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* Gdb-Internals: (gdbint). The GNU debugger's internals.
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File:, Node: GDB Observers, Next: GNU Free Documentation License, Prev: Hints, Up: Top
Appendix A GDB Currently available observers
A.1 Implementation rationale
An "observer" is an entity which is interested in being notified when
GDB reaches certain states, or certain events occur in GDB. The entity
being observed is called the "subject". To receive notifications, the
observer attaches a callback to the subject. One subject can have
several observers.
`observer.c' implements an internal generic low-level event
notification mechanism. This generic event notification mechanism is
then re-used to implement the exported high-level notification
management routines for all possible notifications.
The current implementation of the generic observer provides support
for contextual data. This contextual data is given to the subject when
attaching the callback. In return, the subject will provide this
contextual data back to the observer as a parameter of the callback.
Note that the current support for the contextual data is only
partial, as it lacks a mechanism that would deallocate this data when
the callback is detached. This is not a problem so far, as this
contextual data is only used internally to hold a function pointer.
Later on, if a certain observer needs to provide support for user-level
contextual data, then the generic notification mechanism will need to be
enhanced to allow the observer to provide a routine to deallocate the
data when attaching the callback.
The observer implementation is also currently not reentrant. In
particular, it is therefore not possible to call the attach or detach
routines during a notification.
A.2 Debugging
Observer notifications can be traced using the command `set debug
observer 1' (*note Optional messages about internal happenings:
(gdb)Debugging Output.).
A.3 `normal_stop' Notifications
GDB notifies all `normal_stop' observers when the inferior execution
has just stopped, the associated messages and annotations have been
printed, and the control is about to be returned to the user.
Note that the `normal_stop' notification is not emitted when the
execution stops due to a breakpoint, and this breakpoint has a
condition that is not met. If the breakpoint has any associated
commands list, the commands are executed after the notification is
The following interfaces are available to manage observers:
-- Function: extern struct observer *observer_attach_EVENT
(observer_EVENT_ftype *F)
Using the function F, create an observer that is notified when
ever EVENT occurs, return the observer.
-- Function: extern void observer_detach_EVENT (struct observer
Remove OBSERVER from the list of observers to be notified when
EVENT occurs.
-- Function: extern void observer_notify_EVENT (void);
Send a notification to all EVENT observers.
The following observable events are defined:
-- Function: void normal_stop (struct bpstats *BS, int PRINT_FRAME)
The inferior has stopped for real. The BS argument describes the
breakpoints were are stopped at, if any. Second argument
PRINT_FRAME non-zero means display the location where the inferior
has stopped.
-- Function: void target_changed (struct target_ops *TARGET)
The target's register contents have changed.
-- Function: void executable_changed (void)
The executable being debugged by GDB has changed: The user decided
to debug a different program, or the program he was debugging has
been modified since being loaded by the debugger (by being
recompiled, for instance).
-- Function: void inferior_created (struct target_ops *OBJFILE, int
GDB has just connected to an inferior. For `run', GDB calls this
observer while the inferior is still stopped at the entry-point
instruction. For `attach' and `core', GDB calls this observer
immediately after connecting to the inferior, and before any
information on the inferior has been printed.
-- Function: void solib_loaded (struct so_list *SOLIB)
The shared library specified by SOLIB has been loaded. Note that
when GDB calls this observer, the library's symbols probably
haven't been loaded yet.
-- Function: void solib_unloaded (struct so_list *SOLIB)
The shared library specified by SOLIB has been unloaded. Note
that when GDB calls this observer, the library's symbols have not
been unloaded yet, and thus are still available.
-- Function: void new_objfile (struct objfile *OBJFILE)
The symbol file specified by OBJFILE has been loaded. Called with
OBJFILE equal to `NULL' to indicate previously loaded symbol table
data has now been invalidated.
-- Function: void new_thread (struct thread_info *T)
The thread specified by T has been created.
-- Function: void thread_exit (struct thread_info *T, int SILENT)
The thread specified by T has exited. The SILENT argument
indicates that GDB is removing the thread from its tables without
wanting to notify the user about it.
-- Function: void thread_stop_requested (ptid_t PTID)
An explicit stop request was issued to PTID. If PTID equals
MINUS_ONE_PTID, the request applied to all threads. If
`ptid_is_pid(ptid)' returns true, the request applied to all
threads of the process pointed at by PTID. Otherwise, the request
applied to the single thread pointed at by PTID.
-- Function: void target_resumed (ptid_t PTID)
The target was resumed. The PTID parameter specifies which thread
was resume, and may be RESUME_ALL if all threads are resumed.
-- Function: void about_to_proceed (void)
The target is about to be proceeded.
-- Function: void breakpoint_created (int BPNUM)
A new breakpoint has been created. The argument BPNUM is the
number of the newly-created breakpoint.
-- Function: void breakpoint_deleted (int BPNUM)
A breakpoint has been destroyed. The argument BPNUM is the number
of the newly-destroyed breakpoint.
-- Function: void breakpoint_modified (int BPNUM)
A breakpoint has been modified in some way. The argument BPNUM is
the number of the modified breakpoint.
-- Function: void tracepoint_created (int TPNUM)
A new tracepoint has been created. The argument TPNUM is the
number of the newly-created tracepoint.
-- Function: void tracepoint_deleted (int TPNUM)
A tracepoint has been destroyed. The argument TPNUM is the number
of the newly-destroyed tracepoint.
-- Function: void tracepoint_modified (int TPNUM)
A tracepoint has been modified in some way. The argument TPNUM is
the number of the modified tracepoint.
-- Function: void architecture_changed (struct gdbarch *NEWARCH)
The current architecture has changed. The argument NEWARCH is a
pointer to the new architecture.
-- Function: void thread_ptid_changed (ptid_t OLD_PTID, ptid_t
The thread's ptid has changed. The OLD_PTID parameter specifies
the old value, and NEW_PTID specifies the new value.
-- Function: void inferior_added (struct inferior *INF)
The inferior INF has been added to the list of inferiors. At this
point, it might not be associated with any process.
-- Function: void inferior_appeared (struct inferior *INF)
The inferior identified by INF has been attached to a process.
-- Function: void inferior_exit (struct inferior *INF)
Either the inferior associated with INF has been detached from the
process, or the process has exited.
-- Function: void inferior_removed (struct inferior *INF)
The inferior INF has been removed from the list of inferiors.
This method is called immediately before freeing INF.
-- Function: void memory_changed (CORE_ADDR ADDR, int LEN, const
bfd_byte *DATA)
Bytes from DATA to DATA + LEN have been written to the current
inferior at ADDR.
-- Function: void test_notification (int SOMEARG)
This observer is used for internal testing. Do not use. See

File:, Node: GNU Free Documentation License, Next: Index, Prev: GDB Observers, Up: Top
Appendix B GNU Free Documentation License
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File:, Node: Index, Prev: GNU Free Documentation License, Up: Top
* Menu:
* $fp: Register Information Functions.
(line 126)
* $pc: Register Architecture Functions & Variables.
(line 58)
* $ps: Register Architecture Functions & Variables.
(line 69)
* $sp: Register Architecture Functions & Variables.
(line 49)
* _initialize_ARCH_tdep <1>: Adding a New Target. (line 22)
* _initialize_ARCH_tdep: How an Architecture is Represented.
(line 13)
* _initialize_language: Language Support. (line 79)
* a.out format: Symbol Handling. (line 218)
* about_to_proceed: GDB Observers. (line 133)
* abstract interpretation of function prologues: Algorithms. (line 48)
* add_cmd: User Interface. (line 21)
* add_com: User Interface. (line 21)
* add_setshow_cmd: User Interface. (line 26)
* add_setshow_cmd_full: User Interface. (line 26)
* add_symtab_fns: Symbol Handling. (line 37)
* adding a new host: Host Definition. (line 13)
* adding a symbol-reading module: Symbol Handling. (line 37)
* adding a target: Adding a New Target. (line 6)
* adding debugging info reader: Symbol Handling. (line 365)
* adding source language: Language Support. (line 17)
* address classes: Address Classes. (line 6)
* address representation: Pointers and Addresses.
(line 6)
* address spaces, separate data and code: Pointers and Addresses.
(line 6)
* address_class_name_to_type_flags: Defining Other Architecture Features.
(line 28)
* address_class_name_to_type_flags_p: Defining Other Architecture Features.
(line 39)
* algorithms: Algorithms. (line 6)
* align_down: Functions and Variable to Analyze Frames.
(line 46)
* align_up: Functions and Variable to Analyze Frames.
(line 46)
* allocate_symtab: Language Support. (line 83)
* ARCH-tdep.c: How an Architecture is Represented.
(line 13)
* architecture representation: How an Architecture is Represented.
(line 6)
* architecture_changed: GDB Observers. (line 160)
* Array Containers: Support Libraries. (line 131)
* assumptions about targets: Coding. (line 519)
* base of a frame: Frame Handling Terminology.
(line 28)
* BFD library: Support Libraries. (line 9)
* bfd_arch_info: Looking Up an Existing Architecture.
(line 41)
* BIG_BREAKPOINT: Defining Other Architecture Features.
(line 100)
* BPT_VECTOR: Defining Other Architecture Features.
(line 536)
* BREAKPOINT: Defining Other Architecture Features.
(line 88)
* breakpoint address adjusted: Defining Other Architecture Features.
(line 145)
* breakpoint_created: GDB Observers. (line 136)
* breakpoint_deleted: GDB Observers. (line 140)
* breakpoint_modified: GDB Observers. (line 144)
* breakpoints: Algorithms. (line 151)
* bug-gdb mailing list: Getting Started. (line 72)
* build script: Debugging GDB. (line 94)
* C data types: Coding. (line 389)
* call frame information: Algorithms. (line 14)
* call stack frame: Stack Frames. (line 6)
* calls to the inferior: Inferior Call Setup. (line 6)
* CC_HAS_LONG_LONG: Host Definition. (line 105)
* CFI (call frame information): Algorithms. (line 14)
* checkpoints: Algorithms. (line 600)
* cleanups: Coding. (line 12)
* CLI: User Interface. (line 12)
* code pointers, word-addressed: Pointers and Addresses.
(line 6)
* coding standards: Coding. (line 215)
* COFF debugging info: Symbol Handling. (line 315)
* COFF format: Symbol Handling. (line 233)
* command implementation: Getting Started. (line 60)
* command interpreter: User Interface. (line 12)
* comment formatting: Coding. (line 363)
* compiler warnings: Coding. (line 271)
* Compressed DWARF 2 debugging info: Symbol Handling. (line 335)
* computed values: Values. (line 35)
* configure.tgt: How an Architecture is Represented.
(line 19)
* converting between pointers and addresses: Pointers and Addresses.
(line 6)
* converting integers to addresses: Defining Other Architecture Features.
(line 274)
* cooked register representation: Raw and Cooked Registers.
(line 6)
* core files: Adding support for debugging core files.
(line 6)
* core_addr_greaterthan: Functions and Variable to Analyze Frames.
(line 30)
* core_addr_lessthan: Functions and Variable to Analyze Frames.
(line 30)
* CRLF_SOURCE_FILES: Host Definition. (line 86)
* current_language: Language Support. (line 75)
* D10V addresses: Pointers and Addresses.
(line 6)
* data output: User Interface. (line 254)
* data-pointer, per-architecture/per-module: Coding. (line 100)
* debugging GDB: Debugging GDB. (line 6)
* DEFAULT_PROMPT: Host Definition. (line 93)
* deprecate_cmd: User Interface. (line 32)
* DEPRECATED_IBM6000_TARGET: Defining Other Architecture Features.
(line 242)
* deprecating commands: User Interface. (line 32)
* design: Coding. (line 514)
* DEV_TTY: Host Definition. (line 96)
* DIRNAME_SEPARATOR: Coding. (line 584)
* DISABLE_UNSETTABLE_BREAK: Defining Other Architecture Features.
(line 211)
* discard_cleanups: Coding. (line 39)
* do_cleanups: Coding. (line 35)
* DOS text files: Host Definition. (line 87)
* dummy frames: About Dummy Frames. (line 6)
* DW_AT_address_class: Address Classes. (line 6)
* DW_AT_byte_size: Address Classes. (line 6)
* DWARF 2 debugging info: Symbol Handling. (line 328)
* DWARF 3 debugging info: Symbol Handling. (line 355)
* ECOFF debugging info: Symbol Handling. (line 321)
* ECOFF format: Symbol Handling. (line 248)
* ELF format: Symbol Handling. (line 281)
* evaluate_subexp: Language Support. (line 58)
* executable_changed: GDB Observers. (line 85)
* execution state: Managing Execution State.
(line 6)
* experimental branches: Versions and Branches.
(line 116)
* expression evaluation routines: Language Support. (line 58)
* expression parser: Language Support. (line 21)
* extract_typed_address: Pointers and Addresses.
(line 52)
* field output functions: User Interface. (line 254)
* file names, portability: Coding. (line 552)
* FILENAME_CMP: Coding. (line 578)
* find_pc_function: Symbol Handling. (line 136)
* find_pc_line: Symbol Handling. (line 136)
* find_sym_fns: Symbol Handling. (line 32)
* finding a symbol: Symbol Handling. (line 133)
* fine-tuning gdbarch structure: OS ABI Variant Handling.
(line 23)
* first floating point register: Register Architecture Functions & Variables.
(line 78)
* FOPEN_RB: Host Definition. (line 102)
* fp0_regnum: Register Architecture Functions & Variables.
(line 78)
* frame: Stack Frames. (line 6)
* frame ID: Stack Frames. (line 41)
* frame pointer: Register Information Functions.
(line 126)
* frame, definition of base of a frame: Frame Handling Terminology.
(line 28)
* frame, definition of innermost frame: Frame Handling Terminology.
(line 24)
* frame, definition of NEXT frame: Frame Handling Terminology.
(line 11)
* frame, definition of PREVIOUS frame: Frame Handling Terminology.
(line 14)
* frame, definition of sentinel frame: Frame Handling Terminology.
(line 52)
* frame, definition of sniffing: Frame Handling Terminology.
(line 46)
* frame, definition of THIS frame: Frame Handling Terminology.
(line 9)
* frame, definition of unwinding: Frame Handling Terminology.
(line 41)
* frame_align: Functions and Variable to Analyze Frames.
(line 46)
* frame_base: Analyzing Stacks---Frame Sniffers.
(line 89)
* frame_base_append_sniffer: Analyzing Stacks---Frame Sniffers.
(line 19)
* frame_base_set_default: Analyzing Stacks---Frame Sniffers.
(line 22)
* frame_num_args: Functions to Access Frame Data.
(line 43)
* frame_red_zone_size: Functions and Variable to Analyze Frames.
(line 63)
* frame_register_unwind: Stack Frames. (line 15)
* frame_unwind: Analyzing Stacks---Frame Sniffers.
(line 36)
* frame_unwind_append_sniffer: Analyzing Stacks---Frame Sniffers.
(line 16)
* frame_unwind_append_unwinder: Stack Frames. (line 30)
* frame_unwind_got_address: Stack Frames. (line 105)
* frame_unwind_got_constant: Stack Frames. (line 101)
* frame_unwind_got_memory: Stack Frames. (line 98)
* frame_unwind_got_optimized: Stack Frames. (line 90)
* frame_unwind_got_register: Stack Frames. (line 93)
* frame_unwind_prepend_unwinder: Stack Frames. (line 30)
* full symbol table: Symbol Handling. (line 104)
* function prologue: Prologue Caches. (line 6)
* function prototypes: Coding. (line 411)
* function usage: Coding. (line 393)
* fundamental types: Symbol Handling. (line 183)
* GCC2_COMPILED_FLAG_SYMBOL: Defining Other Architecture Features.
(line 225)
* GCC_COMPILED_FLAG_SYMBOL: Defining Other Architecture Features.
(line 225)
* GDB source tree structure: Overall Structure. (line 83)
* gdb_byte: Register Caching. (line 23)
* GDB_OSABI_AIX: OS ABI Variant Handling.
(line 90)
* GDB_OSABI_CYGWIN: OS ABI Variant Handling.
(line 87)
(line 51)
(line 54)
* GDB_OSABI_GO32: OS ABI Variant Handling.
(line 69)
* GDB_OSABI_HPUX_ELF: OS ABI Variant Handling.
(line 78)
* GDB_OSABI_HPUX_SOM: OS ABI Variant Handling.
(line 81)
* GDB_OSABI_HURD: OS ABI Variant Handling.
(line 39)
* GDB_OSABI_INTERIX: OS ABI Variant Handling.
(line 75)
* GDB_OSABI_IRIX: OS ABI Variant Handling.
(line 72)
* GDB_OSABI_LINUX: OS ABI Variant Handling.
(line 48)
(line 57)
* GDB_OSABI_NETBSD_ELF: OS ABI Variant Handling.
(line 60)
(line 63)
* GDB_OSABI_OSF1: OS ABI Variant Handling.
(line 45)
* GDB_OSABI_QNXNTO: OS ABI Variant Handling.
(line 84)
* GDB_OSABI_SOLARIS: OS ABI Variant Handling.
(line 42)
* GDB_OSABI_SVR4: OS ABI Variant Handling.
(line 36)
(line 29)
* GDB_OSABI_UNKNOWN: OS ABI Variant Handling.
(line 32)
* GDB_OSABI_WINCE: OS ABI Variant Handling.
(line 66)
* gdbarch: How an Architecture is Represented.
(line 19)
* gdbarch accessor functions: Creating a New Architecture.
(line 14)
* gdbarch lookup: Looking Up an Existing Architecture.
(line 6)
* gdbarch register architecture functions: Register Architecture Functions & Variables.
(line 6)
* gdbarch register information functions: Register Information Functions.
(line 6)
* gdbarch_addr_bits_remove: Defining Other Architecture Features.
(line 11)
* gdbarch_address_class_name_to_type_flags: Address Classes. (line 30)
* gdbarch_address_class_type_flags <1>: Defining Other Architecture Features.
(line 43)
* gdbarch_address_class_type_flags: Address Classes. (line 18)
* gdbarch_address_class_type_flags_p: Defining Other Architecture Features.
(line 52)
* gdbarch_address_class_type_flags_to_name <1>: Defining Other Architecture Features.
(line 56)
* gdbarch_address_class_type_flags_to_name: Address Classes. (line 25)
* gdbarch_address_class_type_flags_to_name_p: Defining Other Architecture Features.
(line 60)
* gdbarch_address_to_pointer <1>: Defining Other Architecture Features.
(line 65)
* gdbarch_address_to_pointer: Pointers and Addresses.
(line 114)
* gdbarch_adjust_breakpoint_address: Defining Other Architecture Features.
(line 145)
* gdbarch_alloc: Creating a New Architecture.
(line 6)
* gdbarch_believe_pcc_promotion: Defining Other Architecture Features.
(line 72)
* gdbarch_bits_big_endian: Defining Other Architecture Features.
(line 77)
* gdbarch_breakpoint_from_pc: Defining Other Architecture Features.
(line 106)
* gdbarch_call_dummy_location: Defining Other Architecture Features.
(line 178)
* gdbarch_cannot_fetch_register: Defining Other Architecture Features.
(line 184)
* gdbarch_cannot_store_register: Defining Other Architecture Features.
(line 188)
* gdbarch_char_signed: Defining Other Architecture Features.
(line 461)
* gdbarch_convert_register_p <1>: Defining Other Architecture Features.
(line 195)
* gdbarch_convert_register_p: Register and Memory Data.
(line 30)
* gdbarch_data: Coding. (line 133)
* gdbarch_data_register_post_init: Coding. (line 118)
* gdbarch_data_register_pre_init: Coding. (line 108)
* gdbarch_decr_pc_after_break: Defining Other Architecture Features.
(line 205)
* gdbarch_deprecated_fp_regnum: Defining Other Architecture Features.
(line 446)
* gdbarch_double_bit: Defining Other Architecture Features.
(line 471)
* gdbarch_dummy_id: Defining Other Architecture Features.
(line 523)
* gdbarch_dwarf2_reg_to_regnum: Defining Other Architecture Features.
(line 216)
* gdbarch_ecoff_reg_to_regnum: Defining Other Architecture Features.
(line 220)
* gdbarch_float_bit: Defining Other Architecture Features.
(line 475)
* gdbarch_fp0_regnum: Defining Other Architecture Features.
(line 200)
* gdbarch_get_longjmp_target <1>: Defining Other Architecture Features.
(line 231)
* gdbarch_get_longjmp_target: Algorithms. (line 263)
* gdbarch_have_nonsteppable_watchpoint: Algorithms. (line 396)
* gdbarch_in_function_epilogue_p: Defining Other Architecture Features.
(line 253)
* gdbarch_in_solib_return_trampoline: Defining Other Architecture Features.
(line 259)
* gdbarch_info: Looking Up an Existing Architecture.
(line 22)
* gdbarch_init_osabi: OS ABI Variant Handling.
(line 125)
* gdbarch_int_bit: Defining Other Architecture Features.
(line 478)
* gdbarch_integer_to_address: Defining Other Architecture Features.
(line 274)
* gdbarch_list_lookup_by_info: Looking Up an Existing Architecture.
(line 22)
* gdbarch_long_bit: Defining Other Architecture Features.
(line 481)
* gdbarch_long_double_bit: Defining Other Architecture Features.
(line 485)
* gdbarch_long_long_bit: Defining Other Architecture Features.
(line 489)
* gdbarch_lookup_osabi: OS ABI Variant Handling.
(line 119)
* gdbarch_memory_insert_breakpoint: Defining Other Architecture Features.
(line 130)
* gdbarch_memory_remove_breakpoint: Defining Other Architecture Features.
(line 130)
* gdbarch_osabi_name: OS ABI Variant Handling.
(line 97)
* gdbarch_pointer_to_address <1>: Defining Other Architecture Features.
(line 295)
* gdbarch_pointer_to_address: Pointers and Addresses.
(line 105)
* gdbarch_print_insn: Defining Other Architecture Features.
(line 513)
* gdbarch_ptr_bit: Defining Other Architecture Features.
(line 493)
* gdbarch_push_dummy_call: Defining Other Architecture Features.
(line 363)
* gdbarch_push_dummy_code: Defining Other Architecture Features.
(line 375)
* gdbarch_register <1>: Adding a New Target. (line 40)
* gdbarch_register: How an Architecture is Represented.
(line 19)
* gdbarch_register_osabi: OS ABI Variant Handling.
(line 103)
* gdbarch_register_osabi_sniffer: OS ABI Variant Handling.
(line 112)
* gdbarch_register_to_value <1>: Defining Other Architecture Features.
(line 301)
* gdbarch_register_to_value: Register and Memory Data.
(line 46)
* gdbarch_return_value: Defining Other Architecture Features.
(line 394)
* gdbarch_sdb_reg_to_regnum: Defining Other Architecture Features.
(line 390)
* gdbarch_short_bit: Defining Other Architecture Features.
(line 497)
* gdbarch_skip_permanent_breakpoint: Defining Other Architecture Features.
(line 430)
* gdbarch_skip_trampoline_code: Defining Other Architecture Features.
(line 441)
* gdbarch_stab_reg_to_regnum: Defining Other Architecture Features.
(line 450)
* gdbarch_stabs_argument_has_addr: Defining Other Architecture Features.
(line 359)
* gdbarch_tdep definition: Creating a New Architecture.
(line 34)
* gdbarch_tdep when allocating new gdbarch: Creating a New Architecture.
(line 6)
* gdbarch_value_to_register <1>: Defining Other Architecture Features.
(line 529)
* gdbarch_value_to_register: Register and Memory Data.
(line 62)
* gdbarch_virtual_frame_pointer: Defining Other Architecture Features.
(line 501)
* GDBINIT_FILENAME: Host Definition. (line 74)
* generic host support: Host Definition. (line 38)
* generic_elf_osabi_sniff_abi_tag_sections: OS ABI Variant Handling.
(line 133)
* get_frame_register: Stack Frames. (line 15)
* get_frame_type: Stack Frames. (line 22)
* hardware breakpoints: Algorithms. (line 158)
* hardware watchpoints: Algorithms. (line 280)
* HAVE_CONTINUABLE_WATCHPOINT: Algorithms. (line 402)
* HAVE_DOS_BASED_FILE_SYSTEM: Coding. (line 561)
* HAVE_STEPPABLE_WATCHPOINT: Algorithms. (line 386)
* host: Overall Structure. (line 50)
* host, adding: Host Definition. (line 13)
* i386_cleanup_dregs: Algorithms. (line 576)
* I386_DR_LOW_GET_STATUS: Algorithms. (line 489)
* I386_DR_LOW_RESET_ADDR: Algorithms. (line 485)
* I386_DR_LOW_SET_ADDR: Algorithms. (line 482)
* I386_DR_LOW_SET_CONTROL: Algorithms. (line 479)
* i386_insert_hw_breakpoint: Algorithms. (line 564)
* i386_insert_watchpoint: Algorithms. (line 536)
* i386_region_ok_for_watchpoint: Algorithms. (line 514)
* i386_remove_hw_breakpoint: Algorithms. (line 564)
* i386_remove_watchpoint: Algorithms. (line 536)
* i386_stopped_by_watchpoint: Algorithms. (line 528)
* i386_stopped_data_address: Algorithms. (line 521)
* I386_USE_GENERIC_WATCHPOINTS: Algorithms. (line 461)
* in_dynsym_resolve_code: Defining Other Architecture Features.
(line 263)
* inferior_added: GDB Observers. (line 169)
* inferior_appeared: GDB Observers. (line 173)
* inferior_created: GDB Observers. (line 92)
* inferior_exit: GDB Observers. (line 176)
* inferior_removed: GDB Observers. (line 180)
* inner_than: Functions and Variable to Analyze Frames.
(line 30)
* innermost frame: Frame Handling Terminology.
(line 24)
* insert or remove hardware breakpoint: Algorithms. (line 234)
* insert or remove hardware watchpoint: Algorithms. (line 347)
* insert or remove software breakpoint: Algorithms. (line 211)
* IS_ABSOLUTE_PATH: Coding. (line 572)
* IS_DIR_SEPARATOR: Coding. (line 567)
* ISATTY: Host Definition. (line 99)
* item output functions: User Interface. (line 254)
* language parser: Language Support. (line 25)
* language support: Language Support. (line 6)
* legal papers for code contributions: Debugging GDB. (line 42)
* length_of_subexp: Language Support. (line 58)
* libgdb: libgdb. (line 9)
* libiberty library: Support Libraries. (line 52)
* line wrap in output: Coding. (line 191)
* lint: Host Definition. (line 119)
* list output functions: User Interface. (line 131)
* LITTLE_BREAKPOINT: Defining Other Architecture Features.
(line 100)
* long long data type: Host Definition. (line 106)
* longjmp debugging: Algorithms. (line 258)
* lookup_symbol: Symbol Handling. (line 142)
* LSEEK_NOT_LINEAR: Host Definition. (line 114)
* lval_type enumeration, for values.: Values. (line 19)
* make_cleanup: Coding. (line 28)
* make_cleanup_ui_out_list_begin_end: User Interface. (line 247)
* make_cleanup_ui_out_tuple_begin_end: User Interface. (line 223)
* making a new release of gdb: Releasing GDB. (line 6)
* memory representation: Register and Memory Data.
(line 6)
* memory_changed: GDB Observers. (line 185)
* minimal symbol table: Symbol Handling. (line 111)
* minsymtabs: Symbol Handling. (line 111)
* multi-arch data: Coding. (line 100)
* NATDEPFILES: Native Debugging. (line 8)
* native conditionals: Native Debugging. (line 75)
* native debugging: Native Debugging. (line 6)
* nesting level in ui_out functions: User Interface. (line 143)
* new year procedure: Start of New Year Procedure.
(line 6)
* new_objfile: GDB Observers. (line 109)
* new_thread: GDB Observers. (line 114)
* NEXT frame: Frame Handling Terminology.
(line 11)
* normal_stop: GDB Observers. (line 76)
* normal_stop observer: GDB Observers. (line 48)
* notification about inferior execution stop: GDB Observers. (line 48)
* notifications about changes in internals: Algorithms. (line 630)
* object file formats: Symbol Handling. (line 215)
* observer pattern interface: Algorithms. (line 630)
* observers implementation rationale: GDB Observers. (line 9)
* obstacks: Support Libraries. (line 69)
* op_print_tab: Language Support. (line 91)
* opcodes library: Support Libraries. (line 39)
* OS ABI variants: OS ABI Variant Handling.
(line 6)
* parse_exp_1: Language Support. (line 97)
* partial symbol table: Symbol Handling. (line 114)
* pc_regnum: Register Architecture Functions & Variables.
(line 58)
* PE-COFF format: Symbol Handling. (line 272)
* per-architecture module data: Coding. (line 100)
* pointer representation: Pointers and Addresses.
(line 6)
* portability: Coding. (line 535)
* portable file name handling: Coding. (line 552)
* porting to new machines: Porting GDB. (line 6)
* prefixify_subexp: Language Support. (line 58)
* PREVIOUS frame: Frame Handling Terminology.
(line 14)
* print_float_info: Register Information Functions.
(line 80)
* print_registers_info: Register Information Functions.
(line 53)
* print_subexp: Language Support. (line 91)
* print_vector_info: Register Information Functions.
(line 96)
* PRINTF_HAS_LONG_LONG: Host Definition. (line 109)
* processor status register: Register Architecture Functions & Variables.
(line 69)
* program counter <1>: Register Architecture Functions & Variables.
(line 58)
* program counter: Algorithms. (line 158)
* prologue analysis: Algorithms. (line 14)
* prologue cache: Prologue Caches. (line 12)
* prologue of a function: Prologue Caches. (line 6)
* prologue-value.c: Algorithms. (line 48)
* prompt: Host Definition. (line 94)
* ps_regnum: Register Architecture Functions & Variables.
(line 69)
* pseudo-evaluation of function prologues: Algorithms. (line 48)
* pseudo_register_read: Register Architecture Functions & Variables.
(line 29)
* pseudo_register_write: Register Architecture Functions & Variables.
(line 33)
* psymtabs: Symbol Handling. (line 107)
* push_dummy_call: Functions Creating Dummy Frames.
(line 13)
* push_dummy_code: Functions Creating Dummy Frames.
(line 57)
* raw register representation: Raw and Cooked Registers.
(line 6)
* read_pc: Register Architecture Functions & Variables.
(line 10)
* reading of symbols: Symbol Handling. (line 25)
* readline library: Support Libraries. (line 45)
* regcache_cooked_read: Register Caching. (line 23)
* regcache_cooked_read_signed: Register Caching. (line 23)
* regcache_cooked_read_unsigned: Register Caching. (line 23)
* regcache_cooked_write: Register Caching. (line 23)
* regcache_cooked_write_signed: Register Caching. (line 23)
* regcache_cooked_write_unsigned: Register Caching. (line 23)
* register caching: Register Caching. (line 6)
* register data formats, converting: Register and Memory Data.
(line 6)
* register representation: Register and Memory Data.
(line 6)
* REGISTER_CONVERT_TO_RAW: Defining Other Architecture Features.
(line 311)
* REGISTER_CONVERT_TO_VIRTUAL: Defining Other Architecture Features.
(line 306)
* register_name: Register Information Functions.
(line 10)
* register_reggroup_p: Register Information Functions.
(line 110)
* register_type: Register Information Functions.
(line 33)
* regset_from_core_section: Defining Other Architecture Features.
(line 316)
* regular expressions library: Support Libraries. (line 110)
* Release Branches: Versions and Branches.
(line 93)
* remote debugging support: Host Definition. (line 41)
* REMOTE_BPT_VECTOR: Defining Other Architecture Features.
(line 540)
* representation of architecture: How an Architecture is Represented.
(line 6)
* representations, raw and cooked registers: Raw and Cooked Registers.
(line 6)
* representations, register and memory: Register and Memory Data.
(line 6)
* requirements for GDB: Requirements. (line 6)
* restart: Algorithms. (line 600)
* running the test suite: Testsuite. (line 19)
* secondary symbol file: Symbol Handling. (line 47)
* sentinel frame <1>: Frame Handling Terminology.
(line 52)
* sentinel frame: Stack Frames. (line 22)
* SENTINEL_FRAME: Stack Frames. (line 22)
* separate data and code address spaces: Pointers and Addresses.
(line 6)
* serial line support: Host Definition. (line 41)
* set_gdbarch functions: Creating a New Architecture.
(line 14)
* set_gdbarch_bits_big_endian: Defining Other Architecture Features.
(line 83)
* set_gdbarch_sofun_address_maybe_missing: Defining Other Architecture Features.
(line 330)
* SIGWINCH_HANDLER: Host Definition. (line 78)
* SIGWINCH_HANDLER_BODY: Host Definition. (line 82)
* skip_prologue: Functions and Variable to Analyze Frames.
(line 12)
* SKIP_SOLIB_RESOLVER: Defining Other Architecture Features.
(line 267)
* SLASH_STRING: Coding. (line 589)
* sniffing: Frame Handling Terminology.
(line 46)
* software breakpoints: Algorithms. (line 184)
* software watchpoints: Algorithms. (line 280)
* SOFTWARE_SINGLE_STEP: Defining Other Architecture Features.
(line 324)
* SOFTWARE_SINGLE_STEP_P: Defining Other Architecture Features.
(line 320)
* SOLIB_ADD: Native Debugging. (line 86)
* SOLIB_CREATE_INFERIOR_HOOK: Native Debugging. (line 92)
* solib_loaded: GDB Observers. (line 99)
* solib_unloaded: GDB Observers. (line 104)
* SOM debugging info: Symbol Handling. (line 360)
* SOM format: Symbol Handling. (line 291)
* source code formatting: Coding. (line 323)
* sp_regnum: Register Architecture Functions & Variables.
(line 49)
* spaces, separate data and code address: Pointers and Addresses.
(line 6)
* stabs debugging info: Symbol Handling. (line 305)
* stack frame, definition of base of a frame: Frame Handling Terminology.
(line 28)
* stack frame, definition of innermost frame: Frame Handling Terminology.
(line 24)
* stack frame, definition of NEXT frame: Frame Handling Terminology.
(line 11)
* stack frame, definition of PREVIOUS frame: Frame Handling Terminology.
(line 14)
* stack frame, definition of sentinel frame: Frame Handling Terminology.
(line 52)
* stack frame, definition of sniffing: Frame Handling Terminology.
(line 46)
* stack frame, definition of THIS frame: Frame Handling Terminology.
(line 9)
* stack frame, definition of unwinding: Frame Handling Terminology.
(line 41)
* stack pointer: Register Architecture Functions & Variables.
(line 49)
* START_INFERIOR_TRAPS_EXPECTED: Native Debugging. (line 96)
* status register: Register Architecture Functions & Variables.
(line 69)
* STOPPED_BY_WATCHPOINT: Algorithms. (line 408)
* store_typed_address: Pointers and Addresses.
(line 70)
* struct: GDB Observers. (line 62)
* struct gdbarch creation: Creating a New Architecture.
(line 6)
* struct regcache: Register Caching. (line 10)
* struct value, converting register contents to: Register and Memory Data.
(line 6)
* submitting patches: Debugging GDB. (line 30)
* sym_fns structure: Symbol Handling. (line 37)
* symbol files: Symbol Handling. (line 25)
* symbol lookup: Symbol Handling. (line 133)
* symbol reading: Symbol Handling. (line 25)
* SYMBOL_RELOADING_DEFAULT: Defining Other Architecture Features.
(line 454)
* symtabs: Symbol Handling. (line 104)
* system dependencies: Coding. (line 539)
* table output functions: User Interface. (line 131)
* target: Overall Structure. (line 50)
* target architecture definition: Target Architecture Definition.
(line 6)
* target dependent files: Adding a New Target. (line 8)
* target descriptions: Target Descriptions. (line 6)
* target descriptions, adding register support: Adding Target Described Register Support.
(line 6)
* target descriptions, implementation: Target Descriptions Implementation.
(line 6)
* target vector: Target Vector Definition.
(line 6)
* target_changed: GDB Observers. (line 82)
* TARGET_CHAR_BIT: Defining Other Architecture Features.
(line 458)
* target_insert_breakpoint: Algorithms. (line 211)
* target_insert_hw_breakpoint: Algorithms. (line 234)
* target_insert_watchpoint: Algorithms. (line 347)
* TARGET_REGION_OK_FOR_HW_WATCHPOINT: Algorithms. (line 343)
* target_remove_breakpoint: Algorithms. (line 211)
* target_remove_hw_breakpoint: Algorithms. (line 234)
* target_remove_watchpoint: Algorithms. (line 347)
* target_resumed: GDB Observers. (line 129)
* target_stopped_data_address: Algorithms. (line 364)
* target_watchpoint_addr_within_range: Algorithms. (line 378)
* targets: Existing Targets. (line 6)
* TCP remote support: Host Definition. (line 57)
* terminal device: Host Definition. (line 97)
* test suite: Testsuite. (line 6)
* test suite organization: Testsuite. (line 195)
* test_notification: GDB Observers. (line 189)
* Testsuite Configuration: Testsuite. (line 167)
* THIS frame: Frame Handling Terminology.
(line 9)
* thread_exit: GDB Observers. (line 117)
* thread_ptid_changed: GDB Observers. (line 165)
* thread_stop_requested: GDB Observers. (line 122)
* tracepoint_created: GDB Observers. (line 148)
* tracepoint_deleted: GDB Observers. (line 152)
* tracepoint_modified: GDB Observers. (line 156)
* tuple output functions: User Interface. (line 131)
* type codes: Symbol Handling. (line 191)
* types: Coding. (line 405)
* ui_out functions: User Interface. (line 47)
* ui_out functions, usage examples: User Interface. (line 398)
* ui_out_field_core_addr: User Interface. (line 287)
* ui_out_field_fmt: User Interface. (line 261)
* ui_out_field_fmt_int: User Interface. (line 280)
* ui_out_field_int: User Interface. (line 273)
* ui_out_field_skip: User Interface. (line 352)
* ui_out_field_stream: User Interface. (line 320)
* ui_out_field_string: User Interface. (line 291)
* ui_out_flush: User Interface. (line 392)
* ui_out_list_begin: User Interface. (line 234)
* ui_out_list_end: User Interface. (line 240)
* ui_out_message: User Interface. (line 376)
* ui_out_spaces: User Interface. (line 371)
* ui_out_stream_delete: User Interface. (line 315)
* ui_out_stream_new: User Interface. (line 309)
* ui_out_table_begin: User Interface. (line 165)
* ui_out_table_body: User Interface. (line 191)
* ui_out_table_end: User Interface. (line 194)
* ui_out_table_header: User Interface. (line 178)
* ui_out_text: User Interface. (line 358)
* ui_out_tuple_begin: User Interface. (line 210)
* ui_out_tuple_end: User Interface. (line 216)
* ui_out_wrap_hint: User Interface. (line 382)
* unwind frame: Stack Frames. (line 9)
* unwind_dummy_id: Functions Creating Dummy Frames.
(line 38)
* unwind_pc: Functions to Access Frame Data.
(line 11)
* unwind_sp: Functions to Access Frame Data.
(line 27)
* unwinding: Frame Handling Terminology.
(line 41)
* using ui_out functions: User Interface. (line 398)
* value structure: Values. (line 9)
* value_as_address: Pointers and Addresses.
(line 84)
* value_from_pointer: Pointers and Addresses.
(line 93)
* values: Values. (line 9)
* VEC: Support Libraries. (line 131)
* vendor branches: Versions and Branches.
(line 108)
* void: GDB Observers. (line 67)
* volatile: Host Definition. (line 122)
* watchpoints: Algorithms. (line 274)
* watchpoints, on x86: Algorithms. (line 449)
* watchpoints, with threads: Algorithms. (line 425)
* word-addressed machines: Pointers and Addresses.
(line 6)
* wrap_here: Coding. (line 191)
* write_pc: Register Architecture Functions & Variables.
(line 13)
* writing tests: Testsuite. (line 247)
* x86 debug registers: Algorithms. (line 449)
* XCOFF format: Symbol Handling. (line 256)