drgn/libdrgn/drgn.h.in
Peter Collingbourne cf649b741a Add DRGN_PROGRAM_IS_LOCAL flag
Currently, when drgn is used to debug a running program, we assume it to
be running on the local machine. However, with remote debugging, this will
no longer be the case. To accommodate remote debugging, introduce a flag
DRGN_PROGRAM_IS_LOCAL, and use it to decide whether to use /sys/module.

Signed-off-by: Peter Collingbourne <pcc@google.com>
2023-10-06 16:09:58 -07:00

3227 lines
98 KiB
C

// Copyright (c) Meta Platforms, Inc. and affiliates.
// SPDX-License-Identifier: LGPL-2.1-or-later
/**
* @file
*
* libdrgn public interface.
*/
#ifndef DRGN_H
#define DRGN_H
// IWYU pragma: begin_exports
#include <stdbool.h>
#include <stddef.h>
#include <stdint.h>
// IWYU pragma: end_exports
#include <assert.h>
#include <limits.h>
#include <stdarg.h>
#include <stdio.h>
#include <string.h>
#include <sys/types.h>
/**
* @mainpage
*
* libdrgn provides the functionality of the
* [drgn](https://github.com/osandov/drgn) programmable debugger as a library.
* It implements the main drgn abstractions: @ref Programs, @ref Types, @ref
* Objects, and @ref StackTraces. See [Modules](modules.html) for detailed
* documentation.
*
* @subsection ThreadSafety Thread Safety
*
* Only one thread at a time should access the same @ref drgn_program (including
* @ref drgn_object, @ref drgn_type, @ref drgn_stack_trace, etc. from that
* program). It is safe to use different @ref drgn_program%s from concurrent
* threads.
*/
/** Major version of drgn. */
#define DRGN_VERSION_MAJOR @DRGN_VERSION_MAJOR@
/** Minor version of drgn. */
#define DRGN_VERSION_MINOR @DRGN_VERSION_MINOR@
/** Patch level of drgn. */
#define DRGN_VERSION_PATCH @DRGN_VERSION_PATCH@
/**
* @defgroup ErrorHandling Error handling
*
* Error handling in libdrgn.
*
* Operations in libdrgn can fail for various reasons. libdrgn returns errors as
* @ref drgn_error.
*
* @{
*/
/** Error code for a @ref drgn_error. */
enum drgn_error_code {
/** Cannot allocate memory. */
DRGN_ERROR_NO_MEMORY,
/** Stop iteration. */
DRGN_ERROR_STOP,
/** Miscellaneous error. */
DRGN_ERROR_OTHER,
/** Invalid argument. */
DRGN_ERROR_INVALID_ARGUMENT,
/** Integer overflow. */
DRGN_ERROR_OVERFLOW,
/** Maximum recursion depth exceeded. */
DRGN_ERROR_RECURSION,
/** System call error. */
DRGN_ERROR_OS,
/** One or more files do not have debug information. */
DRGN_ERROR_MISSING_DEBUG_INFO,
/** Syntax error while parsing. */
DRGN_ERROR_SYNTAX,
/** Entry not found. */
DRGN_ERROR_LOOKUP,
/** Bad memory access. */
DRGN_ERROR_FAULT,
/** Type error in expression. */
DRGN_ERROR_TYPE,
/** Division by zero. */
DRGN_ERROR_ZERO_DIVISION,
/** Array out of bounds */
DRGN_ERROR_OUT_OF_BOUNDS,
/** Operation was attempted with absent object. */
DRGN_ERROR_OBJECT_ABSENT,
/** Functionality is not implemented. */
DRGN_ERROR_NOT_IMPLEMENTED,
/** Number of defined error codes. */
DRGN_NUM_ERROR_CODES,
} __attribute__((__packed__));
/**
* libdrgn error.
*
* All functions in libdrgn that can return an error return this type.
*/
struct drgn_error {
/** Error code. */
enum drgn_error_code code;
/**
* @private
*
* Whether this error needs to be passed to @ref drgn_error_destroy().
*
* This is @c true for the error codes returned from @ref
* drgn_error_create() and its related functions. Certain errors are
* statically allocated and do not need to be passed to @ref
* drgn_error_destroy() (but they can be).
*/
bool needs_destroy;
/**
* If @c code is @c DRGN_ERROR_OS, then the error number returned from
* the system call.
*/
int errnum;
/**
* If @c code is @c DRGN_ERROR_OS, then the path of the file which
* encountered the error if applicable. Otherwise, @c NULL.
*/
char *path;
/**
* If @c code is @c DRGN_ERROR_FAULT, then the address of the read
* which encountered the error.
*/
uint64_t address;
/** Human-readable error message. */
char *message;
};
/**
* Out of memory @ref drgn_error.
*
* This has a code of @ref DRGN_ERROR_NO_MEMORY. It can be returned if a memory
* allocation fails in order to avoid doing another memory allocation. It does
* not need to be passed to @ref drgn_error_destroy() (but it can be).
*/
extern struct drgn_error drgn_enomem;
/**
* Non-fatal lookup @ref drgn_error.
*
* This has a code of @ref DRGN_ERROR_LOOKUP. It does not need to be passed to
* @ref drgn_error_destroy() (but it can be).
*/
extern struct drgn_error drgn_not_found;
/**
* Create a @ref drgn_error.
*
* @param[in] code Error code.
* @param[in] message Human-readable error message. This string is copied.
* @return A new error with the given code and message. If there is a failure to
* allocate memory for the error or the message, @ref drgn_enomem is returned
* instead.
*/
struct drgn_error *drgn_error_create(enum drgn_error_code code,
const char *message)
__attribute__((__returns_nonnull__));
/**
* Create a @ref drgn_error from a printf-style format.
*
* @param[in] code Error code.
* @param[in] format printf-style format string.
* @param[in] ... Arguments for the format string.
* @return A new error with the given code and formatted message. If there is a
* failure to allocate memory for the error or the message, @ref drgn_enomem is
* returned instead.
*/
struct drgn_error *drgn_error_format(enum drgn_error_code code,
const char *format, ...)
__attribute__((__returns_nonnull__, __format__(__printf__, 2, 3)));
/**
* Create a @ref DRGN_ERROR_OS @ref drgn_error.
*
* @sa drgn_error_create().
*
* @param[in] errnum Error number (i.e., @c errno).
* @param[in] path If not @c NULL, the path of the file which encountered the
* error. This string is copied.
*/
struct drgn_error *drgn_error_create_os(const char *message, int errnum,
const char *path)
__attribute__((__returns_nonnull__));
/**
* Create a @ref DRGN_ERROR_OS @ref drgn_error with a printf-style formatted
* path.
*
* @param[in] errnum Error number (i.e., @c errno).
* @param[in] path_format printf-style format string for path.
* @param[in] ... Arguments for the format string.
*/
struct drgn_error *drgn_error_format_os(const char *message, int errnum,
const char *path_format, ...)
__attribute__((__returns_nonnull__, __format__(__printf__, 3, 4)));
/**
* Create a @ref DRGN_ERROR_FAULT @ref drgn_error.
*
* @param[in] message Human-readable error message. This string is copied.
* @param[in] address Address where the fault happened.
*/
struct drgn_error *drgn_error_create_fault(const char *message, uint64_t address)
__attribute__((__returns_nonnull__));
/**
*
* Create a @ref DRGN_ERROR_FAULT @ref drgn_error with a printf-style formatted
* message.
*
* @param[in] address Address where the fault happened.
* @param[in] format printf-style format string for message.
* @param[in] ... Arguments for the format string.
*/
struct drgn_error *drgn_error_format_fault(uint64_t address,
const char *format, ...)
__attribute__((__returns_nonnull__, __format__(__printf__, 2, 3)));
/*
* Create a copy of a @ref drgn_error.
*
* The source's error message and path are copied if necessary, so the source
* error can be destroyed without affecting the new error and vice versa.
*
* @param[in] src Error to copy.
* @return A new error with the same fields. If there is a failure to allocate
* memory, @ref drgn_enomem is returned instead.
*/
struct drgn_error *drgn_error_copy(struct drgn_error *src)
__attribute__((__returns_nonnull__));
/**
* Return a string representation of a @ref drgn_error.
*
* @param[in] err Error to write.
* @return Returned string, or @c NULL if memory could not be allocated. On
* success, must be freed with @c free().
*/
char *drgn_error_string(struct drgn_error *err);
/**
* Write a @ref drgn_error followed by a newline to a @c stdio stream.
*
* @param[in] file File to write to (usually @c stderr).
* @param[in] err Error to write.
* @return Non-negative on success, negative on failure.
*/
int drgn_error_fwrite(FILE *file, struct drgn_error *err);
/**
* Write a @ref drgn_error followed by a newline to a file descriptor.
*
* @param[in] fd File descriptor to write to.
* @param[in] err Error to write.
* @return Non-negative on success, negative on failure.
*/
int drgn_error_dwrite(int fd, struct drgn_error *err);
/**
* Free a @ref drgn_error.
*
* This must be called on any error returned from libdrgn unless otherwise
* noted.
*
* @param[in] err Error to destroy. If @c NULL, this is a no-op.
*/
void drgn_error_destroy(struct drgn_error *err);
/** @} */
/**
* @defgroup Languages Languages
*
* Programming languages.
*
* @{
*/
struct drgn_language; // IWYU pragma: export
/** C */
extern const struct drgn_language drgn_language_c;
/** C++ */
extern const struct drgn_language drgn_language_cpp;
/** Get the name of a @ref drgn_language. */
const char *drgn_language_name(const struct drgn_language *lang);
/** @} */
/**
* @ingroup Types
*
* Kinds of types.
*
* Every type in a program supported by libdrgn falls into one of these
* categories.
*/
enum drgn_type_kind {
/** Void type. */
DRGN_TYPE_VOID = 1,
/** Integer type. */
DRGN_TYPE_INT,
/** Boolean type. */
DRGN_TYPE_BOOL,
/** Floating-point type. */
DRGN_TYPE_FLOAT,
/** Structure type. */
DRGN_TYPE_STRUCT,
/** Union type. */
DRGN_TYPE_UNION,
/** Class type. */
DRGN_TYPE_CLASS,
/** Enumerated type. */
DRGN_TYPE_ENUM,
/** Type definition (a.k.a.\ alias) type. */
DRGN_TYPE_TYPEDEF,
/** Pointer type. */
DRGN_TYPE_POINTER,
/** Array type. */
DRGN_TYPE_ARRAY,
/** Function type. */
DRGN_TYPE_FUNCTION,
} __attribute__((__packed__));
/**
* @ingroup Types
*
* Type qualifiers.
*
* Some languages, like C, have the notion of qualifiers which add properties to
* a type. Qualifiers are represented as a bitmask; each qualifier is a bit.
*/
enum drgn_qualifiers {
/** Constant type. */
DRGN_QUALIFIER_CONST = (1 << 0),
/** Volatile type. */
DRGN_QUALIFIER_VOLATILE = (1 << 1),
/** Restrict type. */
DRGN_QUALIFIER_RESTRICT = (1 << 2),
/** Atomic type. */
DRGN_QUALIFIER_ATOMIC = (1 << 3),
/** Bitmask of all valid qualifiers. */
DRGN_ALL_QUALIFIERS = (1 << 4) - 1,
} __attribute__((__packed__));
/**
* @ingroup Types
*
* Qualified type.
*
* A type with qualifiers.
*
* @sa drgn_qualifiers
*/
struct drgn_qualified_type {
/** Unqualified type. */
struct drgn_type *type;
/** Bitmask of qualifiers on this type. */
enum drgn_qualifiers qualifiers;
};
static inline struct drgn_program *
drgn_type_program(struct drgn_type *type);
static inline const struct drgn_language *
drgn_type_language(struct drgn_type *type);
/**
* @defgroup Platforms Platforms
*
* Program platforms (i.e., architecture and ABI).
*
* @{
*/
/** An instruction set architecture. */
enum drgn_architecture {
DRGN_ARCH_UNKNOWN,
DRGN_ARCH_X86_64,
DRGN_ARCH_I386,
DRGN_ARCH_AARCH64,
DRGN_ARCH_ARM,
DRGN_ARCH_PPC64,
DRGN_ARCH_RISCV64,
DRGN_ARCH_RISCV32,
DRGN_ARCH_S390X,
DRGN_ARCH_S390,
};
/** Flags describing a @ref drgn_platform. */
enum drgn_platform_flags {
/** Platform is 64-bit. */
DRGN_PLATFORM_IS_64_BIT = (1 << 0),
/** Platform is little-endian. */
DRGN_PLATFORM_IS_LITTLE_ENDIAN = (1 << 1),
/** All valid platform flags. */
DRGN_ALL_PLATFORM_FLAGS = (1 << 2) - 1,
/** Use the default flags for the architecture. */
DRGN_PLATFORM_DEFAULT_FLAGS = UINT_MAX,
};
/**
* @struct drgn_platform
*
* The environment that a program runs on.
*/
struct drgn_platform; // IWYU pragma: export
/**
* @struct drgn_register
*
* A processor register.
*/
struct drgn_register; // IWYU pragma: export
/**
* Create a @ref drgn_platform.
*
* The returned platform should be destroyed with @ref drgn_platform_destroy().
*/
struct drgn_error *drgn_platform_create(enum drgn_architecture arch,
enum drgn_platform_flags flags,
struct drgn_platform **ret);
/** Destroy a @ref drgn_platform. */
void drgn_platform_destroy(struct drgn_platform *platform);
/** Get the instruction set architecture of a @ref drgn_platform. */
enum drgn_architecture drgn_platform_arch(const struct drgn_platform *platform);
/** Get the flags of a @ref drgn_platform. */
enum drgn_platform_flags
drgn_platform_flags(const struct drgn_platform *platform);
/** Get the number of @ref drgn_register's on a @ref drgn_platform. */
size_t drgn_platform_num_registers(const struct drgn_platform *platform);
/** Get the @p n-th @ref drgn_register of a @ref drgn_platform. */
const struct drgn_register *
drgn_platform_register(const struct drgn_platform *platform, size_t n);
/** Get a @ref drgn_register in a @ref drgn_platform by its name. */
const struct drgn_register *
drgn_platform_register_by_name(const struct drgn_platform *platform,
const char *name);
/** Return whether two platforms are identical. */
bool drgn_platform_eq(struct drgn_platform *a, struct drgn_platform *b);
/** Platform that drgn was compiled for. */
extern const struct drgn_platform drgn_host_platform;
/**
* Get the names of a @ref drgn_register.
*
* @param[out] num_names_ret Returned number of names.
* @return Array of names.
*/
const char * const *drgn_register_names(const struct drgn_register *reg,
size_t *num_names_ret);
/** @} */
struct drgn_object;
struct drgn_thread;
/**
* @defgroup Programs Programs
*
* Debugging programs.
*
* A program being debugged is represented by a @ref drgn_program.
*
* @{
*/
/**
* @struct drgn_program
*
* Program being debugged.
*
* A @ref drgn_program represents a crashed or running program. It supports
* looking up objects (@ref drgn_program_find_object()) and types (@ref
* drgn_program_find_type()) by name and reading arbitrary memory from the
* program (@ref drgn_program_read_memory()).
*
* A @ref drgn_program is created with @ref drgn_program_from_core_dump(), @ref
* drgn_program_from_kernel(), or @ref drgn_program_from_pid(). It must be freed
* with @ref drgn_program_destroy().
*/
struct drgn_program; // IWYU pragma: export
/** Flags which apply to a @ref drgn_program. */
enum drgn_program_flags {
/** The program is the Linux kernel. */
DRGN_PROGRAM_IS_LINUX_KERNEL = (1 << 0),
/** The program is currently running. */
DRGN_PROGRAM_IS_LIVE = (1 << 1),
/** The program is running on the local machine. */
DRGN_PROGRAM_IS_LOCAL = (1 << 2),
};
/**
* Create a @ref drgn_program.
*
* Usually, @ref drgn_program_from_core_dump(), @ref drgn_program_from_kernel(),
* and @ref drgn_program_from_pid() are more convenient to use. However, this
* can be used if more flexibility is required.
*
* @param[in] platform Platform that this program runs on, or @c NULL if it
* should be determined automatically. This is copied.
* @param[out] ret Returned program.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_create(const struct drgn_platform *platform,
struct drgn_program **ret);
/**
* Free a @ref drgn_program.
*
* @param[in] prog Program to free.
*/
void drgn_program_destroy(struct drgn_program *prog);
/**
* Callback implementing a memory read.
*
* @param[out] buf Buffer to read into.
* @param[in] address Address which we are reading from.
* @param[in] count Number of bytes to read.
* @param[in] offset Offset in bytes of @p address from the beginning of the
* segment.
* @param[in] arg Argument passed to @ref drgn_program_add_memory_segment().
* @param[in] physical Whether @c address is physical.
* @return @c NULL on success, non-@c NULL on error.
*/
typedef struct drgn_error *(*drgn_memory_read_fn)(void *buf, uint64_t address,
size_t count, uint64_t offset,
void *arg, bool physical);
/**
* Register a segment of memory in a @ref drgn_program.
*
* If the segment overlaps a previously registered segment, the new segment
* takes precedence. If any part of the segment is beyond the maximum address,
* that part is ignored.
*
* @param[in] address Address of the segment.
* @param[in] size Size of the segment in bytes.
* @param[in] read_fn Callback to read from segment.
* @param[in] arg Argument to pass to @p read_fn.
* @param[in] physical Whether to add a physical memory segment.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_program_add_memory_segment(struct drgn_program *prog, uint64_t address,
uint64_t size, drgn_memory_read_fn read_fn,
void *arg, bool physical);
/**
* Return whether a filename containing a definition (@p haystack) matches a
* filename being searched for (@p needle).
*
* The path is matched from right to left, so a definition in
* <tt>/usr/include/stdio.h</tt> will match <tt>stdio.h</tt>,
* <tt>include/stdio.h</tt>, <tt>usr/include/stdio.h</tt>, and
* <tt>/usr/include/stdio.h</tt>. An empty or @c NULL @p needle matches any @p
* haystack.
*/
bool drgn_filename_matches(const char *haystack, const char *needle);
/**
* Callback for finding a type.
*
* @param[in] kinds Kinds of types to find, as a bitmask of bits shifted by @ref
* drgn_type_kind. E.g., `(1 << DRGN_TYPE_STRUCT) | (1 << DRGN_TYPE_CLASS)`
* means to find a structure or class type.
* @param[in] name Name of type (or tag, for structs, unions, and enums). This
* is @em not null-terminated.
* @param[in] name_len Length of @p name.
* @param[in] filename Filename containing the type definition or @c NULL. This
* should be matched with @ref drgn_filename_matches().
* @param[in] arg Argument passed to @ref drgn_program_add_type_finder().
* @param[out] ret Returned type.
* @return @c NULL on success, non-@c NULL on error. In particular, if the type
* is not found, this should return &@ref drgn_not_found; any other errors are
* considered fatal.
*/
typedef struct drgn_error *
(*drgn_type_find_fn)(uint64_t kinds, const char *name, size_t name_len,
const char *filename, void *arg,
struct drgn_qualified_type *ret);
/**
* Register a type finding callback.
*
* Callbacks are called in reverse order of the order they were added until the
* type is found. So, more recently added callbacks take precedence.
*
* @param[in] fn The callback.
* @param[in] arg Argument to pass to @p fn.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_program_add_type_finder(struct drgn_program *prog, drgn_type_find_fn fn,
void *arg);
/** Flags for @ref drgn_program_find_object(). */
enum drgn_find_object_flags {
/** Find a constant (e.g., enumeration constant or macro). */
DRGN_FIND_OBJECT_CONSTANT = 1 << 0,
/** Find a function. */
DRGN_FIND_OBJECT_FUNCTION = 1 << 1,
/** Find a variable. */
DRGN_FIND_OBJECT_VARIABLE = 1 << 2,
/** Find any kind of object. */
DRGN_FIND_OBJECT_ANY = (1 << 3) - 1,
};
/**
* Callback for finding an object.
*
* @param[in] name Name of object. This is @em not null-terminated.
* @param[in] name_len Length of @p name.
* @param[in] filename Filename containing the object definition or @c NULL.
* This should be matched with @ref drgn_filename_matches().
* @param[in] flags Flags indicating what kind of object to look for.
* @param[in] arg Argument passed to @ref drgn_program_add_object_finder().
* @param[out] ret Returned object. This must only be modified on success.
* @return @c NULL on success, non-@c NULL on error. In particular, if the
* object is not found, this should return &@ref drgn_not_found; any other
* errors are considered fatal.
*/
typedef struct drgn_error *
(*drgn_object_find_fn)(const char *name, size_t name_len, const char *filename,
enum drgn_find_object_flags flags, void *arg,
struct drgn_object *ret);
/**
* Register a object finding callback.
*
* Callbacks are called in reverse order of the order they were added until the
* object is found. So, more recently added callbacks take precedence.
*
* @param[in] fn The callback.
* @param[in] arg Argument to pass to @p fn.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_program_add_object_finder(struct drgn_program *prog,
drgn_object_find_fn fn, void *arg);
/**
* Set a @ref drgn_program to a core dump.
*
* @sa drgn_program_from_core_dump()
*
* @param[in] path Core dump file path.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_set_core_dump(struct drgn_program *prog,
const char *path);
/**
* Set a @ref drgn_program to a core dump from a file descriptor.
*
* @param[in] path Core dump file descriptor.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_set_core_dump_fd(struct drgn_program *prog, int fd);
/**
* Set a @ref drgn_program to the running operating system kernel.
*
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_set_kernel(struct drgn_program *prog);
/**
* Set a @ref drgn_program to a running process.
*
* @sa drgn_program_from_pid()
*
* @param[in] pid Process ID.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_set_pid(struct drgn_program *prog, pid_t pid);
/**
* Load debugging information for a list of executable or library files.
*
* @param[in] load_default Whether to also load debugging information which can
* automatically be determined from the program. This implies @p load_main.
* @param[in] load_main Whether to also load information for the main
* executable.
*/
struct drgn_error *drgn_program_load_debug_info(struct drgn_program *prog,
const char **paths, size_t n,
bool load_default,
bool load_main);
/**
* Create a @ref drgn_program from a core dump file.
*
* The type of program (e.g., userspace or kernel) is determined automatically.
*
* @param[in] path Core dump file path.
* @param[out] ret Returned program.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_from_core_dump(const char *path,
struct drgn_program **ret);
/**
* Create a @ref drgn_program from a core dump file descriptor.
*
* Same as @ref drgn_program_from_core_dump but with an already-opened file
* descriptor.
*
* @param[in] fd Core dump file path descriptor.
* @param[out] ret Returned program.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_from_core_dump_fd(int fd,
struct drgn_program **ret);
/**
* Create a @ref drgn_program from the running operating system kernel.
*
* This requires root privileges.
*
* @param[out] ret Returned program.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_from_kernel(struct drgn_program **ret);
/**
* Create a @ref drgn_program from the a running program.
*
* On Linux, this requires @c PTRACE_MODE_ATTACH_FSCREDS permissions (see
* <tt>ptrace(2)</tt>).
*
* @param[in] pid Process ID of the program to debug.
* @param[out] ret Returned program.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_from_pid(pid_t pid, struct drgn_program **ret);
/** Get the set of @ref drgn_program_flags applying to a @ref drgn_program. */
enum drgn_program_flags drgn_program_flags(struct drgn_program *prog);
/**
* Get the platform of a @ref drgn_program.
*
* This remains valid until the program is destroyed. It should @em not be
* destroyed with @ref drgn_platform_destroy().
* @return non-@c NULL on success, @c NULL if the platform is not known yet.
*/
const struct drgn_platform *drgn_program_platform(struct drgn_program *prog);
/** Get the default language of a @ref drgn_program. */
const struct drgn_language *drgn_program_language(struct drgn_program *prog);
/** Set the default language of a @ref drgn_program. */
void drgn_program_set_language(struct drgn_program *prog,
const struct drgn_language *lang);
/**
* Read from a program's memory.
*
* @param[in] prog Program to read from.
* @param[out] buf Buffer to read into.
* @param[in] address Starting address in memory to read.
* @param[in] count Number of bytes to read.
* @param[in] physical Whether @c address is physical. A program may support
* only virtual or physical addresses or both.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_read_memory(struct drgn_program *prog,
void *buf, uint64_t address,
size_t count, bool physical);
/**
* Read a C string from a program's memory.
*
* This reads up to and including the terminating null byte.
*
* @param[in] prog Program to read from.
* @param[in] address Starting address in memory to read.
* @param[in] physical Whether @c address is physical. See @ref
* drgn_program_read_memory().
* @param[in] max_size Stop after this many bytes are read, not including the
* null byte. A null byte is appended to @p ret in this case.
* @param[out] ret Returned string. On success, it must be freed with @c free().
* On error, it is not modified.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_read_c_string(struct drgn_program *prog,
uint64_t address, bool physical,
size_t max_size, char **ret);
struct drgn_error *drgn_program_read_u8(struct drgn_program *prog,
uint64_t address, bool physical,
uint8_t *ret);
struct drgn_error *drgn_program_read_u16(struct drgn_program *prog,
uint64_t address, bool physical,
uint16_t *ret);
struct drgn_error *drgn_program_read_u32(struct drgn_program *prog,
uint64_t address, bool physical,
uint32_t *ret);
struct drgn_error *drgn_program_read_u64(struct drgn_program *prog,
uint64_t address, bool physical,
uint64_t *ret);
struct drgn_error *drgn_program_read_word(struct drgn_program *prog,
uint64_t address, bool physical,
uint64_t *ret);
/**
* Find a type in a program by name.
*
* The returned type is valid for the lifetime of the @ref drgn_program.
*
* @param[in] prog Program.
* @param[in] name Name of the type.
* @param[in] filename Filename containing the type definition. This is matched
* with @ref drgn_filename_matches(). If multiple definitions match, one is
* returned arbitrarily.
* @param[out] ret Returned type.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_find_type(struct drgn_program *prog,
const char *name,
const char *filename,
struct drgn_qualified_type *ret);
/**
* Find an object in a program by name.
*
* The object can be a variable, constant, or function depending on @p flags.
*
* @param[in] prog Program.
* @param[in] name Name of the object.
* @param[in] filename Filename containing the object definition. This is
* matched with @ref drgn_filename_matches(). If multiple definitions match, one
* is returned arbitrarily.
* @param[in] flags Flags indicating what kind of object to look for.
* @param[out] ret Returned object. This must have already been initialized with
* @ref drgn_object_init().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_find_object(struct drgn_program *prog,
const char *name,
const char *filename,
enum drgn_find_object_flags flags,
struct drgn_object *ret);
/**
* @ingroup Symbols
*
* @struct drgn_symbol
*
* A @ref drgn_symbol represents an entry in a program's symbol table.
*/
struct drgn_symbol; // IWYU pragma: export
/**
* Get the symbol containing the given address.
*
* @param[out] ret The returned symbol. It should be freed with @ref
* drgn_symbol_destroy().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_program_find_symbol_by_address(struct drgn_program *prog, uint64_t address,
struct drgn_symbol **ret);
/**
* Get the symbol corresponding to the given name.
*
* @param[out] ret The returned symbol. It should be freed with @ref
* drgn_symbol_destroy().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_find_symbol_by_name(struct drgn_program *prog,
const char *name,
struct drgn_symbol **ret);
/**
* Get all global and local symbols, optionally with the given name.
*
* @param[in] prog Program.
* @param[in] name Name to match. If @c NULL, returns all symbols.
* @param[out] syms_ret Returned array of symbols. On success, this must be
* freed with @ref drgn_symbols_destroy().
* @param[out] count_ret Returned number of symbols in @p syms_ret.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_find_symbols_by_name(struct drgn_program *prog,
const char *name,
struct drgn_symbol ***syms_ret,
size_t *count_ret);
/**
* Get all symbols containing the given address.
*
* @param[in] prog Program.
* @param[in] address Address to search for.
* @param[out] syms_ret Returned array of symbols. On success, this must be
* freed with @ref drgn_symbols_destroy().
* @param[out] count_ret Returned number of symbols in @p syms_ret.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_find_symbols_by_address(struct drgn_program *prog,
uint64_t address,
struct drgn_symbol ***syms_ret,
size_t *count_ret);
/** Element type and size. */
struct drgn_element_info {
/** Type of the element. */
struct drgn_qualified_type qualified_type;
/**
* Size in bits of one element.
*
* Element @c i is at bit offset <tt>i * bit_size</tt>.
*/
uint64_t bit_size;
};
/**
* Get the element type and size of an array or pointer @ref drgn_type.
*
* @param[in] prog Program.
* @param[in] type Array or pointer. After this function is called, this type
* must remain valid until the program is destroyed.
* @param[out] ret Returned element information.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_element_info(struct drgn_program *prog,
struct drgn_type *type,
struct drgn_element_info *ret);
/** @} */
/**
* @defgroup Logging Logging
*
* Logging configuration.
*
* drgn can log to a file (@ref drgn_program_set_log_file()) or an arbitrary
* callback (@ref drgn_program_set_log_callback()). Messages can be filtered
* based on the log level (@ref drgn_program_set_log_level()).
*
* By default, the log file is set to `stderr` and the log level is @ref
* DRGN_LOG_NONE, so logging is disabled.
*
* @{
*/
/** Log levels. */
enum drgn_log_level {
DRGN_LOG_DEBUG = 0,
DRGN_LOG_INFO = 1,
DRGN_LOG_WARNING = 2,
DRGN_LOG_ERROR = 3,
DRGN_LOG_CRITICAL = 4,
};
/** Don't log anything. */
#define DRGN_LOG_NONE (DRGN_LOG_CRITICAL + 1)
/**
* Set the minimum log level.
*
* Messages below this level will not be logged.
*
* @param[in] level Minimum @ref drgn_log_level to log, or @ref DRGN_LOG_NONE to
* disable logging.
*/
void drgn_program_set_log_level(struct drgn_program *prog, int level);
/**
* Get the minimum log level.
*
* @return Minimum @ref drgn_log_level being logged, or @ref DRGN_LOG_NONE if
* logging is disabled.
*/
int drgn_program_get_log_level(struct drgn_program *prog);
/** Write logs to the given file. */
void drgn_program_set_log_file(struct drgn_program *prog, FILE *file);
/**
* Log callback.
*
* @param[in] prog Program message was logged to.
* @param[in] arg `callback_arg` passed to @ref drgn_program_set_log_callback().
* @param[in] level Message level.
* @param[in] format printf-style format of message.
* @param[in] ap Arguments for @p format.
* @param[in] err Error to append after formatted message if non-@c NULL. This
* can be formatted with @ref drgn_error_string(), @ref drgn_error_fwrite(), or
* @ref drgn_error_dwrite().
*/
typedef void drgn_log_fn(struct drgn_program *prog, void *arg,
enum drgn_log_level level, const char *format,
va_list ap, struct drgn_error *err);
/**
* Set a callback to log to.
*
* @param[in] callback Callback to call for each log message. This is only
* called if the message's level is at least the current log level.
* @param[in] callback_arg Argument to pass to callback.
*/
void drgn_program_set_log_callback(struct drgn_program *prog,
drgn_log_fn *callback, void *callback_arg);
/**
* Get the current log callback.
*
* @param[out] callback_ret Returned callback.
* @param[out] callback_arg_ret Returned callback argument.
*/
void drgn_program_get_log_callback(struct drgn_program *prog,
drgn_log_fn **callback_ret,
void **callback_arg_ret);
/** @} */
/**
* @defgroup Embedding Embedding
*
* Embedding drgn in another runtime.
*
* @{
*/
/**
* Callback before a blocking operation.
*
* @param[in] arg @c callback_arg passed to @ref
* drgn_program_set_blocking_callback().
* @return Opaque pointer to pass to @ref drgn_program_end_blocking_fn().
*/
typedef void *drgn_program_begin_blocking_fn(struct drgn_program *prog,
void *arg);
/**
* Callback after a blocking operation.
*
* @param[in] arg @c callback_arg passed to @ref
* drgn_program_set_blocking_callback().
* @param[in] state Return value of @ref drgn_program_begin_blocking_fn().
*/
typedef void drgn_program_end_blocking_fn(struct drgn_program *prog,
void *arg, void *state);
/**
* Set callbacks around blocking operations.
*
* These callbacks will be called around blocking I/O operations and
* long-running computations. They are intended for things like releasing the
* [global interpreter
* lock](https://docs.python.org/3/glossary.html#term-global-interpreter-lock).
*
* @param[in] begin_callback Callback called before a blocking operation. Can be
* @c NULL to unset.
* @param[in] end_callback Callback called after a blocking operation. Can be @c
* NULL to unset.
* @param[in] callback_arg Argument passed to @p begin_callback and @p
* end_callback.
*/
void
drgn_program_set_blocking_callback(struct drgn_program *prog,
drgn_program_begin_blocking_fn *begin_callback,
drgn_program_end_blocking_fn *end_callback,
void *callback_arg);
/**
* Get callbacks set by @ref drgn_program_set_blocking_callback().
*
* @param[out] begin_callback_ret Returned @c begin_callback.
* @param[out] end_callback_ret Returned @c end_callback.
* @param[out] callback_arg_ret Returned @c callback_arg.
*/
void
drgn_program_get_blocking_callback(struct drgn_program *prog,
drgn_program_begin_blocking_fn **begin_callback_ret,
drgn_program_end_blocking_fn **end_callback_ret,
void **callback_arg_ret);
/** @} */
/**
* @defgroup Objects Objects
*
* Objects in a program.
*
* A @ref drgn_object represents an object (e.g., variable, constant, or
* function) in a program.
*
* Various operators and helpers are defined on objects; see @ref
* ObjectOperators and @ref ObjectHelpers.
*
* Many operations are language-specific. C is currently the only supported
* language.
*
* In drgn's emulation of C:
*
* - Signed and unsigned integer arithmetic is reduced modulo 2^width.
* - Integer division truncates towards zero.
* - Modulo has the sign of the dividend.
* - Division or modulo by 0 returns an error.
* - Shifts are reduced modulo 2^width. In particular, a shift by a value
* greater than the width returns 0.
* - Shifts by a negative number return an error.
* - Bitwise operators on signed integers act on the two's complement
* representation.
* - Pointer arithmetic is supported.
* - Integer literal have the first type of @c int, @c long, <tt>long long</tt>,
* and <tt>unsigned long long</tt> which can represent the value.
* - Boolean literals have type @c int (@b not @c _Bool).
* - Floating-point literals have type @c double.
* @{
*/
/** Kinds of objects. */
enum drgn_object_kind {
/** Constant or temporary computed value. */
DRGN_OBJECT_VALUE,
/** In program memory. */
DRGN_OBJECT_REFERENCE,
/** Absent (e.g. optimized out). */
DRGN_OBJECT_ABSENT,
} __attribute__((__packed__));
/**
* Object encodings.
*
* The value of a @ref drgn_object may be encoded in various ways depending on
* its type. This determines which field of a @ref drgn_value is used.
*
* The incomplete encodings are only possible for reference objects; values have
* a complete type.
*/
enum drgn_object_encoding {
/**
* Memory buffer.
*
* This is used for objects with a structure, union, class, or array
* type.
*/
DRGN_OBJECT_ENCODING_BUFFER,
/**
* Signed integer.
*
* This is used for objects with a signed integer or signed enumerated
* type no larger than 64 bits.
*/
DRGN_OBJECT_ENCODING_SIGNED,
/**
* Unsigned integer.
*
* This is used for objects with a unsigned integer, boolean, or pointer
* type no larger than 64 bits.
*/
DRGN_OBJECT_ENCODING_UNSIGNED,
/**
* Big signed integer.
*
* This is used for objects with a signed integer or signed enumerated
* type larger than 64 bits.
*/
DRGN_OBJECT_ENCODING_SIGNED_BIG,
/**
* Big unsigned integer.
*
* This is used for objects with a unsigned integer, boolean, or pointer
* type larger than 64 bits.
*/
DRGN_OBJECT_ENCODING_UNSIGNED_BIG,
/**
* Floating-point value.
*
* This used for objects with a floating-point type.
*/
DRGN_OBJECT_ENCODING_FLOAT,
/**
* No value.
*
* This is used for reference objects with a void or function type.
*/
DRGN_OBJECT_ENCODING_NONE = -1,
/**
* Incomplete buffer value.
*
* This is used for reference objects with an incomplete structure,
* union, class, or array type.
*/
DRGN_OBJECT_ENCODING_INCOMPLETE_BUFFER = -2,
/**
* Incomplete integer value.
*
* This is used for reference objects with an incomplete enumerated
* types.
*/
DRGN_OBJECT_ENCODING_INCOMPLETE_INTEGER = -3,
} __attribute__((__packed__));
/**
* Return whether a type corresponding to an object encoding is complete.
*
* @sa drgn_type_is_complete()
*/
static inline bool
drgn_object_encoding_is_complete(enum drgn_object_encoding encoding)
{
return encoding >= 0;
}
/** Value of a @ref drgn_object. */
union drgn_value {
/**
* Pointer to an external buffer for a @ref DRGN_OBJECT_ENCODING_BUFFER,
* @ref DRGN_OBJECT_ENCODING_SIGNED_BIG, or @ref
* DRGN_OBJECT_ENCODING_UNSIGNED_BIG value.
*
* For @ref DRGN_OBJECT_ENCODING_BUFFER, this contains the object's
* representation in the memory of the program.
*
* For @ref DRGN_OBJECT_ENCODING_SIGNED_BIG and @ref
* DRGN_OBJECT_ENCODING_UNSIGNED_BIG, the representation of the value is
* an implementation detail which may change.
*/
char *bufp;
/**
* Inline buffer for a @ref DRGN_OBJECT_ENCODING_BUFFER value.
*
* Tiny buffers (see @ref drgn_value_is_inline()) are stored inline here
* instead of in a separate allocation.
*/
char ibuf[8];
/** @ref DRGN_OBJECT_ENCODING_SIGNED value. */
int64_t svalue;
/** @ref DRGN_OBJECT_ENCODING_UNSIGNED value. */
uint64_t uvalue;
/** @ref DRGN_OBJECT_ENCODING_FLOAT value. */
double fvalue;
};
/**
* Return the number of bytes needed to store the given number of bits.
*
* @param[in] bits Number of bits.
*/
static inline uint64_t drgn_value_size(uint64_t bits)
{
return bits / CHAR_BIT + (bits % CHAR_BIT ? 1 : 0);
}
/**
* Return whether the given number of bits can be stored in the inline buffer of
* a @ref drgn_value (@ref drgn_value::ibuf).
*
* @param[in] bits Number of bits.
*/
static inline bool drgn_value_is_inline(uint64_t bits)
{
return bits <= CHAR_BIT * sizeof(((union drgn_value *)0)->ibuf);
}
/**
* Object in a program.
*
* A @ref drgn_object represents a symbol or value in a program. It can be in
* the memory of the program (a "reference"), a temporary computed value (a
* "value"), or "absent".
*
* A @ref drgn_object must be initialized with @ref drgn_object_init() before it
* is used. It can then be set and otherwise changed repeatedly. When the object
* is no longer needed, it must be deinitialized @ref drgn_object_deinit().
*
* It is more effecient to initialize an object once and reuse it rather than
* creating a new one repeatedly (e.g., in a loop).
*
* Members of a @ref drgn_object should not be modified except through the
* provided functions.
*/
struct drgn_object {
/** Type of this object. */
struct drgn_type *type;
/**
* Size of this object in bits.
*
* This is usually the size of @ref drgn_object::type, but it may be
* smaller if this is a bit field (@ref drgn_object::is_bit_field).
*/
uint64_t bit_size;
/** Qualifiers on @ref drgn_object::type. */
enum drgn_qualifiers qualifiers;
/** How this object is encoded. */
enum drgn_object_encoding encoding;
/** Kind of this object. */
enum drgn_object_kind kind;
/** Whether this object is a bit field. */
bool is_bit_field;
/**
* Whether this object is little-endian.
*
* Valid only for scalars (i.e., @ref DRGN_OBJECT_ENCODING_SIGNED, @ref
* DRGN_OBJECT_ENCODING_UNSIGNED, @ref DRGN_OBJECT_ENCODING_SIGNED_BIG,
* @ref DRGN_OBJECT_ENCODING_UNSIGNED_BIG, @ref
* DRGN_OBJECT_ENCODING_FLOAT, or @ref
* DRGN_OBJECT_ENCODING_INCOMPLETE_INTEGER).
*/
bool little_endian;
/**
* Offset in bits from @c address.
*
* Valid only for reference objects.
*/
uint8_t bit_offset;
union {
/** Value of value object. */
union drgn_value value;
/** Address of reference object. */
uint64_t address;
};
};
/** Return the number of bytes needed to store an object's value. */
static inline uint64_t drgn_object_size(const struct drgn_object *obj)
{
return drgn_value_size(obj->bit_size);
}
/**
* Return whether an object's value can be stored in the inline buffer of a @ref
* drgn_value (@ref drgn_value::ibuf).
*/
static inline bool drgn_object_is_inline(const struct drgn_object *obj)
{
return drgn_value_is_inline(obj->bit_size);
}
/** Return an object's buffer. */
#define drgn_object_buffer(obj) ({ \
__auto_type _obj = (obj); \
drgn_object_is_inline(_obj) ? _obj->value.ibuf : _obj->value.bufp; \
})
/** Get the type of a @ref drgn_object. */
static inline struct drgn_qualified_type
drgn_object_qualified_type(const struct drgn_object *obj)
{
return (struct drgn_qualified_type){
.type = obj->type,
.qualifiers = obj->qualifiers,
};
}
/**
* Initialize a @ref drgn_object.
*
* The object is initialized to an absent object with a void type. This must be
* paired with a call to @ref drgn_object_deinit().
*
* @param[in] obj Object to initialize.
* @param[in] prog Program containing the object.
*/
void drgn_object_init(struct drgn_object *obj, struct drgn_program *prog);
/**
* Deinitialize a @ref drgn_object.
*
* The object cannot be used after this unless it is reinitialized with @ref
* drgn_object_init().
*
* @param[in] obj Object to deinitialize.
*/
void drgn_object_deinit(struct drgn_object *obj);
/**
* Define and initialize a @ref drgn_object named @p obj that is automatically
* deinitialized when it goes out of scope.
*
* This is equivalent to
*
* ```
* struct drgn_object obj;
* drgn_object_init(&obj, prog);
* ...
* drgn_object_deinit(&obj);
* ```
*
* @param[in] obj Name of object.
* @param[in] prog Program containing the object.
*/
#define DRGN_OBJECT(obj, prog) \
struct drgn_object obj \
__attribute__((__cleanup__(drgn_object_deinit))) = \
drgn_object_initializer(prog)
struct drgn_object drgn_object_initializer(struct drgn_program *prog);
/** Get the program that a @ref drgn_object is from. */
static inline struct drgn_program *
drgn_object_program(const struct drgn_object *obj)
{
return drgn_type_program(obj->type);
}
/** Get the language of a @ref drgn_object from its type. */
static inline const struct drgn_language *
drgn_object_language(const struct drgn_object *obj)
{
return drgn_type_language(obj->type);
}
/**
* @defgroup ObjectSetters Setters
*
* Object setters.
*
* Once a @ref drgn_object is initialized with @ref drgn_object_init(), it may
* be set any number of times.
*
* @{
*/
/**
* Set a @ref drgn_object to a signed value.
*
* @param[out] res Object to set.
* @param[in] qualified_type Type to set to.
* @param[in] svalue Value to set to.
* @param[in] bit_field_size If the object should be a bit field, its size in
* bits. Otherwise, 0.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_set_signed(struct drgn_object *res,
struct drgn_qualified_type qualified_type,
int64_t svalue, uint64_t bit_field_size);
/**
* Set a @ref drgn_object to an unsigned value.
*
* @param[out] res Object to set.
* @param[in] qualified_type Type to set to.
* @param[in] uvalue Value to set to.
* @param[in] bit_field_size If the object should be a bit field, its size in
* bits. Otherwise, 0.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_set_unsigned(struct drgn_object *res,
struct drgn_qualified_type qualified_type,
uint64_t uvalue, uint64_t bit_field_size);
/**
* Set a @ref drgn_object to a floating-point value.
*
* @param[out] res Object to set.
* @param[in] qualified_type Type to set to.
* @param[in] fvalue Value to set to.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_set_float(struct drgn_object *res,
struct drgn_qualified_type qualified_type, double fvalue);
/**
* Set a @ref drgn_object from a buffer.
*
* @param[out] res Object to set.
* @param[in] qualified_type Type to set to.
* @param[in] buf Buffer to set to. It is copied, so it need not remain valid
* after this function returns.
* @param[in] buf_size Size of @p buf, in bytes. `buf_size * 8` must be at least
* `bit_size + bit_offset`, where @c bit_size is @p bit_field_size if non-zero
* and the size of @p qualified_type in bits otherwise.
* @param[in] bit_offset Offset of the value from the beginning of the buffer,
* in bits. This is usually 0. It must be aligned to a byte unless the type is
* scalar.
* @param[in] bit_field_size If the object should be a bit field, its size in
* bits. Otherwise, 0.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_set_from_buffer(struct drgn_object *res,
struct drgn_qualified_type qualified_type,
const void *buf, size_t buf_size,
uint64_t bit_offset, uint64_t bit_field_size);
/**
* Set a @ref drgn_object to a reference.
*
* @param[out] res Object to set.
* @param[in] qualified_type Type to set to.
* @param[in] address Address of the object.
* @param[in] bit_offset Offset of the value from @p address, in bits. This is
* usually 0.
* @param[in] bit_field_size If the object should be a bit field, its size in
* bits. Otherwise, 0.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_set_reference(struct drgn_object *res,
struct drgn_qualified_type qualified_type,
uint64_t address, uint64_t bit_offset,
uint64_t bit_field_size);
/**
* Set a @ref drgn_object as absent.
*
* @param[out] res Object to set.
* @param[in] qualified_type Type to set to.
* @param[in] bit_field_size If the object should be a bit field, its size in
* bits. Otherwise, 0.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_set_absent(struct drgn_object *res,
struct drgn_qualified_type qualified_type,
uint64_t bit_field_size);
/**
* Set a @ref drgn_object to a integer literal.
*
* This determines the type based on the programming language of the program
* that the object belongs to.
*
* @param[out] res Object to set.
* @param[in] uvalue Integer value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_integer_literal(struct drgn_object *res,
uint64_t uvalue);
/**
* Set a @ref drgn_object to a boolean literal.
*
* This determines the type based on the programming language of the program
* that the object belongs to.
*
* @param[out] res Object to set.
* @param[in] bvalue Boolean value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_bool_literal(struct drgn_object *res,
bool bvalue);
/**
* Set a @ref drgn_object to a floating-point literal.
*
* This determines the type based on the programming language of the program
* that the object belongs to.
*
* @param[out] res Object to set.
* @param[in] fvalue Floating-point value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_float_literal(struct drgn_object *res,
double fvalue);
/** @} */
/**
* @defgroup ObjectHelpers Helpers
*
* Object helpers.
*
* Several helpers are provided for working with @ref drgn_object%s.
*
* Helpers which return a @ref drgn_object have the same calling convention: the
* result object is the first argument, which must be initialized and may be the
* same as the input object argument; the result is only modified if the helper
* succeeds.
*
* @{
*/
/**
* Set a @ref drgn_object to another object.
*
* This copies @c obj to @c res. If @c obj is a value, then @c res is set to a
* value with the same type and value, and similarly if @c obj was a reference,
* @c res is set to the same reference.
*
* @param[out] res Destination object.
* @param[in] obj Source object.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_copy(struct drgn_object *res,
const struct drgn_object *obj);
/**
* Get a @ref drgn_object from a slice of a @ref DRGN_OBJECT_ENCODING_BUFFER
* object.
*
* This is a low-level interface used to implement @ref drgn_object_subscript()
* and @ref drgn_object_member(). Those functions are usually more convenient.
*
* If multiple elements of an array are accessed (e.g., when iterating through
* it), it can be more efficient to call @ref drgn_program_element_info() once
* to get the required information and this function with the computed bit
* offset for each element.
*
* If the same member of a type is accessed repeatedly (e.g., in a loop), it can
* be more efficient to call @ref drgn_type_find_member() once to get the
* required information and this function to access the member each time.
*
* @sa drgn_object_dereference_offset
*
* @param[out] res Destination object.
* @param[in] obj Source object.
* @param[in] qualified_type Result type.
* @param[in] bit_offset Offset in bits from the beginning of @p obj.
* @param[in] bit_field_size If the object should be a bit field, its size in
* bits. Otherwise, 0.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_slice(struct drgn_object *res,
const struct drgn_object *obj,
struct drgn_qualified_type qualified_type,
uint64_t bit_offset,
uint64_t bit_field_size);
/**
* Get a @ref drgn_object from dereferencing a pointer object with an offset.
*
* This is a low-level interface used to implement @ref drgn_object_subscript()
* and @ref drgn_object_member_dereference(). Those functions are usually more
* convenient, but this function can be more efficient if accessing multiple
* elements or the same member multiple times.
*
* @sa drgn_object_slice
*
* @param[out] res Dereferenced object.
* @param[in] obj Pointer object.
* @param[in] qualified_type Result type.
* @param[in] bit_offset Offset in bits from the address given by the value of
* @p obj.
* @param[in] bit_field_size If the object should be a bit field, its size in
* bits. Otherwise, 0.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_dereference_offset(struct drgn_object *res,
const struct drgn_object *obj,
struct drgn_qualified_type qualified_type,
int64_t bit_offset, uint64_t bit_field_size);
/**
* Read a @ref drgn_object.
*
* If @c obj is already a value, then this is equivalent to @ref
* drgn_object_copy(). If @c is a reference, then this reads the reference and
* sets @p res to the value.
*
* @param[out] res Object to set.
* @param[in] obj Object to read.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_read(struct drgn_object *res,
const struct drgn_object *obj);
/**
* Read the value of a @ref drgn_object.
*
* If @p obj is a value, that value is returned directly. If @p is a reference,
* the value is read into the provided temporary buffer.
*
* This must be paired with @ref drgn_object_deinit_value().
*
* @param[in] obj Object to read.
* @param[in] value Temporary value to use if necessary.
* @param[out] ret Pointer to the returned value, which is <tt>&obj->value</tt>
* if @p obj is a value, or @p value if @p obj is a reference.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_read_value(const struct drgn_object *obj,
union drgn_value *value,
const union drgn_value **ret);
/**
* Deinitialize a value which was read with @ref drgn_object_read_value().
*
* @param[in] obj Object which was read.
* @param[in] value Value returned from @ref drgn_object_read_value() in @p ret.
*/
void drgn_object_deinit_value(const struct drgn_object *obj,
const union drgn_value *value);
/**
* Get the binary representation of the value of a @ref drgn_object.
*
* @param[out] Buffer to read into. Size must be at least
* `drgn_object_size(obj)`.
*/
struct drgn_error *drgn_object_read_bytes(const struct drgn_object *obj,
void *buf);
/**
* Get the value of an object encoded with @ref
* drgn_object_encoding::DRGN_OBJECT_ENCODING_SIGNED.
*
* If the object is not a signed integer, an error is returned.
*
* @param[in] obj Object to read.
* @param[out] ret Returned value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_read_signed(const struct drgn_object *obj,
int64_t *ret);
/**
* Get the value of an object encoded with @ref
* drgn_object_encoding::DRGN_OBJECT_ENCODING_UNSIGNED.
*
* If the object is not an unsigned integer, an error is returned.
*
* @param[in] obj Object to read.
* @param[out] ret Returned value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_read_unsigned(const struct drgn_object *obj,
uint64_t *ret);
/**
* Get the value of an object encoded with @ref
* drgn_object_encoding::DRGN_OBJECT_ENCODING_SIGNED or @ref
* drgn_object_encoding::DRGN_OBJECT_ENCODING_UNSIGNED.
*
* If the object is not an integer, an error is returned.
*
* @param[in] obj Object to read.
* @param[out] ret Returned value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_read_integer(const struct drgn_object *obj,
union drgn_value *ret);
/**
* Get the value of an object encoded with @ref
* drgn_object_encoding::DRGN_OBJECT_ENCODING_FLOAT.
*
* If the object does not have a floating-point type, an error is returned.
*
* @param[in] obj Object to read.
* @param[out] ret Returned value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_read_float(const struct drgn_object *obj,
double *ret);
/**
* Read the null-terminated string pointed to by a @ref drgn_object.
*
* This is only valid for pointers and arrays. The element type is ignored; this
* operates byte-by-byte.
*
* For pointers and flexible arrays, this stops at the first null byte.
*
* For complete arrays, this stops at the first null byte or at the end of the
* array.
*
* The returned string is always null-terminated.
*
* @param[in] obj Object to read.
* @param[out] ret Returned string. On success, it must be freed with @c free().
* On error, it is not modified.
*/
struct drgn_error *drgn_object_read_c_string(const struct drgn_object *obj,
char **ret);
/** Flags to control @ref drgn_format_object() output. */
enum drgn_format_object_flags {
DRGN_FORMAT_OBJECT_DEREFERENCE = 1 << 0,
DRGN_FORMAT_OBJECT_SYMBOLIZE = 1 << 1,
DRGN_FORMAT_OBJECT_STRING = 1 << 2,
DRGN_FORMAT_OBJECT_CHAR = 1 << 3,
DRGN_FORMAT_OBJECT_TYPE_NAME = 1 << 4,
DRGN_FORMAT_OBJECT_MEMBER_TYPE_NAMES = 1 << 5,
DRGN_FORMAT_OBJECT_ELEMENT_TYPE_NAMES = 1 << 6,
DRGN_FORMAT_OBJECT_MEMBERS_SAME_LINE = 1 << 7,
DRGN_FORMAT_OBJECT_ELEMENTS_SAME_LINE = 1 << 8,
DRGN_FORMAT_OBJECT_MEMBER_NAMES = 1 << 9,
DRGN_FORMAT_OBJECT_ELEMENT_INDICES = 1 << 10,
DRGN_FORMAT_OBJECT_IMPLICIT_MEMBERS = 1 << 11,
DRGN_FORMAT_OBJECT_IMPLICIT_ELEMENTS = 1 << 12,
/** Default "pretty" flags. */
DRGN_FORMAT_OBJECT_PRETTY = (DRGN_FORMAT_OBJECT_DEREFERENCE |
DRGN_FORMAT_OBJECT_SYMBOLIZE |
DRGN_FORMAT_OBJECT_STRING |
DRGN_FORMAT_OBJECT_TYPE_NAME |
DRGN_FORMAT_OBJECT_MEMBER_TYPE_NAMES |
DRGN_FORMAT_OBJECT_ELEMENTS_SAME_LINE |
DRGN_FORMAT_OBJECT_MEMBER_NAMES |
DRGN_FORMAT_OBJECT_IMPLICIT_MEMBERS),
DRGN_FORMAT_OBJECT_VALID_FLAGS = (1 << 13) - 1,
};
/**
* Format a @ref drgn_object as a string.
*
* This will format the object similarly to an expression in its programming
* language.
*
* @param[in] obj Object to format.
* @param[in] columns Number of columns to limit output to when the expression
* can be reasonably wrapped.
* param[in] flags Flags to change output.
* @param[out] ret Returned string. On success, it must be freed with @c free().
* On error, its contents are undefined.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_format_object(const struct drgn_object *obj,
size_t columns,
enum drgn_format_object_flags flags,
char **ret);
/** @} */
/**
* @defgroup ObjectOperators Operators
*
* Object operators.
*
* Various operators are defined on @ref drgn_object%s. These operators obey the
* rules of the programming language of the given objects.
*
* Operators which return a @ref drgn_object have the same calling convention:
* the result object is the first argument, which must be initialized and may be
* the same as one or more of the operands; the result is only modified if the
* operator succeeds.
*
* @{
*/
/**
* Set a @ref drgn_object to the value of an object casted to a another type.
*
* Objects with a scalar type can be casted to a different scalar type. Other
* objects can only be casted to the same type. @p res is always set to a value
* object.
*
* @sa drgn_object_reinterpret()
*
* @param[out] res Object to set.
* @param[in] qualified_type New type.
* @param[in] obj Object to read.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_cast(struct drgn_object *res,
struct drgn_qualified_type qualified_type,
const struct drgn_object *obj);
/**
* Set a @ref drgn_object to the value of an object reinterpreted as another
* type.
*
* This reinterprets the raw memory of the object, so an object can be
* reinterpreted as any other type. However, value objects with a scalar type
* cannot be reinterpreted, as their memory layout is not known.
*
* If @c obj is a value, then @c res is set to a value; if @c obj was a
* reference, then @c res is set to a reference.
*
* @sa drgn_object_cast()
*
* @param[out] res Object to set.
* @param[in] qualified_type New type.
* @param[in] obj Object to reinterpret.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_object_reinterpret(struct drgn_object *res,
struct drgn_qualified_type qualified_type,
const struct drgn_object *obj);
/**
* @ref drgn_object binary operator.
*
* Binary operators apply any language-specific conversions to @p lhs and @p
* rhs, apply the operator, and store the result in @p res.
*
* @param[out] res Operator result. May be the same as @p lhs and/or @p rhs.
* @param[in] lhs Operator left hand side.
* @param[in] rhs Operator right hand side.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
typedef struct drgn_error *drgn_binary_op(struct drgn_object *res,
const struct drgn_object *lhs,
const struct drgn_object *rhs);
/**
* @ref drgn_object unary operator.
*
* Unary operators apply any language-specific conversions to @p obj, apply the
* operator, and store the result in @p res.
*
* @param[out] res Operator result. May be the same as @p obj.
* @param[in] obj Operand.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
typedef struct drgn_error *drgn_unary_op(struct drgn_object *res,
const struct drgn_object *obj);
/**
* Convert a @ref drgn_object to a boolean value.
*
* This gets the "truthiness" of an object according to its programming
* language.
*
* @param[in] obj Object.
* @param[out] ret Returned boolean value.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_bool(const struct drgn_object *obj, bool *ret);
/**
* Compare the value of two @ref drgn_object%s.
*
* This applies any language-specific conversions to @p lhs and @p rhs and
* compares the resulting values.
*
* @param[in] lhs Comparison left hand side.
* @param[in] rhs Comparison right hand side.
* @param[out] ret 0 if the operands are equal, < 0 if @p lhs < @p rhs, and > 0
* if @p lhs > @p rhs.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_cmp(const struct drgn_object *lhs,
const struct drgn_object *rhs, int *ret);
/** Add (@c +) two @ref drgn_object%s. */
drgn_binary_op drgn_object_add;
/** Subtract (@c -) a @ref drgn_object from another. */
drgn_binary_op drgn_object_sub;
/** Multiply (@c *) two @ref drgn_object%s. */
drgn_binary_op drgn_object_mul;
/** Divide (@c /) a @ref drgn_object by another. */
drgn_binary_op drgn_object_div;
/** Calculate the modulus (@c %) of two @ref drgn_object%s. */
drgn_binary_op drgn_object_mod;
/** Left shift (@c <<) a @ref drgn_object by another. */
drgn_binary_op drgn_object_lshift;
/** Right shift (@c >>) a @ref drgn_object by another. */
drgn_binary_op drgn_object_rshift;
/** Calculate the bitwise and (@c &) of two @ref drgn_object%s. */
drgn_binary_op drgn_object_and;
/** Calculate the bitwise or (@c |) of two @ref drgn_object%s. */
drgn_binary_op drgn_object_or;
/** Calculate the bitwise exclusive or (@c ^) of two @ref drgn_object%s. */
drgn_binary_op drgn_object_xor;
/** Apply unary plus (@c +) to a @ref drgn_object. */
drgn_unary_op drgn_object_pos;
/** Calculate the arithmetic negation (@c -) of a @ref drgn_object. */
drgn_unary_op drgn_object_neg;
/** Calculate the bitwise negation (@c ~) of a @ref drgn_object. */
drgn_unary_op drgn_object_not;
/**
* Get the address of (@c &) a @ref drgn_object as an object.
*
* This is only possible for reference objects, as value objects don't have an
* address in the program.
*
* @param[out] res Resulting pointer value. May be the same as @p obj.
* @param[in] obj Reference object.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
struct drgn_error *drgn_object_address_of(struct drgn_object *res,
const struct drgn_object *obj);
/**
* Subscript (@c []) a @ref drgn_object.
*
* This is applicable to pointers and arrays.
*
* @param[out] res Resulting element. May be the same as @p obj.
* @param[in] obj Object to subscript.
* @param[in] index Element index.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
struct drgn_error *drgn_object_subscript(struct drgn_object *res,
const struct drgn_object *obj,
int64_t index);
/**
* Deference (@c *) a @ref drgn_object.
*
* This is equivalent to @ref drgn_object_subscript with an index of 0.
*
* @param[out] res Deferenced object. May be the same as @p obj.
* @param[in] obj Object to dereference.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
static inline struct drgn_error *
drgn_object_dereference(struct drgn_object *res, const struct drgn_object *obj)
{
return drgn_object_subscript(res, obj, 0);
}
/**
* Get a member of a structure, union, or class @ref drgn_object (@c .).
*
* @param[out] res Returned member. May be the same as @p obj.
* @param[in] obj Object.
* @param[in] member_name Name of member.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
struct drgn_error *drgn_object_member(struct drgn_object *res,
const struct drgn_object *obj,
const char *member_name);
/**
* Get a member of a pointer @ref drgn_object (@c ->).
*
* This is applicable to pointers to structures and pointers to unions.
*
* @param[out] res Returned member. May be the same as @p obj.
* @param[in] obj Object.
* @param[in] member_name Name of member.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
struct drgn_error *drgn_object_member_dereference(struct drgn_object *res,
const struct drgn_object *obj,
const char *member_name);
/**
* Get the containing object of a member @ref drgn_object.
*
* This corresponds to the @c container_of() macro commonly used in C.
*
* @param[out] res Returned object. May be the same as @p obj.
* @param[in] obj Pointer to a member.
* @param[in] qualified_type Type which contains the member.
* @param[in] member_designator Name of the member in @p qualified_type. This
* can include one or more member references and zero or more array subscripts.
* @return @c NULL on success, non-@c NULL on error. @p res is not modified on
* error.
*/
struct drgn_error *
drgn_object_container_of(struct drgn_object *res, const struct drgn_object *obj,
struct drgn_qualified_type qualified_type,
const char *member_designator);
/**
* Get the size of a @ref drgn_object in bytes.
*
* @param[in] obj Object.
* @param[out] ret Returned size.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_object_sizeof(const struct drgn_object *obj,
uint64_t *ret);
/** @} */
/** @} */
/**
* @ingroup LazyObjects
*
* Callback to evaluate and/or free a @ref drgn_lazy_object.
*
* If @p res is not @c NULL, then this should return the object in @p res and
* free @p arg if necessary. If this returns an error, it may be called again
* (so @p arg must remain valid).
*
* If @p res is @c NULL, then this should free @p arg if necessary; it must not
* return an error.
*
* @param[out] res Result object (if evaluating) or @c NULL (if freeing). This
* is already initialized and should not be deinitialized on error.
* @param[in] arg Callback argument passed to @ref
* drgn_lazy_object_init_thunk().
* @return @c NULL on success, non-@c NULL on error.
*/
typedef struct drgn_error *drgn_object_thunk_fn(struct drgn_object *res,
void *arg);
/**
* @ingroup LazyObjects
*
* Lazily-evaluated object.
*
* A lazy object may be in two states: unevaluated, in which case a callback
* must be called to evaluate the object, or evaluated, in which case the object
* is cached. To evaluate an object, the callback is called, and the result is
* cached.
*
* This is for internal use only.
*/
union drgn_lazy_object {
/** Object if it has already been evaluated. */
struct drgn_object obj;
/** Thunk if the object has not been evaluated yet. */
struct {
/**
* Always @c NULL to indicate an unevaluated lazy object.
*
* This must be at the same offset as @ref drgn_object::type.
*/
struct drgn_type *dummy_type;
/** Program owning this thunk. */
struct drgn_program *prog;
/** Callback. */
drgn_object_thunk_fn *fn;
/** Argument passed to @ref drgn_lazy_object::thunk::fn. */
void *arg;
} thunk;
};
/**
* @defgroup Types Types
*
* Type descriptors.
*
* Types in a program are represented by @ref drgn_type.
*
* Type descriptors have various fields depending on the kind of type. For each
* field @c foo, there is a @c drgn_type_kind_has_foo() helper which returns
* whether the given kind of type has the field @c foo; a @c drgn_type_has_foo()
* helper which does the same but takes a type; and a @c drgn_type_foo() helper
* which returns the field. For members, enumerators, and parameters, there is
* also a @c drgn_type_num_foo() helper.
*
* @{
*/
/** Primitive types known to drgn. */
enum drgn_primitive_type {
/* Primitive C types. */
DRGN_C_TYPE_VOID,
DRGN_C_TYPE_CHAR,
DRGN_C_TYPE_SIGNED_CHAR,
DRGN_C_TYPE_UNSIGNED_CHAR,
DRGN_C_TYPE_SHORT,
DRGN_C_TYPE_UNSIGNED_SHORT,
DRGN_C_TYPE_INT,
DRGN_C_TYPE_UNSIGNED_INT,
DRGN_C_TYPE_LONG,
DRGN_C_TYPE_UNSIGNED_LONG,
DRGN_C_TYPE_LONG_LONG,
DRGN_C_TYPE_UNSIGNED_LONG_LONG,
DRGN_C_TYPE_BOOL,
DRGN_C_TYPE_FLOAT,
DRGN_C_TYPE_DOUBLE,
DRGN_C_TYPE_LONG_DOUBLE,
DRGN_C_TYPE_SIZE_T,
DRGN_C_TYPE_PTRDIFF_T,
DRGN_PRIMITIVE_TYPE_NUM,
DRGN_NOT_PRIMITIVE_TYPE = DRGN_PRIMITIVE_TYPE_NUM,
/*
* Make sure to update api_reference.rst and type.c when adding anything
* here.
*/
} __attribute__((__packed__));
/** Member of a structure, union, or class type. */
struct drgn_type_member {
/**
* Member as an object.
*
* Access this with @ref drgn_member_object() or @ref
* drgn_member_type().
*/
union drgn_lazy_object object;
/** Member name or @c NULL if it is unnamed. */
const char *name;
/**
* Offset in bits from the beginning of the type to the beginning of
* this member (i.e., for little-endian machines, the least significant
* bit, and for big-endian machines, the most significant bit). Members
* are usually aligned to at least a byte, so this is usually a multiple
* of 8 (but that may not be the case for bit fields).
*/
uint64_t bit_offset;
};
/** Value of an enumerated type. */
struct drgn_type_enumerator {
/** Enumerator name. */
const char *name;
union {
/** Enumerator value if the type is signed. */
int64_t svalue;
/** Enumerator value if the type is unsigned. */
uint64_t uvalue;
};
};
/** Parameter of a function type. */
struct drgn_type_parameter {
/**
* Parameter type and default argument.
*
* Access this with @ref drgn_parameter_default_argument() or @ref
* drgn_parameter_type().
*/
union drgn_lazy_object default_argument;
/** Parameter name or @c NULL if it is unnamed. */
const char *name;
};
/** Template parameter of a structure, union, class, or function type. */
struct drgn_type_template_parameter {
/**
* Template parameter type or value.
*
* Access this with @ref drgn_template_parameter_type() and @ref
* drgn_template_parameter_object().
*/
union drgn_lazy_object argument;
/** Template parameter name or @c NULL if it is unnamed. */
const char *name;
/** Whether the argument is the default. */
bool is_default;
};
/**
* Language-agnostic type descriptor.
*
* This structure should not be accessed directly; see @ref Types.
*/
struct drgn_type {
/** @privatesection */
struct {
enum drgn_type_kind kind;
bool is_complete;
enum drgn_primitive_type primitive;
/* These are the qualifiers for the wrapped type, not this type. */
enum drgn_qualifiers qualifiers;
struct drgn_program *program;
const struct drgn_language *language;
/*
* This mess of unions is used to make this as compact as possible. Use
* the provided helpers and don't think about it.
*/
union {
const char *name;
const char *tag;
size_t num_parameters;
};
union {
uint64_t size;
uint64_t length;
size_t num_enumerators;
bool is_variadic;
};
union {
bool is_signed;
size_t num_members;
struct drgn_type *type;
};
union {
bool little_endian;
struct drgn_type_member *members;
struct drgn_type_enumerator *enumerators;
struct drgn_type_parameter *parameters;
};
struct drgn_type_template_parameter *template_parameters;
size_t num_template_parameters;
} _private;
};
/** Get the kind of a type. */
static inline enum drgn_type_kind drgn_type_kind(struct drgn_type *type)
{
return type->_private.kind;
}
/** Get the primitive type corresponding to a @ref drgn_type. */
static inline enum drgn_primitive_type
drgn_type_primitive(struct drgn_type *type)
{
return type->_private.primitive;
}
/**
* Get whether a type is complete (i.e., the type definition is known).
*
* This is always @c false for the void type. It may be @c false for structure,
* union, class, enumerated, and array types, as well as typedef types where the
* underlying type is one of those. Otherwise, it is always @c true.
*/
static inline bool drgn_type_is_complete(struct drgn_type *type)
{
return type->_private.is_complete;
}
static inline struct drgn_program *
drgn_type_program(struct drgn_type *type)
{
return type->_private.program;
}
/** Get the language of a type. */
static inline const struct drgn_language *
drgn_type_language(struct drgn_type *type)
{
return type->_private.language;
}
/**
* Get whether a kind of type has a name. This is true for integer, boolean,
* floating-point, and typedef types.
*/
static inline bool drgn_type_kind_has_name(enum drgn_type_kind kind)
{
return (kind == DRGN_TYPE_INT ||
kind == DRGN_TYPE_BOOL ||
kind == DRGN_TYPE_FLOAT ||
kind == DRGN_TYPE_TYPEDEF);
}
/** Get whether a type has a name. @sa drgn_type_kind_has_name() */
static inline bool drgn_type_has_name(struct drgn_type *type)
{
return drgn_type_kind_has_name(drgn_type_kind(type));
}
/**
* Get the name of a type. @ref drgn_type_has_name() must be true for this type.
*/
static inline const char *drgn_type_name(struct drgn_type *type)
{
assert(drgn_type_has_name(type));
return type->_private.name;
}
/**
* Get whether a kind of type has a size. This is true for integer, boolean,
* floating-point, structure, union, class, and pointer types.
*/
static inline bool drgn_type_kind_has_size(enum drgn_type_kind kind)
{
return (kind == DRGN_TYPE_INT ||
kind == DRGN_TYPE_BOOL ||
kind == DRGN_TYPE_FLOAT ||
kind == DRGN_TYPE_STRUCT ||
kind == DRGN_TYPE_UNION ||
kind == DRGN_TYPE_CLASS ||
kind == DRGN_TYPE_POINTER);
}
/** Get whether a type has a size. @sa drgn_type_kind_has_size() */
static inline bool drgn_type_has_size(struct drgn_type *type)
{
return drgn_type_kind_has_size(drgn_type_kind(type));
}
/**
* Get the size of a type in bytes. @ref drgn_type_has_size() must be true for
* this type.
*/
static inline uint64_t drgn_type_size(struct drgn_type *type)
{
assert(drgn_type_has_size(type));
return type->_private.size;
}
/**
* Get whether a kind of type has a signedness. This is true for integer types.
*/
static inline bool drgn_type_kind_has_is_signed(enum drgn_type_kind kind)
{
return kind == DRGN_TYPE_INT;
}
/** Get whether a type has a signedness. @sa drgn_type_kind_has_is_signed() */
static inline bool drgn_type_has_is_signed(struct drgn_type *type)
{
return drgn_type_kind_has_is_signed(drgn_type_kind(type));
}
/**
* Get the signedness of a type. @ref drgn_type_has_is_signed() must be true for
* this type.
*/
static inline bool drgn_type_is_signed(struct drgn_type *type)
{
assert(drgn_type_has_is_signed(type));
return type->_private.is_signed;
}
/**
* Get whether a kind of type has a byte order. This is true for integer,
* boolean, floating-point, and pointer types.
*/
static inline bool drgn_type_kind_has_little_endian(enum drgn_type_kind kind)
{
return (kind == DRGN_TYPE_INT ||
kind == DRGN_TYPE_BOOL ||
kind == DRGN_TYPE_FLOAT ||
kind == DRGN_TYPE_POINTER);
}
/**
* Get whether a type has a byte order. @sa drgn_type_kind_has_little_endian()
*/
static inline bool drgn_type_has_little_endian(struct drgn_type *type)
{
return drgn_type_kind_has_little_endian(drgn_type_kind(type));
}
/**
* Get the byte order of a type. @ref drgn_type_has_little_endian() must be true
* for this type.
*
* @return @c true if the type is little-endian, @c false if it is big-endian.
*/
static inline bool drgn_type_little_endian(struct drgn_type *type)
{
assert(drgn_type_has_little_endian(type));
return type->_private.little_endian;
}
/**
* Get whether a kind of type has a tag. This is true for structure, union,
* class, and enumerated types.
*/
static inline bool drgn_type_kind_has_tag(enum drgn_type_kind kind)
{
return (kind == DRGN_TYPE_STRUCT ||
kind == DRGN_TYPE_UNION ||
kind == DRGN_TYPE_CLASS ||
kind == DRGN_TYPE_ENUM);
}
/** Get whether a type has a tag. @sa drgn_type_kind_has_tag() */
static inline bool drgn_type_has_tag(struct drgn_type *type)
{
return drgn_type_kind_has_tag(drgn_type_kind(type));
}
/**
* Get the tag of a type. @ref drgn_type_has_tag() must be true for this type.
*/
static inline const char *drgn_type_tag(struct drgn_type *type)
{
assert(drgn_type_has_tag(type));
return type->_private.tag;
}
/**
* Get whether a kind of type has members. This is true for structure, union,
* and class types.
*/
static inline bool drgn_type_kind_has_members(enum drgn_type_kind kind)
{
return (kind == DRGN_TYPE_STRUCT ||
kind == DRGN_TYPE_UNION ||
kind == DRGN_TYPE_CLASS);
}
/** Get whether a type has members. @sa drgn_type_kind_has_members() */
static inline bool drgn_type_has_members(struct drgn_type *type)
{
return drgn_type_kind_has_members(drgn_type_kind(type));
}
/**
* Get the members of a type. @ref drgn_type_has_members() must be true for this
* type.
*/
static inline struct drgn_type_member *drgn_type_members(struct drgn_type *type)
{
assert(drgn_type_has_members(type));
return type->_private.members;
}
/**
* Get the number of members of a type. @ref drgn_type_has_members() must be
* true for this type. If the type is incomplete, this is always zero.
*/
static inline size_t drgn_type_num_members(struct drgn_type *type)
{
assert(drgn_type_has_members(type));
return type->_private.num_members;
}
/**
* Get whether a kind of type has a wrapped type. This is true for enumerated,
* typedef, pointer, array, and function types.
*/
static inline bool drgn_type_kind_has_type(enum drgn_type_kind kind)
{
return (kind == DRGN_TYPE_ENUM ||
kind == DRGN_TYPE_TYPEDEF ||
kind == DRGN_TYPE_POINTER ||
kind == DRGN_TYPE_ARRAY ||
kind == DRGN_TYPE_FUNCTION);
}
/** Get whether a type has a wrapped type. @sa drgn_type_kind_has_type() */
static inline bool drgn_type_has_type(struct drgn_type *type)
{
return drgn_type_kind_has_type(drgn_type_kind(type));
}
/**
* Get the type wrapped by this type.
*
* For an enumerated type, this is the compatible integer type. It is @c NULL if
* the enumerated type is incomplete.
*
* For a typedef type, this is the aliased type.
*
* For a pointer type, this is the referenced type.
*
* For an array type, this is the element type.
*
* For a function type, this is the return type.
*/
static inline struct drgn_qualified_type
drgn_type_type(struct drgn_type *type)
{
assert(drgn_type_has_type(type));
return (struct drgn_qualified_type){
.type = type->_private.type,
.qualifiers = type->_private.qualifiers,
};
}
/**
* Get whether a kind of type has enumerators. This is true for enumerated
* types.
*/
static inline bool drgn_type_kind_has_enumerators(enum drgn_type_kind kind)
{
return kind == DRGN_TYPE_ENUM;
}
/** Get whether a type has enumerators. @sa drgn_type_kind_has_enumerators() */
static inline bool drgn_type_has_enumerators(struct drgn_type *type)
{
return drgn_type_kind_has_enumerators(drgn_type_kind(type));
}
/**
* Get the enumerators of a type. @ref drgn_type_has_enumerators() must be true
* for this type.
*/
static inline struct drgn_type_enumerator *
drgn_type_enumerators(struct drgn_type *type)
{
assert(drgn_type_has_enumerators(type));
return type->_private.enumerators;
}
/**
* Get the number of enumerators of a type. @ref drgn_type_has_enumerators()
* must be true for this type. If the type is incomplete, this is always zero.
*/
static inline size_t drgn_type_num_enumerators(struct drgn_type *type)
{
assert(drgn_type_has_enumerators(type));
return type->_private.num_enumerators;
}
/** Get whether a kind of type has a length. This is true for array types. */
static inline bool drgn_type_kind_has_length(enum drgn_type_kind kind)
{
return kind == DRGN_TYPE_ARRAY;
}
/** Get whether a type has a length. @sa drgn_type_kind_has_length() */
static inline bool drgn_type_has_length(struct drgn_type *type)
{
return drgn_type_kind_has_length(drgn_type_kind(type));
}
/**
* Get the length of a type. @ref drgn_type_has_length() must be true for this
* type. If the type is incomplete, this is always zero.
*/
static inline uint64_t drgn_type_length(struct drgn_type *type)
{
assert(drgn_type_has_length(type));
return type->_private.length;
}
/**
* Get whether a kind of type has parameters. This is true for function types.
*/
static inline bool drgn_type_kind_has_parameters(enum drgn_type_kind kind)
{
return kind == DRGN_TYPE_FUNCTION;
}
/** Get whether a type has parameters. @sa drgn_type_kind_has_parameters() */
static inline bool drgn_type_has_parameters(struct drgn_type *type)
{
return drgn_type_kind_has_parameters(drgn_type_kind(type));
}
/**
* Get the parameters of a type. @ref drgn_type_has_parameters() must be true
* for this type.
*/
static inline struct drgn_type_parameter *drgn_type_parameters(struct drgn_type *type)
{
assert(drgn_type_has_parameters(type));
return type->_private.parameters;
}
/**
* Get the number of parameters of a type. @ref drgn_type_has_parameters() must
* be true for this type.
*/
static inline size_t drgn_type_num_parameters(struct drgn_type *type)
{
assert(drgn_type_has_parameters(type));
return type->_private.num_parameters;
}
/**
* Get whether a kind of type can be variadic. This is true for function types.
*/
static inline bool drgn_type_kind_has_is_variadic(enum drgn_type_kind kind)
{
return kind == DRGN_TYPE_FUNCTION;
}
/** Get whether a type can be variadic. @sa drgn_type_kind_has_is_variadic() */
static inline bool drgn_type_has_is_variadic(struct drgn_type *type)
{
return drgn_type_kind_has_is_variadic(drgn_type_kind(type));
}
/**
* Get whether a type is variadic. @ref drgn_type_has_is_variadic() must be true
* for this type.
*/
static inline bool drgn_type_is_variadic(struct drgn_type *type)
{
assert(drgn_type_has_is_variadic(type));
return type->_private.is_variadic;
}
/** Get whether a kind of type can have template parameters. */
static inline bool
drgn_type_kind_has_template_parameters(enum drgn_type_kind kind)
{
return (kind == DRGN_TYPE_STRUCT ||
kind == DRGN_TYPE_UNION ||
kind == DRGN_TYPE_CLASS ||
kind == DRGN_TYPE_FUNCTION);
}
/** Get whether a type can have template parameters. */
static inline bool drgn_type_has_template_parameters(struct drgn_type *type)
{
return drgn_type_kind_has_template_parameters(drgn_type_kind(type));
}
/**
* Get the template parameters of a type. @ref
* drgn_type_has_template_parameters() must be true for this type.
*/
static inline struct drgn_type_template_parameter *
drgn_type_template_parameters(struct drgn_type *type)
{
assert(drgn_type_has_template_parameters(type));
return type->_private.template_parameters;
}
/**
* Get the number of template parameters of a type. @ref
* drgn_type_has_template_parameters() must be true for this type.
*/
static inline size_t drgn_type_num_template_parameters(struct drgn_type *type)
{
assert(drgn_type_has_template_parameters(type));
return type->_private.num_template_parameters;
}
/**
* Get the object corresponding to a @ref drgn_type_member.
*
* @param[in] member Member.
* @param[out] ret Returned object.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_member_object(struct drgn_type_member *member,
const struct drgn_object **ret)
__attribute__((__nonnull__(1, 2)));
/**
* Get the type of a @ref drgn_type_member.
*
* @param[in] member Member.
* @param[out] type_ret Returned type.
* @param[out] bit_field_size_ret If the member is a bit field, returned size of
* the field in bits. Otherwise, returned as 0. Can be @c NULL if not needed.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_member_type(struct drgn_type_member *member,
struct drgn_qualified_type *type_ret,
uint64_t *bit_field_size_ret)
__attribute__((__nonnull__(1, 2)));
/**
* Get the default argument of a @ref drgn_type_parameter.
*
* @param[in] parameter Parameter.
* @param[out] ret Returned object.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_parameter_default_argument(struct drgn_type_parameter *parameter,
const struct drgn_object **ret)
__attribute__((__nonnull__(1, 2)));
/**
* Get the type of a @ref drgn_type_parameter.
*
* @param[in] parameter Parameter.
* @param[out] ret Returned type.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_parameter_type(struct drgn_type_parameter *parameter,
struct drgn_qualified_type *ret)
__attribute__((__nonnull__(1, 2)));
/**
* Get the type of a @ref drgn_type_template_parameter.
*
* If the template parameter is a non-type template parameter, this is the type
* of its value.
*
* @param[in] parameter Template parameter.
* @param[out] ret Returned type.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_template_parameter_type(struct drgn_type_template_parameter *parameter,
struct drgn_qualified_type *ret)
__attribute__((__nonnull__(1, 2)));
/**
* Get the value of a @ref drgn_type_template_parameter.
*
* @param[in] parameter Template parameter.
* @param[out] ret Returned object. If @p parameter is a type template
* parameter, this is returned as @c NULL.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_template_parameter_object(struct drgn_type_template_parameter *parameter,
const struct drgn_object **ret)
__attribute__((__nonnull__(1, 2)));
/**
* Get the size of a type in bytes.
*
* Unlike @ref drgn_type_size(), this is applicable to any type which has a
* meaningful size, including typedefs and arrays. Void, function, and
* incomplete types do not have a size; an error is returned for those types.
*
* @param[in] type Type.
* @param[out] ret Returned size.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_type_sizeof(struct drgn_type *type, uint64_t *ret);
/**
* Get the offset in bytes of a member from the start of a structure, union, or
* class type.
*
* This corresponds to @c offsetof() in C.
*
* @param[in] type Type which contains the member.
* @param[in] member_designator Name of the member in @p type. This can include
* one or more member references and zero or more array subscripts.
*/
struct drgn_error *drgn_type_offsetof(struct drgn_type *type,
const char *member_designator,
uint64_t *ret);
/**
* Like @ref drgn_type_find_member(), but takes the length of @p member_name.
*/
struct drgn_error *
drgn_type_find_member_len(struct drgn_type *type, const char *member_name,
size_t member_name_len,
struct drgn_type_member **member_ret,
uint64_t *bit_offset_ret);
/**
* Find a member in a @ref drgn_type by name.
*
* If the type has any unnamed members, this also matches members of those
* unnamed members, recursively.
*
* @param[in] type Structure, union, or class type.
* @param[in] member_name Name of member.
* @param[out] member_ret Returned member.
* @param[out] bit_offset_ret Returned offset in bits from the beginning of @p
* type to the beginning of the member. This can be different from @ref
* drgn_type_member::bit_offset if the returned member was found in an unnamed
* member of @p type.
*/
static inline struct drgn_error *
drgn_type_find_member(struct drgn_type *type, const char *member_name,
struct drgn_type_member **member_ret,
uint64_t *bit_offset_ret)
{
return drgn_type_find_member_len(type, member_name, strlen(member_name),
member_ret, bit_offset_ret);
}
/** Like @ref drgn_type_has_member(), but takes the length of @p member_name. */
struct drgn_error *drgn_type_has_member_len(struct drgn_type *type,
const char *member_name,
size_t member_name_len, bool *ret);
/**
* Return whether a @ref drgn_type has a member with the given name.
*
* @param[in] type Structure, union, or class type.
* @param[in] member_name Name of member.
*/
static inline struct drgn_error *drgn_type_has_member(struct drgn_type *type,
const char *member_name,
bool *ret)
{
return drgn_type_has_member_len(type, member_name, strlen(member_name),
ret);
}
/**
* Format the name of a type as a string.
*
* This will format the name of the type as it would be referred to in its
* programming language.
*
* @param[in] qualified_type Type to format.
* @param[out] ret Returned string. On success, it must be freed with @c free().
* On error, its contents are undefined.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_format_type_name(struct drgn_qualified_type qualified_type, char **ret);
/**
* Format the definition of a type as a string.
*
* This will format the type as it would be defined in its programming language.
*
* @param[in] qualified_type Type to format.
* @param[out] ret Returned string. On success, it must be freed with @c free().
* On error, its contents are undefined.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_format_type(struct drgn_qualified_type qualified_type,
char **ret);
/** @} */
/**
* @defgroup Symbols Symbols
*
* Symbol table entries.
*
* @sa drgn_program_find_symbol_by_address()
*
* @{
*/
/** Symbol linkage behavior and visibility. */
enum drgn_symbol_binding {
DRGN_SYMBOL_BINDING_UNKNOWN,
/*
* These values match the ELF STB_* definitions (offset by 1). This is
* an implementation detail; future values may not correspond 1:1 with
* ELF definitions.
*/
DRGN_SYMBOL_BINDING_LOCAL,
DRGN_SYMBOL_BINDING_GLOBAL,
DRGN_SYMBOL_BINDING_WEAK,
DRGN_SYMBOL_BINDING_UNIQUE = 11, /* STB_GNU_UNIQUE + 1 */
};
/** Kind of entity represented by a symbol. */
enum drgn_symbol_kind {
/*
* Like enum drgn_symbol_binding, these values match the ELF STT_*
* definitions, but this will not necessarily be true for future values.
*/
DRGN_SYMBOL_KIND_UNKNOWN,
DRGN_SYMBOL_KIND_OBJECT,
DRGN_SYMBOL_KIND_FUNC,
DRGN_SYMBOL_KIND_SECTION,
DRGN_SYMBOL_KIND_FILE,
DRGN_SYMBOL_KIND_COMMON,
DRGN_SYMBOL_KIND_TLS,
DRGN_SYMBOL_KIND_IFUNC = 10, /* STT_GNU_IFUNC */
};
/** Destroy a @ref drgn_symbol. */
void drgn_symbol_destroy(struct drgn_symbol *sym);
/**
* Destroy each @ref drgn_symbol in @syms, and free the array.
*
* This will ignore any @c NULL entry in the array, allowing you to take
* ownership of any symbol from the array prior to freeing the rest. For each
* symbol you take ownership of, you must free it with @ref
* drgn_symbol_destroy().
*/
void drgn_symbols_destroy(struct drgn_symbol **syms, size_t count);
/**
* Get the name of a @ref drgn_symbol.
*
* The returned string is valid until @p sym is destroyed. It should not be
* freed.
*/
const char *drgn_symbol_name(struct drgn_symbol *sym);
/** Get the start address of a @ref drgn_symbol. */
uint64_t drgn_symbol_address(struct drgn_symbol *sym);
/** Get the size in bytes of a @ref drgn_symbol. */
uint64_t drgn_symbol_size(struct drgn_symbol *sym);
/** Get the binding of a @ref drgn_symbol. */
enum drgn_symbol_binding drgn_symbol_binding(struct drgn_symbol *sym);
/** Get the kind of a @ref drgn_symbol. */
enum drgn_symbol_kind drgn_symbol_kind(struct drgn_symbol *sym);
/** Return whether two symbols are identical. */
bool drgn_symbol_eq(struct drgn_symbol *a, struct drgn_symbol *b);
/** @} */
/**
* @defgroup StackTraces Stack traces
*
* Call stacks and stack frames.
*
* @{
*/
struct drgn_stack_trace; // IWYU pragma: export
/** Destroy a @ref drgn_stack_trace. */
void drgn_stack_trace_destroy(struct drgn_stack_trace *trace);
/** Get the @ref drgn_program that a @ref drgn_stack_trace came from. */
struct drgn_program *drgn_stack_trace_program(struct drgn_stack_trace *trace);
/** Get the number of stack frames in a stack trace. */
size_t drgn_stack_trace_num_frames(struct drgn_stack_trace *trace);
/**
* Format a stack trace as a string.
*
* @param[out] ret Returned string. On success, it must be freed with @c free().
* On error, its contents are undefined.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_format_stack_trace(struct drgn_stack_trace *trace,
char **ret);
/** Return whether a stack frame was interrupted (e.g., by a signal). */
bool drgn_stack_frame_interrupted(struct drgn_stack_trace *trace, size_t frame);
/**
* Format a stack frame as a string.
*
* @param[out] ret Returned string. On success, it must be freed with @c free().
* On error, its contents are undefined.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_format_stack_frame(struct drgn_stack_trace *trace,
size_t frame, char **ret);
/**
* Get the name of the function at a stack frame.
*
* @return Function name. This is valid until the stack trace is destroyed; it
* should not be freed. @c NULL if the name could not be determined.
*/
const char *drgn_stack_frame_name(struct drgn_stack_trace *trace, size_t frame);
/** Return whether a stack frame is for an inlined call. */
bool drgn_stack_frame_is_inline(struct drgn_stack_trace *trace, size_t frame);
/**
* Get the source code location of a stack frame.
*
* @param[out] line_ret Returned line number. Returned as 0 if unknown. May be
* @c NULL if not needed.
* @param[out] column_ret Returned column number. Returned as 0 if unknown. May
* be @c NULL if not needed.
* @return Filename. This is valid until the stack trace is destroyed; it should
* not be freed. @c NULL if the location could not be determined (in which case
* `*line_ret` and `*column_ret` are undefined).
*/
const char *drgn_stack_frame_source(struct drgn_stack_trace *trace,
size_t frame, int *line_ret,
int *column_ret);
/**
* Get the program counter at a stack frame.
*
* @param[out] ret Returned program counter.
* @return @c true if the program counter is known, @c false if it is not.
*/
bool drgn_stack_frame_pc(struct drgn_stack_trace *trace, size_t frame,
uint64_t *ret);
/**
* Get the stack pointer at a stack frame.
*
* @param[out] ret Returned stack pointer.
* @return @c true if the stack pointer is known, @c false if it is not.
*/
bool drgn_stack_frame_sp(struct drgn_stack_trace *trace, size_t frame,
uint64_t *ret);
/**
* Get the function symbol at a stack frame.
*
* @param[out] ret Returned symbol. On success, it should be freed with @ref
* drgn_symbol_destroy(). On error, its contents are undefined.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_stack_frame_symbol(struct drgn_stack_trace *trace,
size_t frame,
struct drgn_symbol **ret);
/**
* Get the names of local objects in the scope of this frame.
*
* The array of names must be freed with @ref drgn_stack_frame_locals_destroy().
*
* @param[out] names_ret Returned array of names. On success, must be freed with
* @ref drgn_stack_frame_locals_destroy().
* @param[out] count_ret Returned number of names in @p names_ret.
* @return @c NULL on success, non-@c NULL on error
*/
struct drgn_error *
drgn_stack_frame_locals(struct drgn_stack_trace *trace, size_t frame,
const char ***names_ret, size_t *count_ret);
/**
* Free an array of names returned by @ref drgn_stack_frame_locals().
*
* The individual names from this array are invalid once this function is
* called. Any string which will be used later should be copied.
*
* @param names Array of names returned by @ref drgn_stack_frame_locals().
* @param count Count returned by @ref drgn_stack_frame_locals().
*/
void drgn_stack_frame_locals_destroy(const char **names, size_t count);
/**
* Find an object in the scope of a stack frame.
*
* @param[in] name Object name.
* @param[out] ret Returned object. This must have already been initialized with
* @ref drgn_object_init().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_stack_frame_find_object(struct drgn_stack_trace *trace, size_t frame,
const char *name, struct drgn_object *ret);
/**
* Get the value of a register in a stack frame.
*
* @param[in] reg Register to get. Must be from the platform of the program that
* the trace was taken from.
* @param[out] ret Returned register value.
* @return @c true on success, @c false if the value is not known or the
* register is too large to return in a @c uint64_t.
*/
bool drgn_stack_frame_register(struct drgn_stack_trace *trace, size_t frame,
const struct drgn_register *reg, uint64_t *ret);
/**
* Get a stack trace for the thread with the given thread ID.
*
* @param[out] ret Returned stack trace. On success, it should be freed with
* @ref drgn_stack_trace_destroy(). On error, its contents are undefined.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_stack_trace(struct drgn_program *prog,
uint32_t tid,
struct drgn_stack_trace **ret);
/**
* Get a stack trace for the thread represented by @p obj.
*
* @sa drgn_program_stack_trace().
*/
struct drgn_error *drgn_object_stack_trace(const struct drgn_object *obj,
struct drgn_stack_trace **ret);
/** @} */
/**
* @defgroup Threads Threads
*
* Threads in a program.
*
* @{
*/
/**
* @struct drgn_thread
*
* A thread in a program.
*/
struct drgn_thread;
/**
* Create a copy of a @ref drgn_thread.
*
* @param[in] thread Thread to copy.
* @param[out] ret Returned copy. On success, must be destroyed with @ref
* drgn_thread_destroy().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_thread_dup(const struct drgn_thread *thread,
struct drgn_thread **ret);
/** Free a @ref drgn_thread. */
void drgn_thread_destroy(struct drgn_thread *thread);
/**
* @struct drgn_thread_iterator
*
* An iterator over all the threads in a program.
*/
struct drgn_thread_iterator;
/**
* Get an iterator over all of the threads in the program.
*
* @param[out] ret Returned iterator, which can be advanced with @ref
* drgn_thread_iterator_next, and must be destroyed with @ref
* drgn_thread_iterator_destroy.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *
drgn_thread_iterator_create(struct drgn_program *prog,
struct drgn_thread_iterator **ret);
/** Free a @ref drgn_thread_iterator. */
void drgn_thread_iterator_destroy(struct drgn_thread_iterator *it);
/**
* Get the next thread from a @ref drgn_thread_iterator.
*
* @param[out] ret Borrowed thread handle, or @c NULL if there are no more
* threads. This is valid until until the next call to @ref
* drgn_thread_iterator_next() with the same @p it, or until @p it is destroyed.
* It may be copied with @ref drgn_thread_dup() if it is needed for longer. This
* must NOT be destroyed with @ref drgn_thread_destroy().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_thread_iterator_next(struct drgn_thread_iterator *it,
struct drgn_thread **ret);
/**
* Get the thread with the given thread ID.
*
* @param[in] tid Thread ID.
* @param[out] ret New thread handle, or @c NULL if not found. On success, must
* be destroyed with @ref drgn_thread_destroy().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_find_thread(struct drgn_program *prog,
uint32_t tid,
struct drgn_thread **ret);
/**
* Get the main program thread.
*
* @param[out] ret Borrowed thread handle. This is valid for the lifetime of @p
* prog. This must NOT be destroyed with @ref drgn_thread_destroy().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_main_thread(struct drgn_program *prog,
struct drgn_thread **ret);
/**
* Get the thread that caused the program to crash.
*
* @param[out] ret Borrowed thread handle. This is valid for the lifetime of @p
* prog. This must NOT be destroyed with @ref drgn_thread_destroy().
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_program_crashed_thread(struct drgn_program *prog,
struct drgn_thread **ret);
/**
* Get the object for the given thread. This is currently only defined for the
* Linux kernel.
*
* @param[out] ret Returned object. This must not be modified and is valid for
* the lifetime of @p thread. It can be copied with @ref drgn_object_copy() if
* it is needed for longer.
* @return @c NULL on success, non-@c NULL on error.
*/
struct drgn_error *drgn_thread_object(struct drgn_thread *thread,
const struct drgn_object **ret);
/**
* Get a stack trace for the thread represented by @p thread.
*
* @sa drgn_program_stack_trace().
*/
struct drgn_error *drgn_thread_stack_trace(struct drgn_thread *thread,
struct drgn_stack_trace **ret);
/** @} */
#endif /* DRGN_H */