Map *map, ulong addr, vlong val)
- .PP
- .B
- int puta(Map *map, uvlong addr, uvlong val)
- .PP
- .B
- ushort beswab(ushort val)
- .PP
- .B
- long beswal(long val)
- .PP
- .B
- long beswav(vlong val)
- .PP
- .B
- ushort leswab(ushort val)
- .PP
- .B
- long leswal(long val)
- .PP
- .B
- long leswav(vlong val)
- .PP
- .B
- extern Mach mach;
- .PP
- .B
- extern Machdata machdata;
- .SH DESCRIPTION
- These functions provide
- a processor-independent interface for accessing
- the executable files or executing images of all
- architectures.
- Related library functions described in
- .IR symbol (2)
- and
- .IR object (2)
- provide similar access to symbol tables and object files.
- .PP
- An
- .I executable
- is a file containing an executable program or the
- .B text
- file of the
- .B /proc
- file system associated with an executing process as
- described in
- .IR proc (3).
- After opening an executable, an application
- invokes a library function which parses the
- file header,
- determines the target architecture and
- initializes data structures with parameters
- and pointers to functions appropriate for
- that architecture. Next, the application
- invokes functions to construct one or more
- .IR maps ,
- data structures that translate references
- in the address space of the executable
- to offsets in the file. Each
- .I map
- comprises one or more
- .BR segments ,
- each associating a non-overlapping range of
- memory addresses with a logical section of
- the executable.
- Other library functions then use a map
- and the architecture-specific data structures
- to provide a generic interface to the
- processor-dependent data.
- .PP
- .I Crackhdr
- interprets the header of the executable
- associated with
- the open file descriptor
- .IR fd .
- It loads the data structure
- .I fp
- with a machine-independent description
- of the header information and
- points global variable
- .I mach
- to the
- .B Mach
- data structure containing processor-dependent parameters
- of the target architecture.
- .PP
- .I Machbytype
- selects architecture-specific data structures and parameter
- values based on
- the code stored in the
- field named
- .I type
- in the
- .B Fhdr
- data structure.
- .I Machbyname
- performs the same selection based
- on the name of a processor class; see
- .IR 2c (1)
- for a list of valid names.
- Both functions point global variables
- .I mach
- and
- .I machdata
- to the
- .I Mach
- and
- .I Machdata
- data structures appropriate for the
- target architecture and load global variable
- .I asstype
- with the proper disassembler type code.
- .PP
- .I Newmap
- creates an empty map with
- .I n
- segments.
- If
- .I map
- is zero, the new map is dynamically
- allocated, otherwise it is assumed to
- point to an existing dynamically allocated map whose
- size is adjusted, as necessary.
- A zero return value indicates an allocation error.
- .PP
- .I Setmap
- loads the first unused segment in
- .I map
- with the
- segment mapping parameters.
- .I Fd
- is an open file descriptor associated with
- an executable.
- .I Base
- and
- .I end
- contain the lowest and highest virtual addresses
- mapped by the segment.
- .I Foffset
- is the offset to the start of the segment in the file.
- .I Name
- is a name to be attached to the segment.
- .PP
- .I Findseg
- returns the index of the the
- segment named
- .I name
- in
- .IR map .
- A return of -1 indicates that no
- segment matches
- .IR name .
- .PP
- .I Unusemap
- marks segment number
- .I seg
- in map
- .I map
- unused. Other
- segments in the map remain unaffected.
- .PP
- .I Loadmap
- initializes a default map containing
- segments named `text' and `data' that
- map the instruction and data segments
- of the executable described in the
- .B Fhdr
- structure pointed to by
- .IR fp .
- Usually that structure was loaded by
- .IR crackhdr
- and can be passed to this function without
- modification.
- If
- .I map
- is non-zero, that map, which must have been
- dynamically allocated, is resized to contain two segments;
- otherwise a new map is allocated.
- This function returns zero if allocation fails.
- .I Loadmap
- is usually used to build a map for accessing
- a static executable, for example, an executable
- program file.
- .PP
- .I Attachproc
- constructs a map for accessing a
- running process. It
- returns the address of a
- .I Map
- containing segments mapping the
- address space of the running process
- whose process ID is
- .BR pid .
- If
- .B kflag
- is non-zero, the process is assumed to be
- a kernel process.
- .B Corefd
- is an file descriptor opened to
- .BR /proc/\fIpid\fP/mem .
- .B Fp
- points to the
- .I Fhdr
- structure describing the header
- of the executable. For most architectures
- the resulting
- .I Map
- contains four segments named `text', `data',
- `regs' and `fpregs'. The latter two provide access to
- the general and floating point registers, respectively.
- If the executable is a kernel process (indicated by a
- non-zero
- .B kflag
- argument), the data segment extends to the maximum
- supported address, currently 0xffffffff, and the
- register sets are read-only. In user-level programs,
- the data segment extends to the
- top of the stack or 0x7fffffff if the stack top
- cannot be found, and the register sets are readable
- and writable.
- .I Attachproc
- returns zero if it is unable to build the map
- for the specified process.
- .PP
- .IR Get1 ,
- .IR get2 ,
- .IR get4 ,
- and
- .I get8
- retrieve the data stored at address
- .I addr
- in the executable 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 val .
- 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.
- If the file descriptor associated with the applicable segment in
- .I map
- is negative, the address itself is placed in the
- return location. 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 executable 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
- .IR Beswab ,
- .IR beswal ,
- and
- .I beswav
- return the
- .BR ushort ,
- .BR long ,
- and
- .B vlong
- big-endian representation of
- .IR val ,
- respectively.
- .IR Leswab ,
- .IR leswal ,
- and
- .I leswav
- return the little-endian representation of the
- .BR ushort ,
- .BR long ,
- and
- .B vlong
- contained in
- .IR val .
- .SH SOURCE
- .B /sys/src/libmach
- .SH "SEE ALSO"
- .IR 2c (1),
- .IR symbol (2),
- .IR object (2),
- .IR errstr (2),
- .IR proc (3),
- .IR a.out (6)
- .SH DIAGNOSTICS
- These routines set
- .IR errstr .
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