NAME
ptrace
—
process tracing and
debugging
SYNOPSIS
#include
<sys/types.h>
#include <sys/ptrace.h>
int
ptrace
(int
request, pid_t pid,
caddr_t addr,
int data);
DESCRIPTION
ptrace
()
provides tracing and debugging facilities. It allows one process (the
tracing
process) to control another (the
traced
process). Most of the time, the traced process runs normally, but when it
receives a signal (see
sigaction(2)), it stops. The tracing process is expected to notice
this via wait(2) or the delivery of a SIGCHLD
signal,
examine the state of the stopped process, and cause it to terminate or
continue as appropriate. ptrace
() is the mechanism
by which all this happens. ptrace
() is only
available on kernels compiled with the PTRACE
option.
The request argument specifies
what operation is being performed; the meaning of the rest of the arguments
depends on the operation, but except for one special case noted below, all
ptrace
()
calls are made by the tracing process, and the pid
argument specifies the process ID of the traced process.
request can be:
PT_TRACE_ME
- This request is the only one used by the traced process; it declares that
the process expects to be traced by its parent. All the other arguments
are ignored. (If the parent process does not expect to trace the child, it
will probably be rather confused by the results; once the traced process
stops, it cannot be made to continue except via
ptrace
().) When a process has used this request and calls execve(2) or any of the routines built on it (such as execv(3)), it will stop before executing the first instruction of the new image. Also, any setuid or setgid bits on the executable being executed will be ignored. PT_READ_I
,PT_READ_D
- These requests read a single int of data from the
traced process' address space. Traditionally,
ptrace
() has allowed for machines with distinct address spaces for instruction and data, which is why there are two requests: conceptually,PT_READ_I
reads from the instruction space andPT_READ_D
reads from the data space. In the current OpenBSD implementation, these two requests operate in the same address space. The addr argument specifies the address (in the traced process' virtual address space) at which the read is to be done. This address does not have to meet any alignment constraints. The value read is returned as the return value fromptrace
(). PT_WRITE_I
,PT_WRITE_D
- These requests parallel
PT_READ_I
andPT_READ_D
, except that they write rather than read.PT_WRITE_I
may be necessary to ensure that instruction caches are flushed appropriately. The data argument supplies the value to be written. PT_CONTINUE
- The traced process continues execution. addr is an
address specifying the place where execution is to be resumed (a new value
for the program counter), or
(caddr_t)1
to indicate that execution is to pick up where it left off. data provides a signal number to be delivered to the traced process as it resumes execution, or 0 if no signal is to be sent. PT_KILL
- The traced process terminates, as if
PT_CONTINUE
had been used withSIGKILL
given as the signal to be delivered. PT_ATTACH
- This request allows a process to gain control of an otherwise unrelated
process and begin tracing it. It does not need any cooperation from the
to-be-traced process. In this case, pid specifies
the process ID of the to-be-traced process, and the other two arguments
are ignored. This request requires that the target process must have the
same real UID as the tracing process, and that it must not be executing a
set-user-ID or set-group-ID executable. Additionally, if the
kern.global_ptrace
sysctl is 0, then the target process must be a descendant of the tracing process. (If the tracing process is running as root, these restrictions do not apply.) The tracing process will see the newly traced process stop and may then control it as if it had been traced all along. PT_DETACH
- This request is like
PT_CONTINUE
, except that it does not allow specifying an alternate place to continue execution, and after it succeeds, the traced process is no longer traced and continues execution normally. PT_IO
- This request is a more general interface that can be used instead of
PT_READ_D
,PT_WRITE_D
,PT_READ_I
andPT_WRITE_I
. The I/O request is encoded in a “struct ptrace_io_desc
” defined as:struct ptrace_io_desc { int piod_op; void *piod_offs; void *piod_addr; size_t piod_len; };
Where piod_offs is the offset within the traced process where the I/O operation should be made, piod_addr is the buffer in the parent and piod_len is the length of the I/O request. The piod_op member specifies what operation needs to be done. Possible values are:
- PIOD_READ_D
- PIOD_WRITE_D
- PIOD_READ_I
- PIOD_WRITE_I
- PIOD_READ_AUXV
See also the description of
PT_READ_I
for the difference between D and I spaces. ThePIOD_READ_AUXV
operation can be used to read from the ELF auxiliary vector. A pointer to the descriptor is passed in addr. On return the piod_len field in the descriptor will be updated with the actual number of bytes transferred. If the requested I/O could not be successfully performed,ptrace
() will return-1
and set errno. PT_SET_EVENT_MASK
- This request can be used to specify which events in the traced process
should be reported to the tracing process. These events are specified in a
“
struct ptrace_event
” defined as:typedef struct ptrace_event { int pe_set_event; } ptrace_event_t;
Where pe_set_event is the set of events to be reported. This set is formed by OR'ing together the following values:
- PTRACE_FORK
- Report fork(2).
A pointer to this structure is passed in addr. The data argument should be set to
sizeof(struct ptrace_event)
. PT_GET_EVENT_MASK
- This request can be used to determine which events in the traced process
will be reported. The information is read into the
“
struct ptrace_event
” pointed to by addr. The data argument should be set tosizeof(struct ptrace_event)
. PT_GET_PROCESS_STATE
- This request reads the state information associated with the event that
stopped the traced process. The information is reported in a
“
struct ptrace_state
” defined as:typedef struct ptrace_state { int pe_report_event; pid_t pe_other_pid; } ptrace_state_t;
Where pe_report_event is the event being reported. If the event being reported is
PTRACE_FORK
, pe_other_pid will be set to the process ID of the other end of the fork. A pointer to this structure is passed in addr. The data argument should be set tosizeof(struct ptrace_state)
. PT_GET_THREAD_FIRST
- This request reads the thread ID of the traced process' first thread into
the “
struct ptrace_thread_state
” pointed to by addr. The data argument should be set tosizeof(struct ptrace_thread_state)
. PT_GET_THREAD_NEXT
- This request is just like
PT_GET_THREAD_FIRST
, except it returns the thread ID of the subsequent thread. The “struct ptrace_thread_state
” pointed to by addr must be initialized by a previousPT_GET_THREAD_FIRST
orPT_GET_THREAD_NEXT
request.
Additionally, machine-specific requests can exist. Depending on the architecture, the following requests may be available under OpenBSD:
PT_GETREGS
(all platforms)- This request reads the traced process' machine registers into the
“
struct reg
” (defined in<machine/reg.h>
) pointed to by addr. PT_SETREGS
(all platforms)- This request is the converse of
PT_GETREGS
; it loads the traced process' machine registers from the “struct reg
” (defined in<machine/reg.h>
) pointed to by addr. PT_STEP
(not available on sparc64)- The traced process continues execution, as in request
PT_CONTINUE
; however, execution stops as soon as possible after execution of at least one instruction (single-step). PT_GETFPREGS
(not available on luna88k or mips64)- This request reads the traced process' floating-point registers into the
“
struct fpreg
” (defined in<machine/reg.h>
) pointed to by addr. PT_SETFPREGS
(not available on luna88k or mips64)- This request is the converse of
PT_GETFPREGS
; it loads the traced process' floating-point registers from the “struct fpreg
” (defined in<machine/reg.h>
) pointed to by addr. PT_GETXMMREGS
(i386 only)- This request reads the traced process' XMM registers into the
“
struct xmmregs
” (defined in<machine/reg.h>
) pointed to by addr. PT_SETXMMREGS
(i386 only)- This request is the converse of
PT_GETXMMREGS
; it loads the traced process' XMM registers from the “struct xmmregs
” (defined in<machine/reg.h>
) pointed to by addr. PT_WCOOKIE
(sparc64 only)- This request reads the traced process' ‘window cookie’ into the int pointed to by addr. The window cookie needs to be ‘XOR'ed’ to stack-saved program counters.
PT_GETXSTATE_INFO
(amd64 only)- This request can be used to obtain details about the traced process XSAVE
area, specified in a “
struct ptrace_xstate_info
” defined as follows:struct ptrace_xstate_info { uint64_t xsave_mask; uint32_t xsave_len; };
The xsave_mask field denotes the enabled XSAVE components. The xsave_len field denotes the size of XSAVE area intended to be used with the
PT_GETXSTATE
andPT_SETXSTATE
requests.A pointer to “
struct ptrace_xstate_info
” must be passed in addr and the data argument must be set tosizeof(struct ptrace_xstate_info)
. PT_GETXSTATE
(amd64 only)- This request can be used to read the XSAVE area of the traced process. A
pointer to a buffer must be passed in addr with a
capacity of the length obtained using the
PT_GETXSTATE_INFO
request. The data argument must reflect the same length. PT_SETXSTATE
(amd64 only)- This request can be used to write the XSAVE area of the traced process.
Only changes to the x87, SSE and AVX state components are honored. A
pointer to a buffer must be passed in addr with a
capacity of the length obtained using the
PT_GETXSTATE_INFO
request. The data argument must reflect the same length.
ERRORS
Some requests can cause ptrace
() to return
-1
as a non-error value; to disambiguate,
errno is set to zero and this should be checked. The
possible errors are:
- [
ESRCH
] - No process having the specified process ID exists.
- [
EINVAL
] -
- A process attempted to use
PT_ATTACH
on itself. - The request was not one of the legal requests.
- The signal number (in data) to
PT_CONTINUE
was neither 0 nor a legal signal number. PT_GETREGS
,PT_SETREGS
,PT_GETFPREGS
, orPT_SETFPREGS
was attempted on a process with no valid register set. (This is normally true only of system processes.)
- A process attempted to use
- [
EBUSY
] -
PT_ATTACH
was attempted on a process that was already being traced.- A request attempted to manipulate a process that was being traced by some process other than the one making the request.
- A request (other than
PT_ATTACH
) specified a process that wasn't stopped and waited for.
- [
EPERM
] -
- A request (other than
PT_ATTACH
) attempted to manipulate a process that wasn't being traced at all. - An attempt was made to use
PT_ATTACH
on a process in violation of the requirements listed underPT_ATTACH
above. - An attempt was made to use
PT_ATTACH
on a system process.
- A request (other than
- [
ENOTSUP
] PT_GETXSTATE_INFO
,PT_GETXSTATE
, orPT_SETXSTATE
was attempted on a CPU lacking support for XSAVE.
HISTORY
The ptrace
() system call first appeared in
Version 6 AT&T UNIX.
BUGS
On several RISC architectures (such as luna88k and sparc64), the
PC is set to the provided PC value for PT_CONTINUE
and similar calls, and the remainder of the execution pipeline registers are
set to the following instructions, even if the instruction at PC is a branch
instruction. Using PT_GETREGS
and
PT_SETREGS
to modify the PC, passing
(caddr_t)1
to ptrace
(),
should be able to sidestep this.