Documentation ¶
Overview ¶
Package debug provides the portable interface to a program being debugged.
Index ¶
Constants ¶
This section is empty.
Variables ¶
This section is empty.
Functions ¶
This section is empty.
Types ¶
type Array ¶
type Array struct { ElementTypeID uint64 Address uint64 Length uint64 // Number of elements in the array StrideBits uint64 // Number of bits between array entries }
Array is a Value representing an array.
type Channel ¶
type Channel struct { ElementTypeID uint64 Address uint64 // Location of the channel struct in memory. Buffer uint64 // Location of the buffer; zero for nil channels. Length uint64 // Number of elements stored in the channel buffer. Capacity uint64 // Capacity of the buffer; zero for unbuffered channels. Stride uint64 // Number of bytes between buffer entries. BufferStart uint64 // Index in the buffer of the element at the head of the queue. }
Channel is a Value representing a channel.
type File ¶
The File interface provides access to file-like resources in the program. It implements only ReaderAt and WriterAt, not Reader and Writer, because random access is a far more common pattern for things like symbol tables, and because enormous address space of virtual memory makes routines like io.Copy dangerous.
type Frame ¶
type Frame struct { // PC is the hardware program counter. PC uint64 // SP is the hardware stack pointer. SP uint64 // File and Line are the source code location of the PC. File string Line uint64 // Function is the name of this frame's function. Function string // FunctionStart is the starting PC of the function. FunctionStart uint64 // Params contains the function's parameters. Params []Param // Vars contains the function's local variables. Vars []LocalVar }
type Goroutine ¶
type GoroutineStatus ¶
type GoroutineStatus byte
const ( Running GoroutineStatus = iota Queued Blocked )
func (GoroutineStatus) String ¶
func (g GoroutineStatus) String() string
type Pointer ¶
type Pointer struct { TypeID uint64 // A type identifier, opaque to the user. Address uint64 // The address of the variable. }
Pointer is a Value representing a pointer. Note that the TypeID field will be the type of the variable being pointed to, not the type of this pointer.
type Program ¶
type Program interface { // Open opens a virtual file associated with the process. // Names are things like "text", "mem", "fd/2". // Mode is one of "r", "w", "rw". // Return values are open File and error. // When the target binary is re-run, open files are // automatically updated to refer to the corresponding // file in the new process. Open(name string, mode string) (File, error) // Run abandons the current running process, if any, // and execs a new instance of the target binary file // (which may have changed underfoot). // Breakpoints and open files are re-established. // The call hangs until the program stops executing, // at which point it returns the program status. // args contains the command-line arguments for the process. Run(args ...string) (Status, error) // Stop stops execution of the current process but // does not kill it. Stop() (Status, error) // Resume resumes execution of a stopped process. // The call hangs until the program stops executing, // at which point it returns the program status. Resume() (Status, error) // Kill kills the current process. Kill() (Status, error) // Breakpoint sets a breakpoint at the specified address. Breakpoint(address uint64) (PCs []uint64, err error) // BreakpointAtFunction sets a breakpoint at the start of the specified function. BreakpointAtFunction(name string) (PCs []uint64, err error) // BreakpointAtLine sets a breakpoint at the specified source line. BreakpointAtLine(file string, line uint64) (PCs []uint64, err error) // DeleteBreakpoints removes the breakpoints at the specified addresses. // Addresses where no breakpoint is set are ignored. DeleteBreakpoints(pcs []uint64) error // Eval evaluates the expression (typically an address) and returns // its string representation(s). Multivalued expressions such as // matches for regular expressions return multiple values. // TODO: change this to multiple functions with more specific names. // Syntax: // re:regexp // Returns a list of symbol names that match the expression // addr:symbol // Returns a one-element list holding the hexadecimal // ("0x1234") value of the address of the symbol // val:symbol // Returns a one-element list holding the formatted // value of the symbol // 0x1234, 01234, 467 // Returns a one-element list holding the name of the // symbol ("main.foo") at that address (hex, octal, decimal). Eval(expr string) ([]string, error) // Evaluate evaluates an expression. Accepts a subset of Go expression syntax: // basic literals, identifiers, parenthesized expressions, and most operators. // Only the len function call is available. // // The expression can refer to local variables and function parameters of the // function where the program is stopped. // // On success, the type of the value returned will be one of: // int8, int16, int32, int64, uint8, uint16, uint32, uint64, float32, float64, // complex64, complex128, bool, Pointer, Array, Slice, String, Map, Struct, // Channel, Func, or Interface. Evaluate(e string) (Value, error) // Frames returns up to count stack frames from where the program // is currently stopped. Frames(count int) ([]Frame, error) // VarByName returns a Var referring to a global variable with the given name. // TODO: local variables VarByName(name string) (Var, error) // Value gets the value of a variable by reading the program's memory. Value(v Var) (Value, error) // MapElement returns Vars for the key and value of a map element specified by // a 0-based index. MapElement(m Map, index uint64) (Var, Var, error) // Goroutines gets the current goroutines. Goroutines() ([]*Goroutine, error) }
Program is the interface to a (possibly remote) program being debugged. The process (if any) and text file associated with it may change during the session, but many resources are associated with the Program rather than process or text file so they persist across debuggging runs.
type String ¶
type String struct { // Length contains the length of the remote string, in bytes. Length uint64 // String contains the string itself; it may be truncated to fewer bytes than the value of the Length field. String string }
String is a Value representing a string. TODO: a method to access more of a truncated string.
type StructField ¶
StructField represents a field in a struct object.
Directories ¶
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Package arch contains architecture-specific definitions.
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Package arch contains architecture-specific definitions. |
cmd
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Package dwarf provides access to DWARF debugging information loaded from executable files, as defined in the DWARF 2.0 Standard at http://dwarfstd.org/doc/dwarf-2.0.0.pdf
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Package dwarf provides access to DWARF debugging information loaded from executable files, as defined in the DWARF 2.0 Standard at http://dwarfstd.org/doc/dwarf-2.0.0.pdf |
Package elf implements access to ELF object files.
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Package elf implements access to ELF object files. |
Package gosym implements access to the Go symbol and line number tables embedded in Go binaries generated by the gc compilers.
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Package gosym implements access to the Go symbol and line number tables embedded in Go binaries generated by the gc compilers. |
Package local provides access to a local program.
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Package local provides access to a local program. |
Package macho implements access to Mach-O object files.
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Package macho implements access to Mach-O object files. |
Package remote provides remote access to a debugproxy server.
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Package remote provides remote access to a debugproxy server. |
Package server provides RPC access to a local program being debugged.
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Package server provides RPC access to a local program being debugged. |
protocol
Package protocol defines the types used to represent calls to the debug server.
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Package protocol defines the types used to represent calls to the debug server. |
tests
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