| /*-*- c -*- ----------------------------------------------------------*/ |
| /*--- The only header your tool will ever need to #include... ---*/ |
| /*--- tool.h ---*/ |
| /*--------------------------------------------------------------------*/ |
| |
| /* |
| This file is part of Valgrind, an extensible x86 protected-mode |
| emulator for monitoring program execution on x86-Unixes. |
| |
| Copyright (C) 2000-2004 Julian Seward |
| jseward@acm.org |
| |
| This program is free software; you can redistribute it and/or |
| modify it under the terms of the GNU General Public License as |
| published by the Free Software Foundation; either version 2 of the |
| License, or (at your option) any later version. |
| |
| This program is distributed in the hope that it will be useful, but |
| WITHOUT ANY WARRANTY; without even the implied warranty of |
| MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU |
| General Public License for more details. |
| |
| You should have received a copy of the GNU General Public License |
| along with this program; if not, write to the Free Software |
| Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA |
| 02111-1307, USA. |
| |
| The GNU General Public License is contained in the file COPYING. |
| */ |
| |
| #ifndef __TOOL_H |
| #define __TOOL_H |
| |
| #include <stdarg.h> /* ANSI varargs stuff */ |
| #include <setjmp.h> /* for jmp_buf */ |
| |
| #include "tool_asm.h" // asm stuff |
| |
| #include "../../../pub/libvex_basictypes.h" |
| #include "../../../pub/libvex_ir.h" |
| #include "../../../pub/libvex.h" |
| |
| |
| /*====================================================================*/ |
| /*=== Basic types ===*/ |
| /*====================================================================*/ |
| |
| typedef HWord UWord; |
| typedef HWord Addr; |
| |
| |
| /* --------------------------------------------------------------------- |
| Now the basic types are set up, we can haul in the kernel-interface |
| definitions and tool_arch.h |
| ------------------------------------------------------------------ */ |
| |
| #include "tool_arch.h" // arch-specific tool stuff |
| #include "vg_kerneliface.h" |
| |
| /* --------------------------------------------------------------------- |
| Where to send bug reports to. |
| ------------------------------------------------------------------ */ |
| |
| #define VG_BUGS_TO "valgrind.kde.org" |
| |
| |
| /*====================================================================*/ |
| /*=== Build options and table sizes. ===*/ |
| /*====================================================================*/ |
| |
| /* You should be able to change these options or sizes, recompile, and |
| still have a working system. */ |
| |
| /* The maximum number of pthreads that we support. This is |
| deliberately not very high since our implementation of some of the |
| scheduler algorithms is surely O(N) in the number of threads, since |
| that's simple, at least. And (in practice) we hope that most |
| programs do not need many threads. */ |
| #define VG_N_THREADS 100 |
| |
| /* Maximum number of pthread keys available. Again, we start low until |
| the need for a higher number presents itself. */ |
| #define VG_N_THREAD_KEYS 50 |
| |
| |
| /*====================================================================*/ |
| /*=== Useful macros ===*/ |
| /*====================================================================*/ |
| |
| #define mycat_wrk(aaa,bbb) aaa##bbb |
| #define mycat(aaa,bbb) mycat_wrk(aaa,bbb) |
| |
| /* No, really. I _am_ that strange. */ |
| #define OINK(nnn) VG_(message)(Vg_DebugMsg, "OINK %d",nnn) |
| |
| /* Path to all our library/aux files */ |
| extern const Char *VG_(libdir); |
| |
| |
| /*====================================================================*/ |
| /*=== Core/tool interface version ===*/ |
| /*====================================================================*/ |
| |
| /* The major version number indicates binary-incompatible changes to the |
| interface; if the core and tool major versions don't match, Valgrind |
| will abort. The minor version indicates binary-compatible changes. |
| */ |
| #define VG_CORE_INTERFACE_MAJOR_VERSION 6 |
| #define VG_CORE_INTERFACE_MINOR_VERSION 0 |
| |
| typedef struct _ToolInfo { |
| Int sizeof_ToolInfo; |
| Int interface_major_version; |
| Int interface_minor_version; |
| |
| /* Initialise tool. Must do the following: |
| - initialise the `details' struct, via the VG_(details_*)() functions |
| - register any helpers called by generated code |
| |
| May do the following: |
| - initialise the `needs' struct to indicate certain requirements, via |
| the VG_(needs_*)() functions |
| - initialize all the tool's entrypoints via the VG_(init_*)() functions |
| - register any tool-specific profiling events |
| - any other tool-specific initialisation |
| */ |
| void (*sk_pre_clo_init) ( void ); |
| |
| /* Specifies how big the shadow segment should be as a ratio to the |
| client address space. 0 for no shadow segment. */ |
| float shadow_ratio; |
| } ToolInfo; |
| |
| /* Every tool must include this macro somewhere, exactly once. */ |
| #define VG_DETERMINE_INTERFACE_VERSION(pre_clo_init, shadow) \ |
| const ToolInfo SK_(tool_info) = { \ |
| .sizeof_ToolInfo = sizeof(ToolInfo), \ |
| .interface_major_version = VG_CORE_INTERFACE_MAJOR_VERSION, \ |
| .interface_minor_version = VG_CORE_INTERFACE_MINOR_VERSION, \ |
| .sk_pre_clo_init = pre_clo_init, \ |
| .shadow_ratio = shadow, \ |
| }; |
| |
| /*====================================================================*/ |
| /*=== Command-line options ===*/ |
| /*====================================================================*/ |
| |
| /* Use this for normal null-termination-style string comparison */ |
| #define VG_STREQ(s1,s2) (s1 != NULL && s2 != NULL \ |
| && VG_(strcmp)((s1),(s2))==0) |
| |
| /* Use these for recognising tool command line options -- stops comparing |
| once whitespace is reached. */ |
| #define VG_CLO_STREQ(s1,s2) (0==VG_(strcmp_ws)((s1),(s2))) |
| #define VG_CLO_STREQN(nn,s1,s2) (0==VG_(strncmp_ws)((s1),(s2),(nn))) |
| |
| // Higher-level command-line option recognisers; use in if/else chains |
| |
| #define VG_BOOL_CLO(qq_option, qq_var) \ |
| if (VG_CLO_STREQ(arg, qq_option"=yes")) { (qq_var) = True; } \ |
| else if (VG_CLO_STREQ(arg, qq_option"=no")) { (qq_var) = False; } |
| |
| #define VG_STR_CLO(qq_option, qq_var) \ |
| if (VG_CLO_STREQN(VG_(strlen)(qq_option)+1, arg, qq_option"=")) { \ |
| (qq_var) = &arg[ VG_(strlen)(qq_option)+1 ]; \ |
| } |
| |
| #define VG_NUM_CLO(qq_option, qq_var) \ |
| if (VG_CLO_STREQN(VG_(strlen)(qq_option)+1, arg, qq_option"=")) { \ |
| (qq_var) = (Int)VG_(atoll)( &arg[ VG_(strlen)(qq_option)+1 ] ); \ |
| } |
| |
| // Bounded integer arg |
| #define VG_BNUM_CLO(qq_option, qq_var, qq_lo, qq_hi) \ |
| if (VG_CLO_STREQN(VG_(strlen)(qq_option)+1, arg, qq_option"=")) { \ |
| (qq_var) = (Int)VG_(atoll)( &arg[ VG_(strlen)(qq_option)+1 ] ); \ |
| if ((qq_var) < (qq_lo)) (qq_var) = (qq_lo); \ |
| if ((qq_var) > (qq_hi)) (qq_var) = (qq_hi); \ |
| } |
| |
| |
| /* Verbosity level: 0 = silent, 1 (default), > 1 = more verbose. */ |
| extern Int VG_(clo_verbosity); |
| |
| /* Profile? */ |
| extern Bool VG_(clo_profile); |
| |
| /* Call this if a recognised option was bad for some reason. |
| Note: don't use it just because an option was unrecognised -- return 'False' |
| from SKN_(process_cmd_line_option) to indicate that. */ |
| extern void VG_(bad_option) ( Char* opt ); |
| |
| /* Client args */ |
| extern Int VG_(client_argc); |
| extern Char** VG_(client_argv); |
| |
| /* Client environment. Can be inspected with VG_(getenv)() */ |
| extern Char** VG_(client_envp); |
| |
| |
| /*====================================================================*/ |
| /*=== Printing messages for the user ===*/ |
| /*====================================================================*/ |
| |
| /* Print a message prefixed by "??<pid>?? "; '?' depends on the VgMsgKind. |
| Should be used for all user output. */ |
| |
| typedef |
| enum { Vg_UserMsg, /* '?' == '=' */ |
| Vg_DebugMsg, /* '?' == '-' */ |
| Vg_DebugExtraMsg, /* '?' == '+' */ |
| Vg_ClientMsg, /* '?' == '*' */ |
| } |
| VgMsgKind; |
| |
| /* Functions for building a message from multiple parts. */ |
| extern int VG_(start_msg) ( VgMsgKind kind ); |
| extern int VG_(add_to_msg) ( Char* format, ... ); |
| /* Ends and prints the message. Appends a newline. */ |
| extern int VG_(end_msg) ( void ); |
| |
| /* Send a single-part message. Appends a newline. */ |
| extern int VG_(message) ( VgMsgKind kind, Char* format, ... ); |
| extern int VG_(vmessage) ( VgMsgKind kind, Char* format, va_list vargs ); |
| |
| |
| /*====================================================================*/ |
| /*=== Profiling ===*/ |
| /*====================================================================*/ |
| |
| /* Nb: VGP_(register_profile_event)() relies on VgpUnc being the first one */ |
| #define VGP_CORE_LIST \ |
| /* These ones depend on the core */ \ |
| VGP_PAIR(VgpUnc, "unclassified"), \ |
| VGP_PAIR(VgpStartup, "startup"), \ |
| VGP_PAIR(VgpRun, "running"), \ |
| VGP_PAIR(VgpSched, "scheduler"), \ |
| VGP_PAIR(VgpMalloc, "low-lev malloc/free"), \ |
| VGP_PAIR(VgpCliMalloc, "client malloc/free"), \ |
| VGP_PAIR(VgpTranslate, "translate-main"), \ |
| VGP_PAIR(VgpToUCode, "to-ucode"), \ |
| VGP_PAIR(VgpFromUcode, "from-ucode"), \ |
| VGP_PAIR(VgpImprove, "improve"), \ |
| VGP_PAIR(VgpESPUpdate, "ESP-update"), \ |
| VGP_PAIR(VgpRegAlloc, "reg-alloc"), \ |
| VGP_PAIR(VgpLiveness, "liveness-analysis"), \ |
| VGP_PAIR(VgpDoLRU, "do-lru"), \ |
| VGP_PAIR(VgpSlowFindT, "slow-search-transtab"), \ |
| VGP_PAIR(VgpExeContext, "exe-context"), \ |
| VGP_PAIR(VgpReadSyms, "read-syms"), \ |
| VGP_PAIR(VgpSearchSyms, "search-syms"), \ |
| VGP_PAIR(VgpAddToT, "add-to-transtab"), \ |
| VGP_PAIR(VgpCoreSysWrap, "core-syscall-wrapper"), \ |
| VGP_PAIR(VgpDemangle, "demangle"), \ |
| VGP_PAIR(VgpCoreCheapSanity, "core-cheap-sanity"), \ |
| VGP_PAIR(VgpCoreExpensiveSanity, "core-expensive-sanity"), \ |
| /* These ones depend on the tool */ \ |
| VGP_PAIR(VgpPreCloInit, "pre-clo-init"), \ |
| VGP_PAIR(VgpPostCloInit, "post-clo-init"), \ |
| VGP_PAIR(VgpInstrument, "instrument"), \ |
| VGP_PAIR(VgpSkinSysWrap, "tool-syscall-wrapper"), \ |
| VGP_PAIR(VgpSkinCheapSanity, "tool-cheap-sanity"), \ |
| VGP_PAIR(VgpSkinExpensiveSanity, "tool-expensive-sanity"), \ |
| VGP_PAIR(VgpFini, "fini") |
| |
| #define VGP_PAIR(n,name) n |
| typedef enum { VGP_CORE_LIST } VgpCoreCC; |
| #undef VGP_PAIR |
| |
| /* When registering tool profiling events, ensure that the 'n' value is in |
| * the range (VgpFini+1..) */ |
| extern void VGP_(register_profile_event) ( Int n, Char* name ); |
| |
| extern void VGP_(pushcc) ( UInt cc ); |
| extern void VGP_(popcc) ( UInt cc ); |
| |
| /* Define them only if they haven't already been defined by vg_profile.c */ |
| #ifndef VGP_PUSHCC |
| # define VGP_PUSHCC(x) |
| #endif |
| #ifndef VGP_POPCC |
| # define VGP_POPCC(x) |
| #endif |
| |
| |
| /*====================================================================*/ |
| /*=== Useful stuff to call from generated code ===*/ |
| /*====================================================================*/ |
| |
| /* ------------------------------------------------------------------ */ |
| /* General stuff */ |
| |
| /* 64-bit counter for the number of basic blocks done. */ |
| extern ULong VG_(bbs_done); |
| |
| /* Get the simulated %esp */ |
| extern Addr VG_(get_stack_pointer) ( void ); |
| |
| /* Check if an address is 4-byte aligned */ |
| #define IS_ALIGNED4_ADDR(aaa_p) (0 == (((UInt)(aaa_p)) & 3)) |
| #define IS_ALIGNED8_ADDR(aaa_p) (0 == (((UInt)(aaa_p)) & 7)) |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* Thread-related stuff */ |
| |
| /* Special magic value for an invalid ThreadId. It corresponds to |
| LinuxThreads using zero as the initial value for |
| pthread_mutex_t.__m_owner and pthread_cond_t.__c_waiting. */ |
| #define VG_INVALID_THREADID ((ThreadId)(0)) |
| |
| /* ThreadIds are simply indices into the VG_(threads)[] array. */ |
| typedef |
| UInt |
| ThreadId; |
| |
| /* When looking for the current ThreadId, this is the safe option and |
| probably the one you want. |
| |
| Details: Use this one from non-generated code, eg. from functions called |
| on events like 'new_mem_heap'. In such a case, the "current" thread is |
| temporarily suspended as Valgrind's dispatcher is running. This function |
| is also suitable to be called from generated code (ie. from UCode, or a C |
| function called directly from UCode). |
| |
| If you use VG_(get_current_tid)() from non-generated code, it will return |
| 0 signifying the invalid thread, which is probably not what you want. */ |
| extern ThreadId VG_(get_current_or_recent_tid) ( void ); |
| |
| /* When looking for the current ThreadId, only use this one if you know what |
| you are doing. |
| |
| Details: Use this one from generated code, eg. from C functions called |
| from UCode. (VG_(get_current_or_recent_tid)() is also suitable in that |
| case.) If you use this function from non-generated code, it will return |
| 0 signifying the invalid thread, which is probably not what you want. */ |
| extern ThreadId VG_(get_current_tid) ( void ); |
| |
| /* Searches through all thread's stacks to see if any match. Returns |
| VG_INVALID_THREADID if none match. */ |
| extern ThreadId VG_(first_matching_thread_stack) |
| ( Bool (*p) ( Addr stack_min, Addr stack_max, void* d ), |
| void* d ); |
| |
| |
| /*====================================================================*/ |
| /*=== Valgrind's version of libc ===*/ |
| /*====================================================================*/ |
| |
| /* Valgrind doesn't use libc at all, for good reasons (trust us). So here |
| are its own versions of C library functions, but with VG_ prefixes. Note |
| that the types of some are slightly different to the real ones. Some |
| additional useful functions are provided too; descriptions of how they |
| work are given below. */ |
| |
| #if !defined(NULL) |
| # define NULL ((void*)0) |
| #endif |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* stdio.h |
| * |
| * Note that they all output to the file descriptor given by the |
| * --log-fd/--log-file/--log-socket argument, which defaults to 2 (stderr). |
| * Hence no need for VG_(fprintf)(). |
| */ |
| extern UInt VG_(printf) ( const char *format, ... ); |
| /* too noisy ... __attribute__ ((format (printf, 1, 2))) ; */ |
| extern UInt VG_(sprintf) ( Char* buf, Char *format, ... ); |
| extern UInt VG_(vprintf) ( void(*send)(Char), |
| const Char *format, va_list vargs ); |
| |
| extern Int VG_(rename) ( Char* old_name, Char* new_name ); |
| |
| /* ------------------------------------------------------------------ */ |
| /* stdlib.h */ |
| |
| extern void* VG_(malloc) ( Int nbytes ); |
| extern void VG_(free) ( void* p ); |
| extern void* VG_(calloc) ( Int n, Int nbytes ); |
| extern void* VG_(realloc) ( void* p, Int size ); |
| extern void* VG_(malloc_aligned) ( Int align_bytes, Int nbytes ); |
| |
| extern void VG_(print_malloc_stats) ( void ); |
| |
| |
| extern void VG_(exit)( Int status ) |
| __attribute__ ((__noreturn__)); |
| /* Prints a panic message (a constant string), appends newline and bug |
| reporting info, aborts. */ |
| __attribute__ ((__noreturn__)) |
| extern void VG_(skin_panic) ( Char* str ); |
| |
| /* Looks up VG_(client_envp) */ |
| extern Char* VG_(getenv) ( Char* name ); |
| |
| /* Get client resource limit*/ |
| extern Int VG_(getrlimit) ( Int resource, struct vki_rlimit *rlim ); |
| |
| /* Set client resource limit*/ |
| extern Int VG_(setrlimit) ( Int resource, struct vki_rlimit *rlim ); |
| |
| /* Crude stand-in for the glibc system() call. */ |
| extern Int VG_(system) ( Char* cmd ); |
| |
| extern Long VG_(atoll) ( Char* str ); |
| |
| /* Like atoll(), but converts a number of base 16 */ |
| extern Long VG_(atoll16) ( Char* str ); |
| |
| /* Like atoll(), but converts a number of base 2..36 */ |
| extern Long VG_(atoll36) ( UInt base, Char* str ); |
| |
| /* Like qsort(), but does shell-sort. The size==1/2/4 cases are specialised. */ |
| extern void VG_(ssort)( void* base, UInt nmemb, UInt size, |
| Int (*compar)(void*, void*) ); |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* ctype.h */ |
| extern Bool VG_(isspace) ( Char c ); |
| extern Bool VG_(isdigit) ( Char c ); |
| extern Char VG_(toupper) ( Char c ); |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* string.h */ |
| extern Int VG_(strlen) ( const Char* str ); |
| extern Char* VG_(strcat) ( Char* dest, const Char* src ); |
| extern Char* VG_(strncat) ( Char* dest, const Char* src, Int n ); |
| extern Char* VG_(strpbrk) ( const Char* s, const Char* accept ); |
| extern Char* VG_(strcpy) ( Char* dest, const Char* src ); |
| extern Char* VG_(strncpy) ( Char* dest, const Char* src, Int ndest ); |
| extern Int VG_(strcmp) ( const Char* s1, const Char* s2 ); |
| extern Int VG_(strncmp) ( const Char* s1, const Char* s2, Int nmax ); |
| extern Char* VG_(strstr) ( const Char* haystack, Char* needle ); |
| extern Char* VG_(strchr) ( const Char* s, Char c ); |
| extern Char* VG_(strrchr) ( const Char* s, Char c ); |
| extern Char* VG_(strdup) ( const Char* s); |
| extern void* VG_(memcpy) ( void *d, const void *s, Int sz ); |
| extern void* VG_(memset) ( void *s, Int c, Int sz ); |
| extern Int VG_(memcmp) ( const void* s1, const void* s2, Int n ); |
| |
| /* Like strcmp() and strncmp(), but stop comparing at any whitespace. */ |
| extern Int VG_(strcmp_ws) ( const Char* s1, const Char* s2 ); |
| extern Int VG_(strncmp_ws) ( const Char* s1, const Char* s2, Int nmax ); |
| |
| /* Like strncpy(), but if 'src' is longer than 'ndest' inserts a '\0' as the |
| last character. */ |
| extern void VG_(strncpy_safely) ( Char* dest, const Char* src, Int ndest ); |
| |
| /* Mini-regexp function. Searches for 'pat' in 'str'. Supports |
| * meta-symbols '*' and '?'. '\' escapes meta-symbols. */ |
| extern Bool VG_(string_match) ( const Char* pat, const Char* str ); |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* math.h */ |
| /* Returns the base-2 logarithm of x. */ |
| extern Int VG_(log2) ( Int x ); |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* unistd.h, fcntl.h, sys/stat.h */ |
| extern Int VG_(getdents)( UInt fd, struct vki_dirent *dirp, UInt count ); |
| extern Int VG_(readlink)( Char* path, Char* buf, UInt bufsize ); |
| extern Int VG_(getpid) ( void ); |
| extern Int VG_(getppid) ( void ); |
| extern Int VG_(getpgrp) ( void ); |
| extern Int VG_(gettid) ( void ); |
| extern Int VG_(setpgid) ( Int pid, Int pgrp ); |
| |
| extern Int VG_(open) ( const Char* pathname, Int flags, Int mode ); |
| extern Int VG_(read) ( Int fd, void* buf, Int count); |
| extern Int VG_(write) ( Int fd, const void* buf, Int count); |
| extern Int VG_(lseek) ( Int fd, Long offset, Int whence); |
| extern void VG_(close) ( Int fd ); |
| |
| extern Int VG_(pipe) ( Int fd[2] ); |
| |
| /* Nb: VG_(rename)() declared in stdio.h section above */ |
| extern Int VG_(unlink) ( Char* file_name ); |
| extern Int VG_(stat) ( Char* file_name, struct vki_stat* buf ); |
| extern Int VG_(fstat) ( Int fd, struct vki_stat* buf ); |
| extern Int VG_(dup2) ( Int oldfd, Int newfd ); |
| |
| extern Char* VG_(getcwd) ( Char* buf, Int size ); |
| |
| /* Easier to use than VG_(getcwd)() -- does the buffer fiddling itself. |
| String put into 'cwd' is VG_(malloc)'d, and should be VG_(free)'d. |
| Returns False if it fails. Will fail if the pathname is > 65535 bytes. */ |
| extern Bool VG_(getcwd_alloc) ( Char** cwd ); |
| |
| /* ------------------------------------------------------------------ */ |
| /* assert.h */ |
| /* Asserts permanently enabled -- no turning off with NDEBUG. Hurrah! */ |
| #define VG__STRING(__str) #__str |
| |
| #define sk_assert(expr) \ |
| ((void) ((expr) ? 0 : \ |
| (VG_(skin_assert_fail) (VG__STRING(expr), \ |
| __FILE__, __LINE__, \ |
| __PRETTY_FUNCTION__), 0))) |
| |
| __attribute__ ((__noreturn__)) |
| extern void VG_(skin_assert_fail) ( const Char* expr, const Char* file, |
| Int line, const Char* fn ); |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* Get memory by anonymous mmap. */ |
| extern void* VG_(get_memory_from_mmap) ( Int nBytes, Char* who ); |
| |
| extern Bool VG_(is_client_addr) (Addr a); |
| extern Addr VG_(get_client_base)(void); |
| extern Addr VG_(get_client_end) (void); |
| extern Addr VG_(get_client_size)(void); |
| |
| extern Bool VG_(is_shadow_addr) (Addr a); |
| extern Addr VG_(get_shadow_base)(void); |
| extern Addr VG_(get_shadow_end) (void); |
| extern Addr VG_(get_shadow_size)(void); |
| |
| extern void *VG_(shadow_alloc)(UInt size); |
| |
| extern Bool VG_(is_addressable)(Addr p, Int sz); |
| |
| extern Addr VG_(client_alloc)(Addr base, UInt len, UInt prot, UInt flags); |
| extern void VG_(client_free)(Addr addr); |
| |
| extern Bool VG_(is_valgrind_addr)(Addr a); |
| |
| /* initialize shadow pages in the range [p, p+sz) This calls |
| init_shadow_page for each one. It should be a lot more efficient |
| for bulk-initializing shadow pages than faulting on each one. |
| */ |
| extern void VG_(init_shadow_range)(Addr p, UInt sz, Bool call_init); |
| |
| /* ------------------------------------------------------------------ */ |
| /* signal.h. |
| |
| Note that these use the vk_ (kernel) structure |
| definitions, which are different in places from those that glibc |
| defines -- hence the 'k' prefix. Since we're operating right at the |
| kernel interface, glibc's view of the world is entirely irrelevant. */ |
| |
| /* --- Signal set ops --- */ |
| extern Int VG_(ksigfillset) ( vki_ksigset_t* set ); |
| extern Int VG_(ksigemptyset) ( vki_ksigset_t* set ); |
| |
| extern Bool VG_(kisfullsigset) ( vki_ksigset_t* set ); |
| extern Bool VG_(kisemptysigset) ( vki_ksigset_t* set ); |
| |
| extern Int VG_(ksigaddset) ( vki_ksigset_t* set, Int signum ); |
| extern Int VG_(ksigdelset) ( vki_ksigset_t* set, Int signum ); |
| extern Int VG_(ksigismember) ( vki_ksigset_t* set, Int signum ); |
| |
| extern void VG_(ksigaddset_from_set) ( vki_ksigset_t* dst, vki_ksigset_t* src ); |
| extern void VG_(ksigdelset_from_set) ( vki_ksigset_t* dst, vki_ksigset_t* src ); |
| |
| /* --- Mess with the kernel's sig state --- */ |
| extern Int VG_(ksigprocmask) ( Int how, const vki_ksigset_t* set, |
| vki_ksigset_t* oldset ); |
| extern Int VG_(ksigaction) ( Int signum, |
| const vki_ksigaction* act, |
| vki_ksigaction* oldact ); |
| |
| extern Int VG_(ksigtimedwait)( const vki_ksigset_t *, vki_ksiginfo_t *, |
| const struct vki_timespec * ); |
| |
| extern Int VG_(ksignal) ( Int signum, void (*sighandler)(Int) ); |
| extern Int VG_(ksigaltstack) ( const vki_kstack_t* ss, vki_kstack_t* oss ); |
| |
| extern Int VG_(kkill) ( Int pid, Int signo ); |
| extern Int VG_(ktkill) ( Int pid, Int signo ); |
| extern Int VG_(ksigpending) ( vki_ksigset_t* set ); |
| |
| extern Int VG_(waitpid) ( Int pid, Int *status, Int options ); |
| |
| /* ------------------------------------------------------------------ */ |
| /* socket.h. */ |
| |
| extern Int VG_(getsockname) ( Int sd, struct vki_sockaddr *name, Int *namelen); |
| extern Int VG_(getpeername) ( Int sd, struct vki_sockaddr *name, Int *namelen); |
| extern Int VG_(getsockopt) ( Int sd, Int level, Int optname, void *optval, |
| Int *optlen); |
| |
| /* ------------------------------------------------------------------ */ |
| /* other, randomly useful functions */ |
| extern UInt VG_(read_millisecond_timer) ( void ); |
| |
| extern void VG_(cpuid) ( UInt eax, |
| UInt *eax_ret, UInt *ebx_ret, |
| UInt *ecx_ret, UInt *edx_ret ); |
| |
| /*====================================================================*/ |
| /*=== UCode definition ===*/ |
| /*====================================================================*/ |
| |
| /* Tags which describe what operands are. Must fit into 4 bits, which |
| they clearly do. */ |
| typedef |
| enum { TempReg =0, /* virtual temp-reg */ |
| ArchReg =1, /* simulated integer reg */ |
| ArchRegS =2, /* simulated segment reg */ |
| RealReg =3, /* real machine's real reg */ |
| SpillNo =4, /* spill slot location */ |
| Literal =5, /* literal; .lit32 field has actual value */ |
| Lit16 =6, /* literal; .val[123] field has actual value */ |
| NoValue =7 /* operand not in use */ |
| } |
| Tag; |
| |
| /* Invalid register numbers (can't be negative) */ |
| #define INVALID_TEMPREG 999999999 |
| #define INVALID_REALREG 999999999 |
| |
| /* Microinstruction opcodes. */ |
| typedef |
| enum { |
| NOP, /* Null op */ |
| |
| LOCK, /* Indicate the existence of a LOCK prefix (functionally NOP) */ |
| |
| /* Moving values around */ |
| GET, PUT, /* simulated register <--> TempReg */ |
| GETF, PUTF, /* simulated %eflags <--> TempReg */ |
| LOAD, STORE, /* memory <--> TempReg */ |
| MOV, /* TempReg <--> TempReg */ |
| CMOV, /* Used for cmpxchg and cmov */ |
| |
| /* Arithmetic/logical ops */ |
| MUL, UMUL, /* Multiply */ |
| ADD, ADC, SUB, SBB, /* Add/subtract (w/wo carry) */ |
| AND, OR, XOR, NOT, /* Boolean ops */ |
| SHL, SHR, SAR, ROL, ROR, RCL, RCR, /* Shift/rotate (w/wo carry) */ |
| NEG, /* Negate */ |
| INC, DEC, /* Increment/decrement */ |
| BSWAP, /* Big-endian <--> little-endian */ |
| CC2VAL, /* Condition code --> 0 or 1 */ |
| WIDEN, /* Signed or unsigned widening */ |
| |
| /* Conditional or unconditional jump */ |
| JMP, |
| |
| /* FPU ops */ |
| FPU, /* Doesn't touch memory */ |
| FPU_R, FPU_W, /* Reads/writes memory */ |
| |
| /* ------------ MMX ops ------------ */ |
| /* In this and the SSE encoding, bytes at higher addresses are |
| held in bits [7:0] in these 16-bit words. I guess this means |
| it is a big-endian encoding. */ |
| |
| /* 1 byte, no memrefs, no iregdefs, copy exactly to the |
| output. Held in val1[7:0]. */ |
| MMX1, |
| |
| /* 2 bytes, no memrefs, no iregdefs, copy exactly to the |
| output. Held in val1[15:0]. */ |
| MMX2, |
| |
| /* 3 bytes, no memrefs, no iregdefs, copy exactly to the |
| output. Held in val1[15:0] and val2[7:0]. */ |
| MMX3, |
| |
| /* 2 bytes, reads/writes mem. Insns of the form |
| bbbbbbbb:mod mmxreg r/m. |
| Held in val1[15:0], and mod and rm are to be replaced |
| at codegen time by a reference to the Temp/RealReg holding |
| the address. Arg2 holds this Temp/Real Reg. |
| Transfer is always at size 8. |
| */ |
| MMX2_MemRd, |
| MMX2_MemWr, |
| |
| /* 3 bytes, reads/writes mem. Insns of the form |
| bbbbbbbb:mod mmxreg r/m:bbbbbbbb |
| Held in val1[15:0] and val2[7:0], and mod and rm are to be |
| replaced at codegen time by a reference to the Temp/RealReg |
| holding the address. Arg2 holds this Temp/Real Reg. |
| Transfer is always at size 8. |
| */ |
| MMX2a1_MemRd, |
| |
| /* 2 bytes, reads/writes an integer ("E") register. Insns of the form |
| bbbbbbbb:11 mmxreg ireg. |
| Held in val1[15:0], and ireg is to be replaced |
| at codegen time by a reference to the relevant RealReg. |
| Transfer is always at size 4. Arg2 holds this Temp/Real Reg. |
| */ |
| MMX2_ERegRd, |
| MMX2_ERegWr, |
| |
| /* ------------ SSE/SSE2 ops ------------ */ |
| /* In the following: |
| |
| a digit N indicates the next N bytes are to be copied exactly |
| to the output. |
| |
| 'a' indicates a mod-xmmreg-rm byte, where the mod-rm part is |
| to be replaced at codegen time to a Temp/RealReg holding the |
| address. |
| |
| 'e' indicates a byte of the form '11 xmmreg ireg', where ireg |
| is read or written, and is to be replaced at codegen time by |
| a reference to the relevant RealReg. 'e' because it's the E |
| reg in Intel encoding parlance. |
| |
| 'g' indicates a byte of the form '11 ireg xmmreg', where ireg |
| is read or written, and is to be replaced at codegen time by |
| a reference to the relevant RealReg. 'g' because it's called |
| G in Intel parlance. */ |
| |
| /* 3 bytes, no memrefs, no iregdefs, copy exactly to the |
| output. Held in val1[15:0] and val2[7:0]. */ |
| SSE3, |
| |
| /* 3 bytes, reads/writes mem. Insns of the form |
| bbbbbbbb:bbbbbbbb:mod mmxreg r/m. |
| Held in val1[15:0] and val2[7:0], and mod and rm are to be |
| replaced at codegen time by a reference to the Temp/RealReg |
| holding the address. Arg3 holds this Temp/Real Reg. |
| Transfer is usually, but not always, at size 16. */ |
| SSE2a_MemRd, |
| SSE2a_MemWr, |
| |
| /* 4 bytes, writes an integer register. Insns of the form |
| bbbbbbbb:bbbbbbbb:11 ireg bbb. |
| Held in val1[15:0] and val2[7:0], and ireg is to be replaced |
| at codegen time by a reference to the relevant RealReg. |
| Transfer is always at size 4. Arg3 holds this Temp/Real Reg. |
| */ |
| SSE2g_RegWr, |
| |
| /* 5 bytes, writes an integer register. Insns of the form |
| bbbbbbbb:bbbbbbbb:11 ireg bbb :bbbbbbbb. Held in |
| val1[15:0] and val2[7:0] and lit32[7:0], and ireg is to be |
| replaced at codegen time by a reference to the relevant |
| RealReg. Transfer is always at size 4. Arg3 holds this |
| Temp/Real Reg. |
| */ |
| SSE2g1_RegWr, |
| |
| /* 5 bytes, reads an integer register. Insns of the form |
| bbbbbbbb:bbbbbbbb:11 bbb ireg :bbbbbbbb. Held in |
| val1[15:0] and val2[7:0] and lit32[7:0], and ireg is to be |
| replaced at codegen time by a reference to the relevant |
| RealReg. Transfer is always at size 4. Arg3 holds this |
| Temp/Real Reg. |
| */ |
| SSE2e1_RegRd, |
| |
| /* 4 bytes, no memrefs, no iregdefs, copy exactly to the |
| output. Held in val1[15:0] and val2[15:0]. */ |
| SSE4, |
| |
| /* 4 bytes, reads/writes mem. Insns of the form |
| bbbbbbbb:bbbbbbbb:bbbbbbbb:mod mmxreg r/m. |
| Held in val1[15:0] and val2[15:0], and mod and rm are to be |
| replaced at codegen time by a reference to the Temp/RealReg |
| holding the address. Arg3 holds this Temp/Real Reg. |
| Transfer is at stated size. */ |
| SSE3a_MemRd, |
| SSE3a_MemWr, |
| |
| /* 4 bytes, reads/writes mem. Insns of the form |
| bbbbbbbb:bbbbbbbb:mod mmxreg r/m:bbbbbbbb |
| Held in val1[15:0] and val2[15:0], and mod and rm are to be |
| replaced at codegen time by a reference to the Temp/RealReg |
| holding the address. Arg3 holds this Temp/Real Reg. |
| Transfer is at stated size. */ |
| SSE2a1_MemRd, |
| |
| /* 4 bytes, writes an integer register. Insns of the form |
| bbbbbbbb:bbbbbbbb:bbbbbbbb:11 ireg bbb. |
| Held in val1[15:0] and val2[15:0], and ireg is to be replaced |
| at codegen time by a reference to the relevant RealReg. |
| Transfer is always at size 4. Arg3 holds this Temp/Real Reg. |
| */ |
| SSE3g_RegWr, |
| |
| /* 5 bytes, writes an integer register. Insns of the form |
| bbbbbbbb:bbbbbbbb:bbbbbbbb: 11 ireg bbb :bbbbbbbb. Held in |
| val1[15:0] and val2[15:0] and lit32[7:0], and ireg is to be |
| replaced at codegen time by a reference to the relevant |
| RealReg. Transfer is always at size 4. Arg3 holds this |
| Temp/Real Reg. |
| */ |
| SSE3g1_RegWr, |
| |
| /* 4 bytes, reads an integer register. Insns of the form |
| bbbbbbbb:bbbbbbbb:bbbbbbbb:11 bbb ireg. |
| Held in val1[15:0] and val2[15:0], and ireg is to be replaced |
| at codegen time by a reference to the relevant RealReg. |
| Transfer is always at size 4. Arg3 holds this Temp/Real Reg. |
| */ |
| SSE3e_RegRd, |
| SSE3e_RegWr, /* variant that writes Ereg, not reads it */ |
| |
| /* 5 bytes, reads an integer register. Insns of the form |
| bbbbbbbb:bbbbbbbb:bbbbbbbb: 11 bbb ireg :bbbbbbbb. Held in |
| val1[15:0] and val2[15:0] and lit32[7:0], and ireg is to be |
| replaced at codegen time by a reference to the relevant |
| RealReg. Transfer is always at size 4. Arg3 holds this |
| Temp/Real Reg. |
| */ |
| SSE3e1_RegRd, |
| |
| /* 4 bytes, reads memory, writes an integer register, but is |
| nevertheless an SSE insn. The insn is of the form |
| bbbbbbbb:bbbbbbbb:bbbbbbbb:mod ireg rm where mod indicates |
| memory (ie is not 11b) and ireg is the int reg written. The |
| first 4 bytes are held in lit32[31:0] since there is |
| insufficient space elsewhere. mod and rm are to be replaced |
| at codegen time by a reference to the Temp/RealReg holding |
| the address. Arg1 holds this Temp/RealReg. ireg is to be |
| replaced at codegen time by a reference to the relevant |
| RealReg in which the answer is to be written. Arg2 holds |
| this Temp/RealReg. Transfer to the destination reg is always |
| at size 4. However the memory read can be at sizes 4 or 8 |
| and so this is what the sz field holds. Note that the 4th |
| byte of the instruction (the modrm byte) is redundant, but we |
| store it anyway so as to be consistent with all other SSE |
| uinstrs. |
| */ |
| SSE3ag_MemRd_RegWr, |
| |
| /* 5 bytes, no memrefs, no iregdefs, copy exactly to the |
| output. Held in val1[15:0], val2[15:0] and val3[7:0]. */ |
| SSE5, |
| |
| /* 5 bytes, reads/writes mem. Insns of the form |
| bbbbbbbb:bbbbbbbb:bbbbbbbb:mod mmxreg r/m:bbbbbbbb |
| Held in val1[15:0], val2[15:0], lit32[7:0]. |
| mod and rm are to be replaced at codegen time by a reference |
| to the Temp/RealReg holding the address. Arg3 holds this |
| Temp/Real Reg. Transfer is always at size 16. */ |
| SSE3a1_MemRd, |
| |
| /* ------------------------ */ |
| |
| /* Not strictly needed, but improve address calculation translations. */ |
| LEA1, /* reg2 := const + reg1 */ |
| LEA2, /* reg3 := const + reg1 + reg2 * 1,2,4 or 8 */ |
| |
| /* Hack for x86 REP insns. Jump to literal if TempReg/RealReg |
| is zero. */ |
| JIFZ, |
| |
| /* Advance the simulated %eip by some small (< 128) number. */ |
| INCEIP, |
| |
| /* Dealing with segment registers */ |
| GETSEG, PUTSEG, /* simulated segment register <--> TempReg */ |
| USESEG, /* (LDT/GDT index, virtual addr) --> linear addr */ |
| |
| /* Not for translating x86 calls -- only to call helpers */ |
| CALLM_S, CALLM_E, /* Mark start/end of CALLM push/pop sequence */ |
| PUSH, POP, CLEAR, /* Add/remove/zap args for helpers */ |
| CALLM, /* Call assembly-code helper */ |
| |
| /* Not for translating x86 calls -- only to call C helper functions of |
| up to three arguments (or two if the functions has a return value). |
| Arguments and return value must be word-sized. More arguments can |
| be faked with global variables (eg. use VG_(lit_to_globvar)()). |
| |
| Seven possibilities: 'arg[123]' show where args go, 'ret' shows |
| where return value goes (if present). |
| |
| CCALL(-, -, - ) void f(void) |
| CCALL(arg1, -, - ) void f(UInt arg1) |
| CCALL(arg1, arg2, - ) void f(UInt arg1, UInt arg2) |
| CCALL(arg1, arg2, arg3) void f(UInt arg1, UInt arg2, UInt arg3) |
| CCALL(-, -, ret ) UInt f(UInt) |
| CCALL(arg1, -, ret ) UInt f(UInt arg1) |
| CCALL(arg1, arg2, ret ) UInt f(UInt arg1, UInt arg2) */ |
| CCALL, |
| |
| /* This opcode makes it easy for tools that extend UCode to do this to |
| avoid opcode overlap: |
| |
| enum { EU_OP1 = DUMMY_FINAL_UOPCODE + 1, ... } |
| |
| WARNING: Do not add new opcodes after this one! They can be added |
| before, though. */ |
| DUMMY_FINAL_UOPCODE |
| } |
| Opcode; |
| |
| |
| /* Condition codes, using the Intel encoding. CondAlways is an extra. */ |
| typedef |
| enum { |
| CondO = 0, /* overflow */ |
| CondNO = 1, /* no overflow */ |
| CondB = 2, /* below */ |
| CondNB = 3, /* not below */ |
| CondZ = 4, /* zero */ |
| CondNZ = 5, /* not zero */ |
| CondBE = 6, /* below or equal */ |
| CondNBE = 7, /* not below or equal */ |
| CondS = 8, /* negative */ |
| CondNS = 9, /* not negative */ |
| CondP = 10, /* parity even */ |
| CondNP = 11, /* not parity even */ |
| CondL = 12, /* jump less */ |
| CondNL = 13, /* not less */ |
| CondLE = 14, /* less or equal */ |
| CondNLE = 15, /* not less or equal */ |
| CondAlways = 16 /* Jump always */ |
| } |
| Condcode; |
| |
| |
| /* Descriptions of additional properties of *unconditional* jumps. */ |
| typedef |
| enum { |
| JmpBoring=0, /* boring unconditional jump */ |
| JmpCall=1, /* jump due to an x86 call insn */ |
| JmpRet=2, /* jump due to an x86 ret insn */ |
| JmpSyscall=3, /* do a system call, then jump */ |
| JmpClientReq=4,/* do a client request, then jump */ |
| JmpYield=5 /* do a yield, then jump */ |
| } |
| JmpKind; |
| |
| |
| /* Flags. User-level code can only read/write O(verflow), S(ign), |
| Z(ero), A(ux-carry), C(arry), P(arity), and may also write |
| D(irection). That's a total of 7 flags. A FlagSet is a bitset, |
| thusly: |
| 76543210 |
| DOSZACP |
| and bit 7 must always be zero since it is unused. |
| |
| Note: these Flag? values are **not** the positions in the actual |
| %eflags register. */ |
| |
| typedef UChar FlagSet; |
| |
| #define FlagD (1<<6) |
| #define FlagO (1<<5) |
| #define FlagS (1<<4) |
| #define FlagZ (1<<3) |
| #define FlagA (1<<2) |
| #define FlagC (1<<1) |
| #define FlagP (1<<0) |
| |
| #define FlagsOSZACP (FlagO | FlagS | FlagZ | FlagA | FlagC | FlagP) |
| #define FlagsOSZAP (FlagO | FlagS | FlagZ | FlagA | FlagP) |
| #define FlagsOSZCP (FlagO | FlagS | FlagZ | FlagC | FlagP) |
| #define FlagsOSACP (FlagO | FlagS | FlagA | FlagC | FlagP) |
| #define FlagsSZACP ( FlagS | FlagZ | FlagA | FlagC | FlagP) |
| #define FlagsSZAP ( FlagS | FlagZ | FlagA | FlagP) |
| #define FlagsSZP ( FlagS | FlagZ | FlagP) |
| #define FlagsZCP ( FlagZ | FlagC | FlagP) |
| #define FlagsOC (FlagO | FlagC ) |
| #define FlagsAC ( FlagA | FlagC ) |
| |
| #define FlagsALL (FlagsOSZACP | FlagD) |
| #define FlagsEmpty (FlagSet)0 |
| |
| |
| /* flag positions in eflags */ |
| #define EFlagC (1 << 0) /* carry */ |
| #define EFlagP (1 << 2) /* parity */ |
| #define EFlagA (1 << 4) /* aux carry */ |
| #define EFlagZ (1 << 6) /* zero */ |
| #define EFlagS (1 << 7) /* sign */ |
| #define EFlagD (1 << 10) /* direction */ |
| #define EFlagO (1 << 11) /* overflow */ |
| #define EFlagID (1 << 21) /* changable if CPUID exists */ |
| |
| /* Liveness of general purpose registers, useful for code generation. |
| Reg rank order 0..N-1 corresponds to bits 0..N-1, ie. first |
| reg's liveness in bit 0, last reg's in bit N-1. Note that |
| these rankings don't match the Intel register ordering. */ |
| typedef UInt RRegSet; |
| |
| #define ALL_RREGS_DEAD 0 /* 0000...00b */ |
| #define ALL_RREGS_LIVE ((1 << VG_MAX_REALREGS)-1) /* 0011...11b */ |
| #define UNIT_RREGSET(rank) (1 << (rank)) |
| |
| #define IS_RREG_LIVE(rank,rregs_live) (rregs_live & UNIT_RREGSET(rank)) |
| #define SET_RREG_LIVENESS(rank,rregs_live,b) \ |
| do { RRegSet unit = UNIT_RREGSET(rank); \ |
| if (b) rregs_live |= unit; \ |
| else rregs_live &= ~unit; \ |
| } while(0) |
| |
| |
| /* A Micro (u)-instruction. */ |
| typedef |
| struct { |
| /* word 1 */ |
| UInt lit32; /* 32-bit literal */ |
| |
| /* word 2 */ |
| UShort val1; /* first operand */ |
| UShort val2; /* second operand */ |
| |
| /* word 3 */ |
| UShort val3; /* third operand */ |
| UChar opcode; /* opcode */ |
| UShort size; /* data transfer size */ |
| |
| /* word 4 */ |
| FlagSet flags_r; /* :: FlagSet */ |
| FlagSet flags_w; /* :: FlagSet */ |
| UChar tag1:4; /* first operand tag */ |
| UChar tag2:4; /* second operand tag */ |
| UChar tag3:4; /* third operand tag */ |
| UChar extra4b:4; /* Spare field, used by WIDEN for src |
| -size, and by LEA2 for scale (1,2,4 or 8), |
| and by JMPs for original x86 instr size */ |
| |
| /* word 5 */ |
| UChar cond; /* condition, for jumps */ |
| Bool signed_widen:1; /* signed or unsigned WIDEN ? */ |
| JmpKind jmpkind:3; /* additional properties of unconditional JMP */ |
| |
| /* Additional properties for UInstrs that call C functions: |
| - CCALL |
| - PUT (when %ESP is the target) |
| - possibly tool-specific UInstrs |
| */ |
| UChar argc:2; /* Number of args, max 3 */ |
| UChar regparms_n:2; /* Number of args passed in registers */ |
| Bool has_ret_val:1; /* Function has return value? */ |
| |
| /* RealReg liveness; only sensical after reg alloc and liveness |
| analysis done. This info is a little bit arch-specific -- |
| VG_MAX_REALREGS can vary on different architectures. Note that |
| to use this information requires converting between register ranks |
| and the Intel register numbers, using VG_(realreg_to_rank)() |
| and/or VG_(rank_to_realreg)() */ |
| RRegSet regs_live_after:VG_MAX_REALREGS; |
| } |
| UInstr; |
| |
| |
| typedef |
| struct _UCodeBlock |
| UCodeBlock; |
| |
| extern Int VG_(get_num_instrs) (UCodeBlock* cb); |
| extern Int VG_(get_num_temps) (UCodeBlock* cb); |
| |
| extern UInstr* VG_(get_instr) (UCodeBlock* cb, Int i); |
| extern UInstr* VG_(get_last_instr) (UCodeBlock* cb); |
| |
| |
| /*====================================================================*/ |
| /*=== Instrumenting UCode ===*/ |
| /*====================================================================*/ |
| |
| /* Maximum number of registers read or written by a single UInstruction. */ |
| #define VG_MAX_REGS_USED 3 |
| |
| /* Find what this instruction does to its regs, useful for |
| analysis/optimisation passes. `tag' indicates whether we're considering |
| TempRegs (pre-reg-alloc) or RealRegs (post-reg-alloc). `regs' is filled |
| with the affected register numbers, `isWrites' parallels it and indicates |
| if the reg is read or written. If a reg is read and written, it will |
| appear twice in `regs'. `regs' and `isWrites' must be able to fit |
| VG_MAX_REGS_USED elements. */ |
| extern Int VG_(get_reg_usage) ( UInstr* u, Tag tag, Int* regs, Bool* isWrites ); |
| |
| |
| /* Used to register helper functions to be called from generated code. A |
| limited number of compact helpers can be registered; the code generated |
| to call them is slightly shorter -- so register the mostly frequently |
| called helpers as compact. */ |
| extern void VG_(register_compact_helper) ( Addr a ); |
| extern void VG_(register_noncompact_helper) ( Addr a ); |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* Virtual register allocation */ |
| |
| /* Get a new virtual register */ |
| extern Int VG_(get_new_temp) ( UCodeBlock* cb ); |
| |
| /* Get a new virtual shadow register */ |
| extern Int VG_(get_new_shadow) ( UCodeBlock* cb ); |
| |
| /* Get a virtual register's corresponding virtual shadow register */ |
| #define SHADOW(tempreg) ((tempreg)+1) |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* Low-level UInstr builders */ |
| extern void VG_(new_NOP) ( UInstr* u ); |
| extern void VG_(new_UInstr0) ( UCodeBlock* cb, Opcode opcode, Int sz ); |
| extern void VG_(new_UInstr1) ( UCodeBlock* cb, Opcode opcode, Int sz, |
| Tag tag1, UInt val1 ); |
| extern void VG_(new_UInstr2) ( UCodeBlock* cb, Opcode opcode, Int sz, |
| Tag tag1, UInt val1, |
| Tag tag2, UInt val2 ); |
| extern void VG_(new_UInstr3) ( UCodeBlock* cb, Opcode opcode, Int sz, |
| Tag tag1, UInt val1, |
| Tag tag2, UInt val2, |
| Tag tag3, UInt val3 ); |
| |
| /* Set read/write/undefined flags. Undefined flags are treaten as written, |
| but it's worth keeping them logically distinct. */ |
| extern void VG_(set_flag_fields) ( UCodeBlock* cb, FlagSet fr, FlagSet fw, |
| FlagSet fu); |
| extern void VG_(set_lit_field) ( UCodeBlock* cb, UInt lit32 ); |
| extern void VG_(set_ccall_fields) ( UCodeBlock* cb, Addr fn, UChar argc, |
| UChar regparms_n, Bool has_ret_val ); |
| extern void VG_(set_cond_field) ( UCodeBlock* cb, Condcode code ); |
| extern void VG_(set_widen_fields) ( UCodeBlock* cb, UInt szs, Bool is_signed ); |
| |
| extern void VG_(copy_UInstr) ( UCodeBlock* cb, UInstr* instr ); |
| |
| extern Bool VG_(any_flag_use)( UInstr* u ); |
| |
| /* Macro versions of the above; just shorter to type. */ |
| #define uInstr0 VG_(new_UInstr0) |
| #define uInstr1 VG_(new_UInstr1) |
| #define uInstr2 VG_(new_UInstr2) |
| #define uInstr3 VG_(new_UInstr3) |
| #define uLiteral VG_(set_lit_field) |
| #define uCCall VG_(set_ccall_fields) |
| #define uCond VG_(set_cond_field) |
| #define uWiden VG_(set_widen_fields) |
| #define uFlagsRWU VG_(set_flag_fields) |
| #define newTemp VG_(get_new_temp) |
| #define newShadow VG_(get_new_shadow) |
| |
| /* Refer to `the last instruction stuffed in' (can be lvalue). */ |
| #define LAST_UINSTR(cb) (cb)->instrs[(cb)->used-1] |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* Higher-level UInstr sequence builders */ |
| |
| extern void VG_(lit_to_reg) ( UCodeBlock* cb, UInt lit, UInt t ); |
| extern UInt VG_(lit_to_newreg) ( UCodeBlock* cb, UInt lit ); |
| |
| #define CB_F UCodeBlock* cb, Addr f |
| #define EV extern void |
| #define RPn UInt regparms_n |
| |
| /* Various CCALL builders, of the form "ccall_<args>_<retval>". 'R' |
| represents a TempReg, 'L' represents a literal, '0' represents nothing |
| (ie. no args, or no return value). */ |
| |
| EV VG_(ccall_0_0) ( CB_F ); |
| |
| EV VG_(ccall_R_0) ( CB_F, UInt R1, RPn ); |
| EV VG_(ccall_L_0) ( CB_F, UInt L1, RPn ); |
| EV VG_(ccall_R_R) ( CB_F, UInt R1, UInt R_ret, RPn ); |
| EV VG_(ccall_L_R) ( CB_F, UInt L1, UInt R_ret, RPn ); |
| |
| EV VG_(ccall_RR_0) ( CB_F, UInt R1, UInt R2, RPn ); |
| EV VG_(ccall_RL_0) ( CB_F, UInt R1, UInt RL, RPn ); |
| EV VG_(ccall_LR_0) ( CB_F, UInt L1, UInt R2, RPn ); |
| EV VG_(ccall_LL_0) ( CB_F, UInt L1, UInt L2, RPn ); |
| EV VG_(ccall_RR_R) ( CB_F, UInt R1, UInt R2, UInt R_ret, RPn ); |
| EV VG_(ccall_RL_R) ( CB_F, UInt R1, UInt L2, UInt R_ret, RPn ); |
| EV VG_(ccall_LR_R) ( CB_F, UInt L1, UInt R2, UInt R_ret, RPn ); |
| EV VG_(ccall_LL_R) ( CB_F, UInt L1, UInt L2, UInt R_ret, RPn ); |
| |
| EV VG_(ccall_RRR_0) ( CB_F, UInt R1, UInt R2, UInt R3, RPn ); |
| EV VG_(ccall_RLL_0) ( CB_F, UInt R1, UInt L2, UInt L3, RPn ); |
| EV VG_(ccall_LRR_0) ( CB_F, UInt L1, UInt R2, UInt R3, RPn ); |
| EV VG_(ccall_LLR_0) ( CB_F, UInt L1, UInt L2, UInt R3, RPn ); |
| EV VG_(ccall_LLL_0) ( CB_F, UInt L1, UInt L2, UInt L3, RPn ); |
| |
| #undef CB_F |
| #undef EV |
| #undef RPn |
| |
| /* One way around the 3-arg C function limit is to pass args via global |
| * variables... ugly, but it works. */ |
| void VG_(reg_to_globvar)(UCodeBlock* cb, UInt t, UInt* globvar_ptr); |
| void VG_(lit_to_globvar)(UCodeBlock* cb, UInt lit, UInt* globvar_ptr); |
| |
| |
| /* Old, deprecated versions of some of the helpers (DO NOT USE) */ |
| extern void VG_(call_helper_0_0) ( UCodeBlock* cb, Addr f); |
| extern void VG_(call_helper_1_0) ( UCodeBlock* cb, Addr f, UInt arg1, |
| UInt regparms_n); |
| extern void VG_(call_helper_2_0) ( UCodeBlock* cb, Addr f, UInt arg1, UInt arg2, |
| UInt regparms_n); |
| extern void VG_(set_global_var) ( UCodeBlock* cb, Addr globvar_ptr, UInt val); |
| extern void VG_(set_global_var_tempreg) ( UCodeBlock* cb, Addr globvar_ptr, |
| UInt t_val); |
| |
| /* ------------------------------------------------------------------ */ |
| /* Allocating/freeing basic blocks of UCode */ |
| extern UCodeBlock* VG_(setup_UCodeBlock) ( UCodeBlock* cb ); |
| extern void VG_(free_UCodeBlock) ( UCodeBlock* cb ); |
| |
| /* ------------------------------------------------------------------ */ |
| /* UCode pretty/ugly printing. Probably only useful to call from a tool |
| if VG_(needs).extended_UCode == True. */ |
| |
| /* When True, all generated code is/should be printed. */ |
| extern Bool VG_(print_codegen); |
| |
| /* Pretty/ugly printing functions */ |
| extern void VG_(pp_UCodeBlock) ( UCodeBlock* cb, Char* title ); |
| extern void VG_(pp_UInstr) ( Int instrNo, UInstr* u ); |
| extern void VG_(pp_UInstr_regs) ( Int instrNo, UInstr* u ); |
| extern void VG_(up_UInstr) ( Int instrNo, UInstr* u ); |
| extern Char* VG_(name_UOpcode) ( Bool upper, Opcode opc ); |
| extern Char* VG_(name_UCondcode) ( Condcode cond ); |
| extern void VG_(pp_UOperand) ( UInstr* u, Int operandNo, |
| Int sz, Bool parens ); |
| |
| /* ------------------------------------------------------------------ */ |
| /* Accessing archregs and their shadows */ |
| extern UInt VG_(get_archreg) ( UInt archreg ); |
| extern UInt VG_(get_thread_archreg) ( ThreadId tid, UInt archreg ); |
| |
| extern UInt VG_(get_shadow_archreg) ( UInt archreg ); |
| extern void VG_(set_shadow_archreg) ( UInt archreg, UInt val ); |
| extern void VG_(set_shadow_eflags) ( UInt val ); |
| extern Addr VG_(shadow_archreg_address) ( UInt archreg ); |
| |
| extern UInt VG_(get_thread_shadow_archreg) ( ThreadId tid, UInt archreg ); |
| extern void VG_(set_thread_shadow_archreg) ( ThreadId tid, UInt archreg, |
| UInt val ); |
| |
| /*====================================================================*/ |
| /*=== Generating x86 code from UCode ===*/ |
| /*====================================================================*/ |
| |
| /* All this only necessary for tools with VG_(needs).extends_UCode == True. */ |
| |
| /* This is the Intel register encoding -- integer regs. */ |
| #define R_EAX 0 |
| #define R_ECX 1 |
| #define R_EDX 2 |
| #define R_EBX 3 |
| #define R_ESP 4 |
| #define R_EBP 5 |
| #define R_ESI 6 |
| #define R_EDI 7 |
| |
| #define R_AL (0+R_EAX) |
| #define R_CL (0+R_ECX) |
| #define R_DL (0+R_EDX) |
| #define R_BL (0+R_EBX) |
| #define R_AH (4+R_EAX) |
| #define R_CH (4+R_ECX) |
| #define R_DH (4+R_EDX) |
| #define R_BH (4+R_EBX) |
| |
| /* This is the Intel register encoding -- segment regs. */ |
| #define R_ES 0 |
| #define R_CS 1 |
| #define R_SS 2 |
| #define R_DS 3 |
| #define R_FS 4 |
| #define R_GS 5 |
| |
| /* For pretty printing x86 code */ |
| extern const Char* VG_(name_of_mmx_gran) ( UChar gran ); |
| extern const Char* VG_(name_of_mmx_reg) ( Int mmxreg ); |
| extern const Char* VG_(name_of_seg_reg) ( Int sreg ); |
| extern const Char* VG_(name_of_int_reg) ( Int size, Int reg ); |
| extern const Char VG_(name_of_int_size) ( Int size ); |
| |
| /* Shorter macros for convenience */ |
| #define nameIReg VG_(name_of_int_reg) |
| #define nameISize VG_(name_of_int_size) |
| #define nameSReg VG_(name_of_seg_reg) |
| #define nameMMXReg VG_(name_of_mmx_reg) |
| #define nameMMXGran VG_(name_of_mmx_gran) |
| #define nameXMMReg VG_(name_of_xmm_reg) |
| |
| /* Randomly useful things */ |
| extern UInt VG_(extend_s_8to32) ( UInt x ); |
| |
| /* Code emitters */ |
| extern void VG_(emitB) ( UInt b ); |
| extern void VG_(emitW) ( UInt w ); |
| extern void VG_(emitL) ( UInt l ); |
| extern void VG_(new_emit) ( Bool upd_cc, FlagSet uses_flags, FlagSet sets_flags ); |
| |
| /* Finding offsets */ |
| extern Int VG_(helper_offset) ( Addr a ); |
| extern Int VG_(shadow_reg_offset) ( Int arch ); |
| extern Int VG_(shadow_flags_offset) ( void ); |
| |
| /* Convert reg ranks <-> Intel register ordering, for using register |
| liveness information. */ |
| extern Int VG_(realreg_to_rank) ( Int realreg ); |
| extern Int VG_(rank_to_realreg) ( Int rank ); |
| |
| /* Call a subroutine. Does no argument passing, stack manipulations, etc. */ |
| extern void VG_(synth_call) ( Bool ensure_shortform, Int word_offset, |
| Bool upd_cc, FlagSet use_flags, FlagSet set_flags ); |
| |
| /* For calling C functions -- saves caller save regs, pushes args, calls, |
| clears the stack, restores caller save regs. `fn' must be registered in |
| the baseBlock first. Acceptable tags are RealReg and Literal. Optimises |
| things, eg. by not preserving non-live caller-save registers. |
| |
| WARNING: a UInstr should *not* be translated with synth_ccall() followed |
| by some other x86 assembly code; this will invalidate the results of |
| vg_realreg_liveness_analysis() and everything will fall over. */ |
| extern void VG_(synth_ccall) ( Addr fn, Int argc, Int regparms_n, UInt argv[], |
| Tag tagv[], Int ret_reg, |
| RRegSet regs_live_before, |
| RRegSet regs_live_after ); |
| |
| /* Addressing modes */ |
| extern void VG_(emit_amode_offregmem_reg)( Int off, Int regmem, Int reg ); |
| extern void VG_(emit_amode_ereg_greg) ( Int e_reg, Int g_reg ); |
| |
| /* v-size (4, or 2 with OSO) insn emitters */ |
| extern void VG_(emit_movv_offregmem_reg) ( Int sz, Int off, Int areg, Int reg ); |
| extern void VG_(emit_movv_reg_offregmem) ( Int sz, Int reg, Int off, Int areg ); |
| extern void VG_(emit_movv_reg_reg) ( Int sz, Int reg1, Int reg2 ); |
| extern void VG_(emit_nonshiftopv_lit_reg)( Bool upd_cc, Int sz, Opcode opc, UInt lit, |
| Int reg ); |
| extern void VG_(emit_shiftopv_lit_reg) ( Bool upd_cc, Int sz, Opcode opc, UInt lit, |
| Int reg ); |
| extern void VG_(emit_nonshiftopv_reg_reg)( Bool upd_cc, Int sz, Opcode opc, |
| Int reg1, Int reg2 ); |
| extern void VG_(emit_movv_lit_reg) ( Int sz, UInt lit, Int reg ); |
| extern void VG_(emit_unaryopv_reg) ( Bool upd_cc, Int sz, Opcode opc, Int reg ); |
| extern void VG_(emit_pushv_reg) ( Int sz, Int reg ); |
| extern void VG_(emit_popv_reg) ( Int sz, Int reg ); |
| |
| extern void VG_(emit_pushl_lit32) ( UInt int32 ); |
| extern void VG_(emit_pushl_lit8) ( Int lit8 ); |
| extern void VG_(emit_cmpl_zero_reg) ( Bool upd_cc, Int reg ); |
| extern void VG_(emit_swapl_reg_EAX) ( Int reg ); |
| extern void VG_(emit_movv_lit_offregmem) ( Int sz, UInt lit, Int off, |
| Int memreg ); |
| |
| /* b-size (1 byte) instruction emitters */ |
| extern void VG_(emit_movb_lit_offregmem) ( UInt lit, Int off, Int memreg ); |
| extern void VG_(emit_movb_reg_offregmem) ( Int reg, Int off, Int areg ); |
| extern void VG_(emit_unaryopb_reg) ( Bool upd_cc, Opcode opc, Int reg ); |
| extern void VG_(emit_testb_lit_reg) ( Bool upd_cc, UInt lit, Int reg ); |
| |
| /* zero-extended load emitters */ |
| extern void VG_(emit_movzbl_offregmem_reg) ( Bool bounds, Int off, Int regmem, Int reg ); |
| extern void VG_(emit_movzwl_offregmem_reg) ( Bool bounds, Int off, Int areg, Int reg ); |
| extern void VG_(emit_movzwl_regmem_reg) ( Bool bounds, Int reg1, Int reg2 ); |
| |
| /* misc instruction emitters */ |
| extern void VG_(emit_call_reg) ( Int reg ); |
| extern void VG_(emit_add_lit_to_esp) ( Int lit ); |
| extern void VG_(emit_pushal) ( void ); |
| extern void VG_(emit_popal) ( void ); |
| extern void VG_(emit_AMD_prefetch_reg) ( Int reg ); |
| |
| /* jump emitters */ |
| extern void VG_(init_target) ( Int *tgt ); |
| |
| extern void VG_(target_back) ( Int *tgt ); |
| extern void VG_(target_forward) ( Int *tgt ); |
| extern void VG_(emit_target_delta) ( Int *tgt ); |
| |
| typedef enum { |
| JP_NONE, /* no prediction */ |
| JP_TAKEN, /* predict taken */ |
| JP_NOT_TAKEN, /* predict not taken */ |
| } JumpPred; |
| |
| extern void VG_(emit_jcondshort_delta) ( Bool simd_cc, Condcode cond, Int delta, JumpPred ); |
| extern void VG_(emit_jcondshort_target)( Bool simd_cc, Condcode cond, Int *tgt, JumpPred ); |
| |
| |
| /*====================================================================*/ |
| /*=== Execution contexts ===*/ |
| /*====================================================================*/ |
| |
| /* Generic resolution type used in a few different ways, such as deciding |
| how closely to compare two errors for equality. */ |
| typedef |
| enum { Vg_LowRes, Vg_MedRes, Vg_HighRes } |
| VgRes; |
| |
| typedef |
| struct _ExeContext |
| ExeContext; |
| |
| /* Compare two ExeContexts. Number of callers considered depends on `res': |
| Vg_LowRes: 2 |
| Vg_MedRes: 4 |
| Vg_HighRes: all */ |
| extern Bool VG_(eq_ExeContext) ( VgRes res, |
| ExeContext* e1, ExeContext* e2 ); |
| |
| /* Print an ExeContext. */ |
| extern void VG_(pp_ExeContext) ( ExeContext* ); |
| |
| /* Take a snapshot of the client's stack. Search our collection of |
| ExeContexts to see if we already have it, and if not, allocate a |
| new one. Either way, return a pointer to the context. Context size |
| controlled by --num-callers option. |
| |
| If called from generated code, use VG_(get_current_tid)() to get the |
| current ThreadId. If called from non-generated code, the current |
| ThreadId should be passed in by the core. |
| */ |
| extern ExeContext* VG_(get_ExeContext) ( ThreadId tid ); |
| |
| /* Get the nth IP from the ExeContext. 0 is the IP of the top function, 1 |
| is its caller, etc. Returns 0 if there isn't one, or if n is greater |
| than VG_(clo_backtrace_size), set by the --num-callers option. */ |
| extern Addr VG_(get_EIP_from_ExeContext) ( ExeContext* e, UInt n ); |
| |
| /* Just grab the client's IP, as a much smaller and cheaper |
| indication of where they are. Use is basically same as for |
| VG_(get_ExeContext)() above. |
| */ |
| extern Addr VG_(get_EIP)( ThreadId tid ); |
| |
| /* For tools needing more control over stack traces: walks the stack to get |
| instruction pointers from the top stack frames for thread 'tid'. Maximum of |
| 'n_ips' addresses put into 'ips'; 0 is the top of the stack, 1 is its |
| caller, etc. */ |
| extern UInt VG_(stack_snapshot) ( ThreadId tid, Addr* ips, UInt n_ips ); |
| |
| /* Does the same thing as VG_(pp_ExeContext)(), just with slightly |
| different input. */ |
| extern void VG_(mini_stack_dump) ( Addr ips[], UInt n_ips ); |
| |
| |
| /*====================================================================*/ |
| /*=== Error reporting ===*/ |
| /*====================================================================*/ |
| |
| /* ------------------------------------------------------------------ */ |
| /* Suppressions describe errors which we want to suppress, ie, not |
| show the user, usually because it is caused by a problem in a library |
| which we can't fix, replace or work around. Suppressions are read from |
| a file at startup time. This gives flexibility so that new |
| suppressions can be added to the file as and when needed. |
| */ |
| |
| typedef |
| Int /* Do not make this unsigned! */ |
| SuppKind; |
| |
| /* The tool-relevant parts of a suppression are: |
| kind: what kind of suppression; must be in the range (0..) |
| string: use is optional. NULL by default. |
| extra: use is optional. NULL by default. void* so it's extensible. |
| */ |
| typedef |
| struct _Supp |
| Supp; |
| |
| /* Useful in SK_(error_matches_suppression)() */ |
| SuppKind VG_(get_supp_kind) ( Supp* su ); |
| Char* VG_(get_supp_string) ( Supp* su ); |
| void* VG_(get_supp_extra) ( Supp* su ); |
| |
| /* Must be used in VG_(recognised_suppression)() */ |
| void VG_(set_supp_kind) ( Supp* su, SuppKind suppkind ); |
| /* May be used in VG_(read_extra_suppression_info)() */ |
| void VG_(set_supp_string) ( Supp* su, Char* string ); |
| void VG_(set_supp_extra) ( Supp* su, void* extra ); |
| |
| |
| /* ------------------------------------------------------------------ */ |
| /* Error records contain enough info to generate an error report. The idea |
| is that (typically) the same few points in the program generate thousands |
| of errors, and we don't want to spew out a fresh error message for each |
| one. Instead, we use these structures to common up duplicates. |
| */ |
| |
| typedef |
| Int /* Do not make this unsigned! */ |
| ErrorKind; |
| |
| /* The tool-relevant parts of an Error are: |
| kind: what kind of error; must be in the range (0..) |
| addr: use is optional. 0 by default. |
| string: use is optional. NULL by default. |
| extra: use is optional. NULL by default. void* so it's extensible. |
| */ |
| typedef |
| struct _Error |
| Error; |
| |
| /* Useful in SK_(error_matches_suppression)(), SK_(pp_SkinError)(), etc */ |
| ExeContext* VG_(get_error_where) ( Error* err ); |
| SuppKind VG_(get_error_kind) ( Error* err ); |
| Addr VG_(get_error_address) ( Error* err ); |
| Char* VG_(get_error_string) ( Error* err ); |
| void* VG_(get_error_extra) ( Error* err ); |
| |
| /* Call this when an error occurs. It will be recorded if it hasn't been |
| seen before. If it has, the existing error record will have its count |
| incremented. |
| |
| 'tid' can be found as for VG_(get_ExeContext)(). The `extra' field can |
| be stack-allocated; it will be copied by the core if needed (but it |
| won't be copied if it's NULL). |
| |
| If no 'a', 's' or 'extra' of interest needs to be recorded, just use |
| NULL for them. */ |
| extern void VG_(maybe_record_error) ( ThreadId tid, ErrorKind ekind, |
| Addr a, Char* s, void* extra ); |
| |
| /* Similar to VG_(maybe_record_error)(), except this one doesn't record the |
| error -- useful for errors that can only happen once. The errors can be |
| suppressed, though. Return value is True if it was suppressed. |
| `print_error' dictates whether to print the error, which is a bit of a |
| hack that's useful sometimes if you just want to know if the error would |
| be suppressed without possibly printing it. `count_error' dictates |
| whether to add the error in the error total count (another mild hack). */ |
| extern Bool VG_(unique_error) ( ThreadId tid, ErrorKind ekind, |
| Addr a, Char* s, void* extra, |
| ExeContext* where, Bool print_error, |
| Bool allow_GDB_attach, Bool count_error ); |
| |
| /* Gets a non-blank, non-comment line of at most nBuf chars from fd. |
| Skips leading spaces on the line. Returns True if EOF was hit instead. |
| Useful for reading in extra tool-specific suppression lines. */ |
| extern Bool VG_(get_line) ( Int fd, Char* buf, Int nBuf ); |
| |
| |
| /*====================================================================*/ |
| /*=== Obtaining debug information ===*/ |
| /*====================================================================*/ |
| |
| /* Get the file/function/line number of the instruction at address |
| 'a'. For these four, if debug info for the address is found, it |
| copies the info into the buffer/UInt and returns True. If not, it |
| returns False and nothing is copied. VG_(get_fnname) always |
| demangles C++ function names. VG_(get_fnname_w_offset) is the |
| same, except it appends "+N" to symbol names to indicate offsets. */ |
| extern Bool VG_(get_filename) ( Addr a, Char* filename, Int n_filename ); |
| extern Bool VG_(get_fnname) ( Addr a, Char* fnname, Int n_fnname ); |
| extern Bool VG_(get_linenum) ( Addr a, UInt* linenum ); |
| extern Bool VG_(get_fnname_w_offset) |
| ( Addr a, Char* fnname, Int n_fnname ); |
| |
| /* This one is more efficient if getting both filename and line number, |
| because the two lookups are done together. */ |
| extern Bool VG_(get_filename_linenum) |
| ( Addr a, Char* filename, Int n_filename, |
| UInt* linenum ); |
| |
| /* Succeeds only if we find from debug info that 'a' is the address of the |
| first instruction in a function -- as opposed to VG_(get_fnname) which |
| succeeds if we find from debug info that 'a' is the address of any |
| instruction in a function. Use this to instrument the start of |
| a particular function. Nb: if an executable/shared object is stripped |
| of its symbols, this function will not be able to recognise function |
| entry points within it. */ |
| extern Bool VG_(get_fnname_if_entry) ( Addr a, Char* fnname, Int n_fnname ); |
| |
| /* Succeeds if the address is within a shared object or the main executable. |
| It doesn't matter if debug info is present or not. */ |
| extern Bool VG_(get_objname) ( Addr a, Char* objname, Int n_objname ); |
| |
| /* Puts into 'buf' info about the code address %eip: the address, function |
| name (if known) and filename/line number (if known), like this: |
| |
| 0x4001BF05: realloc (vg_replace_malloc.c:339) |
| |
| 'n_buf' gives length of 'buf'. Returns 'buf'. |
| */ |
| extern Char* VG_(describe_eip)(Addr eip, Char* buf, Int n_buf); |
| |
| /* Returns a string containing an expression for the given |
| address. String is malloced with VG_(malloc)() */ |
| Char *VG_(describe_addr)(ThreadId, Addr); |
| |
| /* A way to get information about what segments are mapped */ |
| typedef struct _SegInfo SegInfo; |
| |
| /* Returns NULL if the SegInfo isn't found. It doesn't matter if debug info |
| is present or not. */ |
| extern SegInfo* VG_(get_obj) ( Addr a ); |
| |
| extern const SegInfo* VG_(next_seginfo) ( const SegInfo *seg ); |
| extern Addr VG_(seg_start) ( const SegInfo *seg ); |
| extern UInt VG_(seg_size) ( const SegInfo *seg ); |
| extern const UChar* VG_(seg_filename) ( const SegInfo *seg ); |
| extern UInt VG_(seg_sym_offset)( const SegInfo *seg ); |
| |
| typedef |
| enum { |
| Vg_SectUnknown, |
| Vg_SectText, |
| Vg_SectData, |
| Vg_SectBSS, |
| Vg_SectGOT, |
| Vg_SectPLT, |
| } |
| VgSectKind; |
| |
| extern VgSectKind VG_(seg_sect_kind)(Addr); |
| |
| |
| /*====================================================================*/ |
| /*=== Generic hash table ===*/ |
| /*====================================================================*/ |
| |
| /* Generic type for a separately-chained hash table. Via a kind of dodgy |
| C-as-C++ style inheritance, tools can extend the VgHashNode type, so long |
| as the first two fields match the sizes of these two fields. Requires |
| a bit of casting by the tool. */ |
| typedef |
| struct _VgHashNode { |
| struct _VgHashNode * next; |
| UInt key; |
| } |
| VgHashNode; |
| |
| typedef |
| VgHashNode** |
| VgHashTable; |
| |
| /* Make a new table. */ |
| extern VgHashTable VG_(HT_construct) ( void ); |
| |
| /* Count the number of nodes in a table. */ |
| extern Int VG_(HT_count_nodes) ( VgHashTable table ); |
| |
| /* Add a node to the table. */ |
| extern void VG_(HT_add_node) ( VgHashTable t, VgHashNode* node ); |
| |
| /* Looks up a node in the hash table. Also returns the address of the |
| previous node's `next' pointer which allows it to be removed from the |
| list later without having to look it up again. */ |
| extern VgHashNode* VG_(HT_get_node) ( VgHashTable t, UInt key, |
| /*OUT*/VgHashNode*** next_ptr ); |
| |
| /* Allocates an array of pointers to all the shadow chunks of malloc'd |
| blocks. Must be freed with VG_(free)(). */ |
| extern VgHashNode** VG_(HT_to_array) ( VgHashTable t, /*OUT*/ UInt* n_shadows ); |
| |
| /* Returns first node that matches predicate `p', or NULL if none do. |
| Extra arguments can be implicitly passed to `p' using `d' which is an |
| opaque pointer passed to `p' each time it is called. */ |
| extern VgHashNode* VG_(HT_first_match) ( VgHashTable t, |
| Bool (*p)(VgHashNode*, void*), |
| void* d ); |
| |
| /* Applies a function f() once to each node. Again, `d' can be used |
| to pass extra information to the function. */ |
| extern void VG_(HT_apply_to_all_nodes)( VgHashTable t, |
| void (*f)(VgHashNode*, void*), |
| void* d ); |
| |
| /* Destroy a table. */ |
| extern void VG_(HT_destruct) ( VgHashTable t ); |
| |
| |
| /*====================================================================*/ |
| /*=== A generic skiplist ===*/ |
| /*====================================================================*/ |
| |
| /* |
| The idea here is that the skiplist puts its per-element data at the |
| end of the structure. When you initialize the skiplist, you tell |
| it what structure your list elements are going to be. Then you |
| should allocate them with VG_(SkipNode_Alloc), which will allocate |
| enough memory for the extra bits. |
| */ |
| #include <stddef.h> /* for offsetof */ |
| |
| typedef struct _SkipList SkipList; |
| typedef struct _SkipNode SkipNode; |
| |
| typedef Int (*SkipCmp_t)(const void *key1, const void *key2); |
| |
| struct _SkipList { |
| const Short arena; /* allocation arena */ |
| const UShort size; /* structure size (not including SkipNode) */ |
| const UShort keyoff; /* key offset */ |
| const SkipCmp_t cmp; /* compare two keys */ |
| Char * (*strkey)(void *); /* stringify a key (for debugging) */ |
| SkipNode *head; /* list head */ |
| }; |
| |
| /* Use this macro to initialize your skiplist head. The arguments are pretty self explanitory: |
| _type is the type of your element structure |
| _key is the field within that type which you want to use as the key |
| _cmp is the comparison function for keys - it gets two typeof(_key) pointers as args |
| _strkey is a function which can return a string of your key - it's only used for debugging |
| _arena is the arena to use for allocation - -1 is the default |
| */ |
| #define SKIPLIST_INIT(_type, _key, _cmp, _strkey, _arena) \ |
| { \ |
| .arena = _arena, \ |
| .size = sizeof(_type), \ |
| .keyoff = offsetof(_type, _key), \ |
| .cmp = _cmp, \ |
| .strkey = _strkey, \ |
| .head = NULL, \ |
| } |
| |
| /* List operations: |
| SkipList_Find searchs a list. If it can't find an exact match, it either |
| returns NULL or a pointer to the element before where k would go |
| SkipList_Insert inserts a new element into the list. Duplicates are |
| forbidden. The element must have been created with SkipList_Alloc! |
| SkipList_Remove removes an element from the list and returns it. It |
| doesn't free the memory. |
| */ |
| extern void *VG_(SkipList_Find) (const SkipList *l, void *key); |
| extern void VG_(SkipList_Insert)( SkipList *l, void *data); |
| extern void *VG_(SkipList_Remove)( SkipList *l, void *key); |
| |
| /* Node (element) operations: |
| SkipNode_Alloc: allocate memory for a new element on the list. Must be |
| used before an element can be inserted! Returns NULL if not enough |
| memory. |
| SkipNode_Free: free memory allocated above |
| SkipNode_First: return the first element on the list |
| SkipNode_Next: return the next element after "data" on the list - |
| NULL for none |
| |
| You can iterate through a SkipList like this: |
| |
| for(x = VG_(SkipNode_First)(&list); // or SkipList_Find |
| x != NULL; |
| x = VG_(SkipNode_Next)(&list, x)) { ... } |
| */ |
| extern void *VG_(SkipNode_Alloc) (const SkipList *l); |
| extern void VG_(SkipNode_Free) (const SkipList *l, void *p); |
| extern void *VG_(SkipNode_First) (const SkipList *l); |
| extern void *VG_(SkipNode_Next) (const SkipList *l, void *data); |
| |
| /*====================================================================*/ |
| /*=== Functions for shadow registers ===*/ |
| /*====================================================================*/ |
| |
| /* Nb: make sure the shadow_regs 'need' is set before using these! */ |
| |
| /* This one lets you override the shadow of the return value register for a |
| syscall. Call it from SK_(post_syscall)() (not SK_(pre_syscall)()!) to |
| override the default shadow register value. */ |
| extern void VG_(set_return_from_syscall_shadow) ( ThreadId tid, |
| UInt ret_shadow ); |
| |
| /* This can be called from SK_(fini)() to find the shadow of the argument |
| to exit(), ie. the shadow of the program's return value. */ |
| extern UInt VG_(get_exit_status_shadow) ( void ); |
| |
| |
| /*====================================================================*/ |
| /*=== Specific stuff for replacing malloc() and friends ===*/ |
| /*====================================================================*/ |
| |
| /* If a tool replaces malloc() et al, the easiest way to do so is to |
| link with vg_replace_malloc.o into its vgpreload_*.so file, and |
| follow the following instructions. You can do it from scratch, |
| though, if you enjoy that sort of thing. */ |
| |
| /* Arena size for valgrind's own malloc(); default value is 0, but can |
| be overridden by tool -- but must be done so *statically*, eg: |
| |
| Int VG_(vg_malloc_redzone_szB) = 4; |
| |
| It can't be done from a function like SK_(pre_clo_init)(). So it can't, |
| for example, be controlled with a command line option, unfortunately. */ |
| extern UInt VG_(vg_malloc_redzone_szB); |
| |
| /* Can be called from SK_(malloc) et al to do the actual alloc/freeing. */ |
| extern void* VG_(cli_malloc) ( UInt align, Int nbytes ); |
| extern void VG_(cli_free) ( void* p ); |
| |
| /* Check if an address is within a range, allowing for redzones at edges */ |
| extern Bool VG_(addr_is_in_block)( Addr a, Addr start, UInt size ); |
| |
| /* ------------------------------------------------------------------ */ |
| /* Some options that can be used by a tool if malloc() et al are replaced. |
| The tool should call the functions in the appropriate places to give |
| control over these aspects of Valgrind's version of malloc(). */ |
| |
| /* Round malloc sizes upwards to integral number of words? default: NO */ |
| extern Bool VG_(clo_sloppy_malloc); |
| /* DEBUG: print malloc details? default: NO */ |
| extern Bool VG_(clo_trace_malloc); |
| /* Minimum alignment in functions that don't specify alignment explicitly. |
| default: 0, i.e. use default of the machine (== 4) */ |
| extern Int VG_(clo_alignment); |
| |
| extern Bool VG_(replacement_malloc_process_cmd_line_option) ( Char* arg ); |
| extern void VG_(replacement_malloc_print_usage) ( void ); |
| extern void VG_(replacement_malloc_print_debug_usage) ( void ); |
| |
| |
| /*====================================================================*/ |
| /*=== Tool-specific stuff ===*/ |
| /*====================================================================*/ |
| |
| /* ------------------------------------------------------------------ */ |
| /* Details */ |
| |
| /* Default value for avg_translations_sizeB (in bytes), indicating typical |
| code expansion of about 6:1. */ |
| #define VG_DEFAULT_TRANS_SIZEB 100 |
| |
| /* Information used in the startup message. `name' also determines the |
| string used for identifying suppressions in a suppression file as |
| belonging to this tool. `version' can be NULL, in which case (not |
| surprisingly) no version info is printed; this mechanism is designed for |
| tools distributed with Valgrind that share a version number with |
| Valgrind. Other tools not distributed as part of Valgrind should |
| probably have their own version number. */ |
| extern void VG_(details_name) ( Char* name ); |
| extern void VG_(details_version) ( Char* version ); |
| extern void VG_(details_description) ( Char* description ); |
| extern void VG_(details_copyright_author) ( Char* copyright_author ); |
| |
| /* Average size of a translation, in bytes, so that the translation |
| storage machinery can allocate memory appropriately. Not critical, |
| setting is optional. */ |
| extern void VG_(details_avg_translation_sizeB) ( UInt size ); |
| |
| /* String printed if an `sk_assert' assertion fails or VG_(skin_panic) |
| is called. Should probably be an email address. */ |
| extern void VG_(details_bug_reports_to) ( Char* bug_reports_to ); |
| |
| /* ------------------------------------------------------------------ */ |
| /* Needs */ |
| |
| /* Booleans that decide core behaviour, but don't require extra |
| operations to be defined if `True' */ |
| |
| /* Should __libc_freeres() be run? Bugs in it can crash the tool. */ |
| extern void VG_(needs_libc_freeres) ( void ); |
| |
| /* Want to have errors detected by Valgrind's core reported? Includes: |
| - pthread API errors (many; eg. unlocking a non-locked mutex) |
| - invalid file descriptors to blocking syscalls read() and write() |
| - bad signal numbers passed to sigaction() |
| - attempt to install signal handler for SIGKILL or SIGSTOP */ |
| extern void VG_(needs_core_errors) ( void ); |
| |
| /* Booleans that indicate extra operations are defined; if these are True, |
| the corresponding template functions (given below) must be defined. A |
| lot like being a member of a type class. */ |
| |
| /* Want to report errors from tool? This implies use of suppressions, too. */ |
| extern void VG_(needs_skin_errors) ( void ); |
| |
| /* Is information kept about specific individual basic blocks? (Eg. for |
| cachegrind there are cost-centres for every instruction, stored at a |
| basic block level.) If so, it sometimes has to be discarded, because |
| .so mmap/munmap-ping or self-modifying code (informed by the |
| DISCARD_TRANSLATIONS user request) can cause one instruction address |
| to be used for more than one instruction in one program run... */ |
| extern void VG_(needs_basic_block_discards) ( void ); |
| |
| /* Tool maintains information about each register? */ |
| extern void VG_(needs_shadow_regs) ( void ); |
| |
| /* Tool defines its own command line options? */ |
| extern void VG_(needs_command_line_options) ( void ); |
| |
| /* Tool defines its own client requests? */ |
| extern void VG_(needs_client_requests) ( void ); |
| |
| /* Tool defines its own UInstrs? */ |
| extern void VG_(needs_extended_UCode) ( void ); |
| |
| /* Tool does stuff before and/or after system calls? */ |
| extern void VG_(needs_syscall_wrapper) ( void ); |
| |
| /* Are tool-state sanity checks performed? */ |
| extern void VG_(needs_sanity_checks) ( void ); |
| |
| /* Do we need to see data symbols? */ |
| extern void VG_(needs_data_syms) ( void ); |
| |
| /* Does the tool need shadow memory allocated (if you set this, you must also statically initialize |
| float SK_(shadow_ratio) = n./m; |
| to define how many shadow bits you need per client address space bit. |
| */ |
| extern void VG_(needs_shadow_memory)( void ); |
| extern float SK_(shadow_ratio); |
| |
| /* ------------------------------------------------------------------ */ |
| /* Core events to track */ |
| |
| /* Part of the core from which this call was made. Useful for determining |
| what kind of error message should be emitted. */ |
| typedef |
| enum { Vg_CorePThread, Vg_CoreSignal, Vg_CoreSysCall, Vg_CoreTranslate } |
| CorePart; |
| |
| /* Useful to use in VG_(get_Xreg_usage)() */ |
| #define VG_UINSTR_READS_REG(ono,regs,isWrites) \ |
| { if (mycat(u->tag,ono) == tag) \ |
| { regs[n] = mycat(u->val,ono); \ |
| isWrites[n] = False; \ |
| n++; \ |
| } \ |
| } |
| #define VG_UINSTR_WRITES_REG(ono,regs,isWrites) \ |
| { if (mycat(u->tag,ono) == tag) \ |
| { regs[n] = mycat(u->val,ono); \ |
| isWrites[n] = True; \ |
| n++; \ |
| } \ |
| } |
| |
| #endif /* NDEF __TOOL_H */ |
| |
| /* gen_toolint.pl will put the VG_(init_*)() functions here: */ |