/* * Copyright 2008 Sun Microsystems, Inc. All Rights Reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. * * This code 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 * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Sun Microsystems, Inc., 4150 Network Circle, Santa Clara, * CA 95054 USA or visit www.sun.com if you need additional information or * have any questions. * */ /* hsdis.c -- dump a range of addresses as native instructions This implements the plugin protocol required by the HotSpot PrintAssembly option. */ #include "hsdis.h" #include #include #include #include #include #ifndef bool #define bool int #define true 1 #define false 0 #endif /*bool*/ /* short names for stuff in hsdis.h */ typedef decode_instructions_event_callback_ftype event_callback_t; typedef decode_instructions_printf_callback_ftype printf_callback_t; /* disassemble_info.application_data object */ struct hsdis_app_data { /* the arguments to decode_instructions */ uintptr_t start; uintptr_t end; event_callback_t event_callback; void* event_stream; printf_callback_t printf_callback; void* printf_stream; bool losing; /* the architecture being disassembled */ const char* arch_name; const bfd_arch_info_type* arch_info; /* the disassembler we are going to use: */ disassembler_ftype dfn; struct disassemble_info dinfo; /* the actual struct! */ char mach_option[64]; char insn_options[256]; }; #define DECL_APP_DATA(dinfo) \ struct hsdis_app_data* app_data = (struct hsdis_app_data*) (dinfo)->application_data #define DECL_EVENT_CALLBACK(app_data) \ event_callback_t event_callback = (app_data)->event_callback; \ void* event_stream = (app_data)->event_stream #define DECL_PRINTF_CALLBACK(app_data) \ printf_callback_t printf_callback = (app_data)->printf_callback; \ void* printf_stream = (app_data)->printf_stream static void print_help(struct hsdis_app_data* app_data, const char* msg, const char* arg); static void setup_app_data(struct hsdis_app_data* app_data, const char* options); static const char* format_insn_close(const char* close, disassemble_info* dinfo, char* buf, size_t bufsize); void* #ifdef DLL_ENTRY DLL_ENTRY #endif decode_instructions(void* start_pv, void* end_pv, event_callback_t event_callback_arg, void* event_stream_arg, printf_callback_t printf_callback_arg, void* printf_stream_arg, const char* options) { struct hsdis_app_data app_data; memset(&app_data, 0, sizeof(app_data)); app_data.start = (uintptr_t) start_pv; app_data.end = (uintptr_t) end_pv; app_data.event_callback = event_callback_arg; app_data.event_stream = event_stream_arg; app_data.printf_callback = printf_callback_arg; app_data.printf_stream = printf_stream_arg; setup_app_data(&app_data, options); char buf[128]; { /* now reload everything from app_data: */ DECL_EVENT_CALLBACK(&app_data); DECL_PRINTF_CALLBACK(&app_data); uintptr_t start = app_data.start; uintptr_t end = app_data.end; uintptr_t p = start; (*event_callback)(event_stream, "insns", (void*)start); (*event_callback)(event_stream, "mach name='%s'", (void*) app_data.arch_info->printable_name); if (app_data.dinfo.bytes_per_line != 0) { (*event_callback)(event_stream, "format bytes-per-line='%p'/", (void*)(intptr_t) app_data.dinfo.bytes_per_line); } while (p < end && !app_data.losing) { (*event_callback)(event_stream, "insn", (void*) p); /* reset certain state, so we can read it with confidence */ app_data.dinfo.insn_info_valid = 0; app_data.dinfo.branch_delay_insns = 0; app_data.dinfo.data_size = 0; app_data.dinfo.insn_type = 0; int size = (*app_data.dfn)((bfd_vma) p, &app_data.dinfo); if (size > 0) p += size; else app_data.losing = true; const char* insn_close = format_insn_close("/insn", &app_data.dinfo, buf, sizeof(buf)); (*event_callback)(event_stream, insn_close, (void*) p); /* follow each complete insn by a nice newline */ (*printf_callback)(printf_stream, "\n"); } (*event_callback)(event_stream, "/insns", (void*) p); return (void*) p; } } /* take the address of the function, for luck, and also test the typedef: */ const decode_instructions_ftype decode_instructions_address = &decode_instructions; static const char* format_insn_close(const char* close, disassemble_info* dinfo, char* buf, size_t bufsize) { if (!dinfo->insn_info_valid) return close; enum dis_insn_type itype = dinfo->insn_type; int dsize = dinfo->data_size, delays = dinfo->branch_delay_insns; if ((itype == dis_nonbranch && (dsize | delays) == 0) || (strlen(close) + 3*20 > bufsize)) return close; const char* type = "unknown"; switch (itype) { case dis_nonbranch: type = NULL; break; case dis_branch: type = "branch"; break; case dis_condbranch: type = "condbranch"; break; case dis_jsr: type = "jsr"; break; case dis_condjsr: type = "condjsr"; break; case dis_dref: type = "dref"; break; case dis_dref2: type = "dref2"; break; } strcpy(buf, close); char* p = buf; if (type) sprintf(p += strlen(p), " type='%s'", type); if (dsize) sprintf(p += strlen(p), " dsize='%d'", dsize); if (delays) sprintf(p += strlen(p), " delay='%d'", delays); return buf; } /* handler functions */ static int hsdis_read_memory_func(bfd_vma memaddr, bfd_byte* myaddr, unsigned int length, struct disassemble_info* dinfo) { uintptr_t memaddr_p = (uintptr_t) memaddr; DECL_APP_DATA(dinfo); if (memaddr_p + length > app_data->end) { /* read is out of bounds */ return EIO; } else { memcpy(myaddr, (bfd_byte*) memaddr_p, length); return 0; } } static void hsdis_print_address_func(bfd_vma vma, struct disassemble_info* dinfo) { /* the actual value to print: */ void* addr_value = (void*) (uintptr_t) vma; DECL_APP_DATA(dinfo); DECL_EVENT_CALLBACK(app_data); /* issue the event: */ void* result = (*event_callback)(event_stream, "addr/", addr_value); if (result == NULL) { /* event declined */ generic_print_address(vma, dinfo); } } /* configuration */ static void set_optional_callbacks(struct hsdis_app_data* app_data); static void parse_caller_options(struct hsdis_app_data* app_data, const char* caller_options); static const char* native_arch_name(); static enum bfd_endian native_endian(); static const bfd_arch_info_type* find_arch_info(const char* arch_nane); static bfd* get_native_bfd(const bfd_arch_info_type* arch_info, /* to avoid malloc: */ bfd* empty_bfd, bfd_target* empty_xvec); static void init_disassemble_info_from_bfd(struct disassemble_info* dinfo, void *stream, fprintf_ftype fprintf_func, bfd* bfd, char* disassembler_options); static void parse_fake_insn(disassembler_ftype dfn, struct disassemble_info* dinfo); static void setup_app_data(struct hsdis_app_data* app_data, const char* caller_options) { /* Make reasonable defaults for null callbacks. A non-null stream for a null callback is assumed to be a FILE* for output. Events are rendered as XML. */ set_optional_callbacks(app_data); /* Look into caller_options for anything interesting. */ if (caller_options != NULL) parse_caller_options(app_data, caller_options); /* Discover which architecture we are going to disassemble. */ app_data->arch_name = &app_data->mach_option[0]; if (app_data->arch_name[0] == '\0') app_data->arch_name = native_arch_name(); app_data->arch_info = find_arch_info(app_data->arch_name); /* Make a fake bfd to hold the arch. and byteorder info. */ struct { bfd_target empty_xvec; bfd empty_bfd; } buf; bfd* native_bfd = get_native_bfd(app_data->arch_info, /* to avoid malloc: */ &buf.empty_bfd, &buf.empty_xvec); init_disassemble_info_from_bfd(&app_data->dinfo, app_data->printf_stream, app_data->printf_callback, native_bfd, app_data->insn_options); /* Finish linking together the various callback blocks. */ app_data->dinfo.application_data = (void*) app_data; app_data->dfn = disassembler(native_bfd); app_data->dinfo.print_address_func = hsdis_print_address_func; app_data->dinfo.read_memory_func = hsdis_read_memory_func; if (app_data->dfn == NULL) { const char* bad = app_data->arch_name; static bool complained; if (bad == &app_data->mach_option[0]) print_help(app_data, "bad mach=%s", bad); else if (!complained) print_help(app_data, "bad native mach=%s; please port hsdis to this platform", bad); complained = true; /* must bail out */ app_data->losing = true; return; } parse_fake_insn(app_data->dfn, &app_data->dinfo); } /* ignore all events, return a null */ static void* null_event_callback(void* ignore_stream, const char* ignore_event, void* arg) { return NULL; } /* print all events as XML markup */ static void* xml_event_callback(void* stream, const char* event, void* arg) { FILE* fp = (FILE*) stream; #define NS_PFX "dis:" if (event[0] != '/') { /* issue the tag, with or without a formatted argument */ fprintf(fp, "<"NS_PFX); fprintf(fp, event, arg); fprintf(fp, ">"); } else { ++event; /* skip slash */ const char* argp = strchr(event, ' '); if (argp == NULL) { /* no arguments; just issue the closing tag */ fprintf(fp, "", event); } else { /* split out the closing attributes as */ int event_prefix = (argp - event); fprintf(fp, "<"NS_PFX"%.*s_done", event_prefix, event); fprintf(fp, argp, arg); fprintf(fp, "/>", event_prefix, event); } } return NULL; } static void set_optional_callbacks(struct hsdis_app_data* app_data) { if (app_data->printf_callback == NULL) { int (*fprintf_callback)(FILE*, const char*, ...) = &fprintf; FILE* fprintf_stream = stdout; app_data->printf_callback = (printf_callback_t) fprintf_callback; if (app_data->printf_stream == NULL) app_data->printf_stream = (void*) fprintf_stream; } if (app_data->event_callback == NULL) { if (app_data->event_stream == NULL) app_data->event_callback = &null_event_callback; else app_data->event_callback = &xml_event_callback; } } static void parse_caller_options(struct hsdis_app_data* app_data, const char* caller_options) { char* iop_base = app_data->insn_options; char* iop_limit = iop_base + sizeof(app_data->insn_options) - 1; char* iop = iop_base; const char* p; for (p = caller_options; p != NULL; ) { const char* q = strchr(p, ','); size_t plen = (q == NULL) ? strlen(p) : ((q++) - p); if (plen == 4 && strncmp(p, "help", plen) == 0) { print_help(app_data, NULL, NULL); } else if (plen >= 5 && strncmp(p, "mach=", 5) == 0) { char* mach_option = app_data->mach_option; size_t mach_size = sizeof(app_data->mach_option); mach_size -= 1; /*leave room for the null*/ if (plen > mach_size) plen = mach_size; strncpy(mach_option, p, plen); mach_option[plen] = '\0'; } else if (plen > 6 && strncmp(p, "hsdis-", 6)) { // do not pass these to the next level } else { /* just copy it; {i386,sparc}-dis.c might like to see it */ if (iop > iop_base && iop < iop_limit) (*iop++) = ','; if (iop + plen > iop_limit) plen = iop_limit - iop; strncpy(iop, p, plen); iop += plen; } p = q; } } static void print_help(struct hsdis_app_data* app_data, const char* msg, const char* arg) { DECL_PRINTF_CALLBACK(app_data); if (msg != NULL) { (*printf_callback)(printf_stream, "hsdis: "); (*printf_callback)(printf_stream, msg, arg); (*printf_callback)(printf_stream, "\n"); } (*printf_callback)(printf_stream, "hsdis output options:\n"); if (printf_callback == (printf_callback_t) &fprintf) disassembler_usage((FILE*) printf_stream); else disassembler_usage(stderr); /* better than nothing */ (*printf_callback)(printf_stream, " mach= select disassembly mode\n"); #if defined(LIBARCH_i386) || defined(LIBARCH_amd64) (*printf_callback)(printf_stream, " mach=i386 select 32-bit mode\n"); (*printf_callback)(printf_stream, " mach=x86-64 select 64-bit mode\n"); (*printf_callback)(printf_stream, " suffix always print instruction suffix\n"); #endif (*printf_callback)(printf_stream, " help print this message\n"); } /* low-level bfd and arch stuff that binutils doesn't do for us */ static const bfd_arch_info_type* find_arch_info(const char* arch_name) { const bfd_arch_info_type* arch_info = bfd_scan_arch(arch_name); if (arch_info == NULL) { extern const bfd_arch_info_type bfd_default_arch_struct; arch_info = &bfd_default_arch_struct; } return arch_info; } static const char* native_arch_name() { const char* res = NULL; #ifdef LIBARCH_i386 res = "i386"; #endif #ifdef LIBARCH_amd64 res = "i386:x86-64"; #endif #ifdef LIBARCH_sparc res = "sparc:v8plusb"; #endif #ifdef LIBARCH_sparcv9 res = "sparc:v9b"; #endif if (res == NULL) res = "architecture not set in Makefile!"; return res; } static enum bfd_endian native_endian() { int32_t endian_test = 'x'; if (*(const char*) &endian_test == 'x') return BFD_ENDIAN_LITTLE; else return BFD_ENDIAN_BIG; } static bfd* get_native_bfd(const bfd_arch_info_type* arch_info, bfd* empty_bfd, bfd_target* empty_xvec) { memset(empty_bfd, 0, sizeof(*empty_bfd)); memset(empty_xvec, 0, sizeof(*empty_xvec)); empty_xvec->flavour = bfd_target_unknown_flavour; empty_xvec->byteorder = native_endian(); empty_bfd->xvec = empty_xvec; empty_bfd->arch_info = arch_info; return empty_bfd; } static int read_zero_data_only(bfd_vma ignore_p, bfd_byte* myaddr, unsigned int length, struct disassemble_info *ignore_info) { memset(myaddr, 0, length); return 0; } static int print_to_dev_null(void* ignore_stream, const char* ignore_format, ...) { return 0; } /* Prime the pump by running the selected disassembler on a null input. This forces the machine-specific disassembler to divulge invariant information like bytes_per_line. */ static void parse_fake_insn(disassembler_ftype dfn, struct disassemble_info* dinfo) { typedef int (*read_memory_ftype) (bfd_vma memaddr, bfd_byte *myaddr, unsigned int length, struct disassemble_info *info); read_memory_ftype read_memory_func = dinfo->read_memory_func; fprintf_ftype fprintf_func = dinfo->fprintf_func; dinfo->read_memory_func = &read_zero_data_only; dinfo->fprintf_func = &print_to_dev_null; (*dfn)(0, dinfo); // put it back: dinfo->read_memory_func = read_memory_func; dinfo->fprintf_func = fprintf_func; } static void init_disassemble_info_from_bfd(struct disassemble_info* dinfo, void *stream, fprintf_ftype fprintf_func, bfd* abfd, char* disassembler_options) { init_disassemble_info(dinfo, stream, fprintf_func); dinfo->flavour = bfd_get_flavour(abfd); dinfo->arch = bfd_get_arch(abfd); dinfo->mach = bfd_get_mach(abfd); dinfo->disassembler_options = disassembler_options; dinfo->octets_per_byte = bfd_octets_per_byte (abfd); dinfo->skip_zeroes = sizeof(void*) * 2; dinfo->skip_zeroes_at_end = sizeof(void*)-1; dinfo->disassembler_needs_relocs = FALSE; if (bfd_big_endian(abfd)) dinfo->display_endian = dinfo->endian = BFD_ENDIAN_BIG; else if (bfd_little_endian(abfd)) dinfo->display_endian = dinfo->endian = BFD_ENDIAN_LITTLE; else dinfo->endian = native_endian(); disassemble_init_for_target(dinfo); }