NAME
ptrace — process tracing and debuggingLIBRARY
Standard C Library (libc, -lc)SYNOPSIS
#include <sys/types.h>#include <sys/ptrace.h> int
ptrace(int request, pid_t pid, caddr_t addr, int data);
DESCRIPTION
The ptrace() system call provides tracing and debugging facilities. It allows one process (the tracing process) to control another (the traced process). The tracing process must first attach to the traced process, and then issue a series of ptrace() system calls to control the execution of the process, as well as access process memory and register state. For the duration of the tracing session, the traced process will be “re-parented”, with its parent process ID (and resulting behavior) changed to the tracing process. It is permissible for a tracing process to attach to more than one other process at a time. When the tracing process has completed its work, it must detach the traced process; if a tracing process exits without first detaching all processes it has attached, those processes will be killed. 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 aSIGCHLD
signal, examine
the state of the stopped process, and cause it to terminate or continue as
appropriate. The signal may be a normal process signal, generated as a result
of traced process behavior, or use of the kill(2)
system call; alternatively, it may be generated by the tracing facility as a
result of attaching, stepping by the tracing process, or an event in the
traced process. The tracing process may choose to intercept the signal, using
it to observe process behavior (such as
SIGTRAP
), or forward the signal to the
process if appropriate. The ptrace() system call
is the mechanism by which all this happens.
A traced process may report additional signal stops corresponding to events in
the traced process. These additional signal stops are reported as
SIGTRAP
or
SIGSTOP
signals. The tracing process can
use the PT_LWPINFO
request to determine
which events are associated with a SIGTRAP
or SIGSTOP
signal. Note that multiple
events may be associated with a single signal. For example, events indicated
by the PL_FLAG_BORN
,
PL_FLAG_FORKED
, and
PL_FLAG_EXEC
flags are also reported as a
system call exit event (PL_FLAG_SCX
). The
signal stop for a new child process enabled via
PTRACE_FORK
will report a
SIGSTOP
signal. All other additional signal
stops use SIGTRAP
.
Each traced process has a tracing event mask. An event in the traced process
only reports a signal stop if the corresponding flag is set in the tracing
event mask. The current set of tracing event flags include:
PTRACE_EXEC
- Report a stop for a successful invocation of
execve(2). This event is indicated by the
PL_FLAG_EXEC
flag in the pl_flags member of struct ptrace_lwpinfo. PTRACE_SCE
- Report a stop on each system call entry. This event is
indicated by the
PL_FLAG_SCE
flag in the pl_flags member of struct ptrace_lwpinfo. PTRACE_SCX
- Report a stop on each system call exit. This event is
indicated by the
PL_FLAG_SCX
flag in the pl_flags member of struct ptrace_lwpinfo. PTRACE_SYSCALL
- Report stops for both system call entry and exit.
PTRACE_FORK
- This event flag controls tracing for new child processes of
a traced process.
When this event flag is enabled, new child processes will enable tracing and
stop before executing their first instruction. The new child process will
include the
PL_FLAG_CHILD
flag in the pl_flags member of struct ptrace_lwpinfo. The traced process will report a stop that includes thePL_FLAG_FORKED
flag. The process ID of the new child process will also be present in the pl_child_pid member of struct ptrace_lwpinfo. If the new child process was created via vfork(2), the traced process's stop will also include thePL_FLAG_VFORKED
flag. Note that new child processes will be attached with the default tracing event mask; they do not inherit the event mask of the traced process. When this event flag is not enabled, new child processes will execute without tracing enabled. PTRACE_LWP
- This event flag controls tracing of LWP (kernel thread)
creation and destruction. When this event is enabled, new LWPs will stop
and report an event with
PL_FLAG_BORN
set before executing their first instruction, and exiting LWPs will stop and report an event withPL_FLAG_EXITED
set before completing their termination. Note that new processes do not report an event for the creation of their initial thread, and exiting processes do not report an event for the termination of the last thread. PTRACE_VFORK
- Report a stop event when a parent process resumes after a
vfork(2).
When a thread in the traced process creates a new child process via
vfork(2), the stop that reports
PL_FLAG_FORKED
andPL_FLAG_SCX
occurs just after the child process is created, but before the thread waits for the child process to stop sharing process memory. If a debugger is not tracing the new child process, it must ensure that no breakpoints are enabled in the shared process memory before detaching from the new child process. This means that no breakpoints are enabled in the parent process either. ThePTRACE_VFORK
flag enables a new stop that indicates when the new child process stops sharing the process memory of the parent process. A debugger can reinsert breakpoints in the parent process and resume it in response to this event. This event is indicated by setting thePL_FLAG_VFORK_DONE
flag.
PT_ATTACH
,
PT_TRACE_ME
, or
PTRACE_FORK
includes only
PTRACE_EXEC
events. All other event flags
are disabled.
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 or a corresponding thread ID. The
request argument 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. If the child was created by vfork(2)
system call or rfork(2) call with the
RFMEM
flag specified, the debugging events are reported to the parent only after the execve(2) is executed. -
PT_READ_I
,PT_READ_D
- These requests read a single
int of data from the traced process's
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 FreeBSD implementation, these two requests are completely identical. The addr argument specifies the address (in the traced process's 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 from ptrace(). -
PT_WRITE_I
,PT_WRITE_D
- These requests parallel
PT_READ_I
andPT_READ_D
, except that they write rather than read. The data argument supplies the value to be written. PT_IO
- This request allows reading and writing arbitrary amounts of data in the traced process's address space. The addr argument specifies a pointer to a struct ptrace_io_desc, which is defined as follows: The data argument is ignored. The actual number of bytes read or written is stored in piod_len upon return.
PT_CONTINUE
- The traced process continues execution. The addr argument 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. The data argument 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_STEP
- The traced process is single stepped one instruction. The addr argument should be passed (caddr_t)1. The data argument 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 setuid or setgid executable. (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_GETREGS
- This request reads the traced process's machine registers into the “struct reg” (defined in <machine/reg.h>) pointed to by addr.
PT_SETREGS
- This request is the converse of
PT_GETREGS
; it loads the traced process's machine registers from the “struct reg” (defined in <machine/reg.h>) pointed to by addr. PT_GETFPREGS
- This request reads the traced process's floating-point registers into the “struct fpreg” (defined in <machine/reg.h>) pointed to by addr.
PT_SETFPREGS
- This request is the converse of
PT_GETFPREGS
; it loads the traced process's floating-point registers from the “struct fpreg” (defined in <machine/reg.h>) pointed to by addr. PT_GETDBREGS
- This request reads the traced process's debug registers into the “struct dbreg” (defined in <machine/reg.h>) pointed to by addr.
PT_SETDBREGS
- This request is the converse of
PT_GETDBREGS
; it loads the traced process's debug registers from the “struct dbreg” (defined in <machine/reg.h>) pointed to by addr. PT_LWPINFO
- This request can be used to obtain information about the
kernel thread, also known as light-weight process, that caused the traced
process to stop. The addr argument
specifies a pointer to a struct
ptrace_lwpinfo, which is defined as follows:
The data argument is to be set to the size
of the structure known to the caller. This allows the structure to grow
without affecting older programs.
The fields in the struct ptrace_lwpinfo
have the following meaning:
- pl_lwpid
- LWP id of the thread
- pl_event
- Event that caused the stop. Currently defined events
are:
PL_EVENT_NONE
- No reason given
PL_EVENT_SIGNAL
- Thread stopped due to the pending signal
- pl_flags
- Flags that specify additional details about observed
stop. Currently defined flags are:
PL_FLAG_SCE
- The thread stopped due to system call entry, right after the kernel is entered. The debugger may examine syscall arguments that are stored in memory and registers according to the ABI of the current process, and modify them, if needed.
PL_FLAG_SCX
- The thread is stopped immediately before syscall is returning to the usermode. The debugger may examine system call return values in the ABI-defined registers and/or memory.
PL_FLAG_EXEC
- When
PL_FLAG_SCX
is set, this flag may be additionally specified to inform that the program being executed by debuggee process has been changed by successful execution of a system call from the execve(2) family. PL_FLAG_SI
- Indicates that pl_siginfo member of struct ptrace_lwpinfo contains valid information.
PL_FLAG_FORKED
- Indicates that the process is returning from a call to fork(2) that created a new child process. The process identifier of the new process is available in the pl_child_pid member of struct ptrace_lwpinfo.
PL_FLAG_CHILD
- The flag is set for first event reported from a new
child which is automatically attached when
PTRACE_FORK
is enabled. PL_FLAG_BORN
- This flag is set for the first event reported from
a new LWP when
PTRACE_LWP
is enabled. It is reported along withPL_FLAG_SCX
. PL_FLAG_EXITED
- This flag is set for the last event reported by an
exiting LWP when
PTRACE_LWP
is enabled. Note that this event is not reported when the last LWP in a process exits. The termination of the last thread is reported via a normal process exit event. PL_FLAG_VFORKED
- Indicates that the thread is returning from a call
to vfork(2) that created a new child
process. This flag is set in addition to
PL_FLAG_FORKED
. PL_FLAG_VFORK_DONE
- Indicates that the thread has resumed after a child process created via vfork(2) has stopped sharing its address space with the traced process.
- pl_sigmask
- The current signal mask of the LWP
- pl_siglist
- The current pending set of signals for the LWP. Note that signals that are delivered to the process would not appear on an LWP siglist until the thread is selected for delivery.
- pl_siginfo
- The siginfo that accompanies the signal pending. Only
valid for
PL_EVENT_SIGNAL
stop whenPL_FLAG_SI
is set in pl_flags. - pl_tdname
- The name of the thread.
- pl_child_pid
- The process identifier of the new child process. Only
valid for a
PL_EVENT_SIGNAL
stop whenPL_FLAG_FORKED
is set in pl_flags. - pl_syscall_code
- The ABI-specific identifier of the current system call.
Note that for indirect system calls this field reports the indirected
system call. Only valid when
PL_FLAG_SCE
orPL_FLAG_SCX
is set in pl_flags. - pl_syscall_narg
- The number of arguments passed to the current system
call not counting the system call identifier. Note that for indirect
system calls this field reports the arguments passed to the indirected
system call. Only valid when
PL_FLAG_SCE
orPL_FLAG_SCX
is set in pl_flags.
PT_GETNUMLWPS
- This request returns the number of kernel threads associated with the traced process.
PT_GETLWPLIST
- This request can be used to get the current thread list. A pointer to an array of type lwpid_t should be passed in addr, with the array size specified by data. The return value from ptrace() is the count of array entries filled in.
PT_SETSTEP
- This request will turn on single stepping of the specified process. Stepping is automatically disabled when a single step trap is caught.
PT_CLEARSTEP
- This request will turn off single stepping of the specified process.
PT_SUSPEND
- This request will suspend the specified thread.
PT_RESUME
- This request will resume the specified thread.
PT_TO_SCE
- This request will set the
PTRACE_SCE
event flag to trace all future system call entries and continue the process. The addr and data arguments are used the same as forPT_CONTINUE.
PT_TO_SCX
- This request will set the
PTRACE_SCX
event flag to trace all future system call exits and continue the process. The addr and data arguments are used the same as forPT_CONTINUE.
PT_SYSCALL
- This request will set the
PTRACE_SYSCALL
event flag to trace all future system call entries and exits and continue the process. The addr and data arguments are used the same as forPT_CONTINUE.
PT_GET_SC_ARGS
- For the thread which is stopped in either
PL_FLAG_SCE
orPL_FLAG_SCX
state, that is, on entry or exit to a syscall, this request fetches the syscall arguments. The arguments are copied out into the buffer pointed to by the addr pointer, sequentially. Each syscall argument is stored as the machine word. Kernel copies out as many arguments as the syscall accepts, see the pl_syscall_narg member of the struct ptrace_lwpinfo, but not more than the data bytes in total are copied. PT_GET_SC_RET
- Fetch the system call return values on exit from a syscall.
This request is only valid for threads stopped in a syscall exit (the
PL_FLAG_SCX
state). The addr argument specifies a pointer to a struct ptrace_sc_ret, which is defined as follows: The data argument is set to the size of the structure. If the system call completed successfully, sr_error is set to zero and the return values of the system call are saved in sr_retval. If the system call failed to execute, sr_error field is set to a positive errno(2) value. If the system call completed in an unusual fashion, sr_error is set to a negative value:ERESTART
- System call will be restarted.
EJUSTRETURN
- System call completed sucessfully but did not set a return value (for example, setcontext(2) and sigreturn(2)).
PT_FOLLOW_FORK
- This request controls tracing for new child processes of a
traced process. If data is non-zero,
PTRACE_FORK
is set in the traced process's event tracing mask. If data is zero,PTRACE_FORK
is cleared from the traced process's event tracing mask. PT_LWP_EVENTS
- This request controls tracing of LWP creation and
destruction. If data is non-zero,
PTRACE_LWP
is set in the traced process's event tracing mask. If data is zero,PTRACE_LWP
is cleared from the traced process's event tracing mask. PT_GET_EVENT_MASK
- This request reads the traced process's event tracing mask into the integer pointed to by addr. The size of the integer must be passed in data.
PT_SET_EVENT_MASK
- This request sets the traced process's event tracing mask from the integer pointed to by addr. The size of the integer must be passed in data.
PT_VM_TIMESTAMP
- This request returns the generation number or timestamp of the memory map of the traced process as the return value from ptrace(). This provides a low-cost way for the tracing process to determine if the VM map changed since the last time this request was made.
PT_VM_ENTRY
- This request is used to iterate over the entries of the VM map of the traced process. The addr argument specifies a pointer to a struct ptrace_vm_entry, which is defined as follows: The first entry is returned by setting pve_entry to zero. Subsequent entries are returned by leaving pve_entry unmodified from the value returned by previous requests. The pve_timestamp field can be used to detect changes to the VM map while iterating over the entries. The tracing process can then take appropriate action, such as restarting. By setting pve_pathlen to a non-zero value on entry, the pathname of the backing object is returned in the buffer pointed to by pve_path, provided the entry is backed by a vnode. The pve_pathlen field is updated with the actual length of the pathname (including the terminating null character). The pve_offset field is the offset within the backing object at which the range starts. The range is located in the VM space at pve_start and extends up to pve_end (inclusive). The data argument is ignored.
ARM MACHINE-SPECIFIC REQUESTS
PT_GETVFPREGS
- Return the thread's
VFP
machine state in the buffer pointed to by addr. The data argument is ignored. PT_SETVFPREGS
- Set the thread's
VFP
machine state from the buffer pointed to by addr. The data argument is ignored.
x86 MACHINE-SPECIFIC REQUESTS
PT_GETXMMREGS
- Copy the XMM FPU state into the buffer pointed to by the
argument addr. The buffer has the same
layout as the 32-bit save buffer for the machine instruction
FXSAVE
. This request is only valid for i386 programs, both on native 32-bit systems and on amd64 kernels. For 64-bit amd64 programs, the XMM state is reported as part of the FPU state returned by thePT_GETFPREGS
request. The data argument is ignored. PT_SETXMMREGS
- Load the XMM FPU state for the thread from the buffer
pointed to by the argument addr. The
buffer has the same layout as the 32-bit load buffer for the machine
instruction
FXRSTOR
. As withPT_GETXMMREGS,
this request is only valid for i386 programs. The data argument is ignored. PT_GETXSTATE_INFO
- Report which XSAVE FPU extensions are supported by the CPU
and allowed in userspace programs. The
addr argument must point to a variable of
type struct ptrace_xstate_info, which
contains the information on the request return.
struct ptrace_xstate_info is defined as
follows:
The
xsave_mask
field is a bitmask of the currently enabled extensions. The meaning of the bits is defined in the Intel and AMD processor documentation. Thexsave_len
field reports the length of the XSAVE area for storing the hardware state for currently enabled extensions in the format defined by the x86XSAVE
machine instruction. The data argument value must be equal to the size of the struct ptrace_xstate_info. PT_GETXSTATE
- Return the content of the XSAVE area for the thread. The
addr argument points to the buffer where
the content is copied, and the data
argument specifies the size of the buffer. The kernel copies out as much
content as allowed by the buffer size. The buffer layout is specified by
the layout of the save area for the
XSAVE
machine instruction. PT_SETXSTATE
- Load the XSAVE state for the thread from the buffer
specified by the addr pointer. The buffer
size is passed in the data argument. The
buffer must be at least as large as the struct
savefpu (defined in x86/fpu.h) to allow
the complete x87 FPU and XMM state load. It must not be larger than the
XSAVE state length, as reported by the
xsave_len
field from the struct ptrace_xstate_info of thePT_GETXSTATE_INFO
request. Layout of the buffer is identical to the layout of the load area for theXRSTOR
machine instruction. PT_GETFSBASE
- Return the value of the base used when doing segmented memory addressing using the %fs segment register. The addr argument points to an unsigned long variable where the base value is stored. The data argument is ignored.
PT_GETGSBASE
- Like the
PT_GETFSBASE
request, but returns the base for the %gs segment register. PT_SETFSBASE
- Set the base for the %fs segment register to the value pointed to by the addr argument. addr must point to the unsigned long variable containing the new base. The data argument is ignored.
PT_SETGSBASE
- Like the
PT_SETFSBASE
request, but sets the base for the %gs segment register.
PowerPC MACHINE-SPECIFIC REQUESTS
PT_GETVRREGS
- Return the thread's
ALTIVEC
machine state in the buffer pointed to by addr. The data argument is ignored. PT_SETVRREGS
- Set the thread's
ALTIVEC
machine state from the buffer pointed to by addr. The data argument is ignored. PT_GETVSRREGS
- Return doubleword 1 of the thread's
VSX
registers VSR0-VSR31 in the buffer pointed to by addr. The data argument is ignored. PT_SETVSRREGS
- Set doubleword 1 of the thread's
VSX
registers VSR0-VSR31 from the buffer pointed to by addr. The data argument is ignored.
RETURN VALUES
Most requests return 0 on success and -1 on error. Some requests can cause ptrace() to return -1 as a non-error value, among them arePT_READ_I
and
PT_READ_D
, which return the value read from
the process memory on success. To disambiguate,
errno can be set to 0 before the call and
checked afterwards.
The current ptrace() implementation always sets
errno to 0 before calling into the kernel,
both for historic reasons and for consistency with other operating systems. It
is recommended to assign zero to errno
explicitly for forward compatibility.
ERRORS
The ptrace() system call may fail if:- [
ESRCH
] -
- No process having the specified process ID exists.
- [
EINVAL
] -
- A process attempted to use
PT_ATTACH
on itself. - The request argument 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
,PT_SETFPREGS
,PT_GETDBREGS
, orPT_SETDBREGS
was attempted on a process with no valid register set. (This is normally true only of system processes.) -
PT_VM_ENTRY
was given an invalid value for pve_entry. This can also be caused by changes to the VM map of the process. - The size (in data)
provided to
PT_LWPINFO
was less than or equal to zero, or larger than the ptrace_lwpinfo structure known to the kernel. - The size (in data)
provided to the x86-specific
PT_GETXSTATE_INFO
request was not equal to the size of the struct ptrace_xstate_info. - The size (in data)
provided to the x86-specific
PT_SETXSTATE
request was less than the size of the x87 plus the XMM save area. - The size (in data)
provided to the x86-specific
PT_SETXSTATE
request was larger than returned in thexsave_len
member of the struct ptrace_xstate_info from thePT_GETXSTATE_INFO
request. - The base value, provided to the amd64-specific
requests
PT_SETFSBASE
orPT_SETGSBASE
, pointed outside of the valid user address space. This error will not occur in 32-bit programs.
- 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 was not stopped.
-
- [
EPERM
] -
- A request (other than
PT_ATTACH
) attempted to manipulate a process that was not being traced at all. - An attempt was made to use
PT_ATTACH
on a process in violation of the requirements listed underPT_ATTACH
above.
- A request (other than
- [
ENOENT
] -
-
PT_VM_ENTRY
previously returned the last entry of the memory map. No more entries exist.
-
- [
ENAMETOOLONG
] -
-
PT_VM_ENTRY
cannot return the pathname of the backing object because the buffer is not big enough. pve_pathlen holds the minimum buffer size required on return.
-
SEE ALSO
execve(2), sigaction(2), wait(2), execv(3), i386_clr_watch(3), i386_set_watch(3)HISTORY
The ptrace() function appeared in Version 6 AT&T UNIX.July 15, 2019 | Debian |