/* * CDDL HEADER START * * The contents of this file are subject to the terms of the * Common Development and Distribution License (the "License"). * You may not use this file except in compliance with the License. * * You can obtain a copy of the license at usr/src/OPENSOLARIS.LICENSE * or http://www.opensolaris.org/os/licensing. * See the License for the specific language governing permissions * and limitations under the License. * * When distributing Covered Code, include this CDDL HEADER in each * file and include the License file at usr/src/OPENSOLARIS.LICENSE. * If applicable, add the following below this CDDL HEADER, with the * fields enclosed by brackets "[]" replaced with your own identifying * information: Portions Copyright [yyyy] [name of copyright owner] * * CDDL HEADER END */ /* * Copyright 2006 Sun Microsystems, Inc. All rights reserved. * Use is subject to license terms. */ #include #include extern int dof_sec(uintptr_t, uint_t, int, const mdb_arg_t *); extern const char *dof_sec_name(uint32_t); extern const mdb_walker_t kernel_walkers[]; extern const mdb_dcmd_t kernel_dcmds[]; /*ARGSUSED*/ static void dis_log(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s %%r%u, %%r%u, %%r%u", name, DIF_INSTR_R1(instr), DIF_INSTR_R2(instr), DIF_INSTR_RD(instr)); } /*ARGSUSED*/ static void dis_branch(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s %u", name, DIF_INSTR_LABEL(instr)); } /*ARGSUSED*/ static void dis_load(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s [%%r%u], %%r%u", name, DIF_INSTR_R1(instr), DIF_INSTR_RD(instr)); } /*ARGSUSED*/ static void dis_store(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s %%r%u, [%%r%u]", name, DIF_INSTR_R1(instr), DIF_INSTR_RD(instr)); } /*ARGSUSED*/ static void dis_str(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%s", name); } /*ARGSUSED*/ static void dis_r1rd(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s %%r%u, %%r%u", name, DIF_INSTR_R1(instr), DIF_INSTR_RD(instr)); } /*ARGSUSED*/ static void dis_cmp(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s %%r%u, %%r%u", name, DIF_INSTR_R1(instr), DIF_INSTR_R2(instr)); } /*ARGSUSED*/ static void dis_tst(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s %%r%u", name, DIF_INSTR_R1(instr)); } static const char * dis_varname(const dtrace_difo_t *dp, uint_t id, uint_t scope) { dtrace_difv_t *dvp; size_t varsize; caddr_t addr = NULL, str; uint_t i; if (dp == NULL) return (NULL); varsize = sizeof (dtrace_difv_t) * dp->dtdo_varlen; dvp = mdb_alloc(varsize, UM_SLEEP); if (mdb_vread(dvp, varsize, (uintptr_t)dp->dtdo_vartab) == -1) { mdb_free(dvp, varsize); return (""); } for (i = 0; i < dp->dtdo_varlen; i++) { if (dvp[i].dtdv_id == id && dvp[i].dtdv_scope == scope) { if (dvp[i].dtdv_name < dp->dtdo_strlen) addr = dp->dtdo_strtab + dvp[i].dtdv_name; break; } } mdb_free(dvp, varsize); if (addr == NULL) return (NULL); str = mdb_zalloc(dp->dtdo_strlen + 1, UM_SLEEP | UM_GC); for (i = 0; i == 0 || str[i - 1] != '\0'; i++, addr++) { if (mdb_vread(&str[i], sizeof (char), (uintptr_t)addr) == -1) return (""); } return (str); } static uint_t dis_scope(const char *name) { switch (name[2]) { case 'l': return (DIFV_SCOPE_LOCAL); case 't': return (DIFV_SCOPE_THREAD); case 'g': return (DIFV_SCOPE_GLOBAL); default: return (-1u); } } static void dis_lda(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { uint_t var = DIF_INSTR_R1(instr); const char *vname; mdb_printf("%-4s DIF_VAR(%x), %%r%u, %%r%u", name, var, DIF_INSTR_R2(instr), DIF_INSTR_RD(instr)); if ((vname = dis_varname(dp, var, dis_scope(name))) != NULL) mdb_printf("\t\t! %s", vname); } static void dis_ldv(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { uint_t var = DIF_INSTR_VAR(instr); const char *vname; mdb_printf("%-4s DIF_VAR(%x), %%r%u", name, var, DIF_INSTR_RD(instr)); if ((vname = dis_varname(dp, var, dis_scope(name))) != NULL) mdb_printf("\t\t! %s", vname); } static void dis_stv(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { uint_t var = DIF_INSTR_VAR(instr); const char *vname; mdb_printf("%-4s %%r%u, DIF_VAR(%x)", name, DIF_INSTR_RS(instr), var); if ((vname = dis_varname(dp, var, dis_scope(name))) != NULL) mdb_printf("\t\t! %s", vname); } static void dis_setx(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { uint_t intptr = DIF_INSTR_INTEGER(instr); mdb_printf("%-4s DIF_INTEGER[%u], %%r%u", name, intptr, DIF_INSTR_RD(instr)); if (dp != NULL && intptr < dp->dtdo_intlen) { uint64_t *ip = mdb_alloc(dp->dtdo_intlen * sizeof (uint64_t), UM_SLEEP | UM_GC); if (mdb_vread(ip, dp->dtdo_intlen * sizeof (uint64_t), (uintptr_t)dp->dtdo_inttab) == -1) mdb_warn("failed to read data at %p", dp->dtdo_inttab); else mdb_printf("\t\t! 0x%llx", ip[intptr]); } } static void dis_sets(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { uint_t strptr = DIF_INSTR_STRING(instr); mdb_printf("%-4s DIF_STRING[%u], %%r%u", name, strptr, DIF_INSTR_RD(instr)); if (dp != NULL && strptr < dp->dtdo_strlen) { char *str = mdb_alloc(dp->dtdo_strlen, UM_SLEEP | UM_GC); if (mdb_vread(str, dp->dtdo_strlen, (uintptr_t)dp->dtdo_strtab) == -1) mdb_warn("failed to read data at %p", dp->dtdo_strtab); else mdb_printf("\t\t! \"%s\"", str + strptr); } } /*ARGSUSED*/ static void dis_ret(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s %%r%u", name, DIF_INSTR_RD(instr)); } /*ARGSUSED*/ static void dis_call(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { uint_t subr = DIF_INSTR_SUBR(instr); mdb_printf("%-4s DIF_SUBR(%u), %%r%u\t\t! %s", name, subr, DIF_INSTR_RD(instr), dtrace_subrstr(NULL, subr)); } /*ARGSUSED*/ static void dis_pushts(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { static const char *const tnames[] = { "TYPE_CTF", "TYPE_STRING" }; uint_t type = DIF_INSTR_TYPE(instr); mdb_printf("%-4s DIF_TYPE(%u), %%r%u, %%r%u", name, type, DIF_INSTR_R2(instr), DIF_INSTR_RS(instr)); if (type < sizeof (tnames) / sizeof (tnames[0])) mdb_printf("\t\t! %s", tnames[type]); } /*ARGSUSED*/ static void dis_xlate(const dtrace_difo_t *dp, const char *name, dif_instr_t instr) { mdb_printf("%-4s DIF_XLREF[%u], %%r%u", name, DIF_INSTR_XLREF(instr), DIF_INSTR_RD(instr)); } static char * dis_typestr(const dtrace_diftype_t *t, char *buf, size_t len) { char kind[8]; switch (t->dtdt_kind) { case DIF_TYPE_CTF: (void) strcpy(kind, "D type"); break; case DIF_TYPE_STRING: (void) strcpy(kind, "string"); break; default: (void) mdb_snprintf(kind, sizeof (kind), "0x%x", t->dtdt_kind); } if (t->dtdt_flags & DIF_TF_BYREF) { (void) mdb_snprintf(buf, len, "%s by ref (size %lu)", kind, (ulong_t)t->dtdt_size); } else { (void) mdb_snprintf(buf, len, "%s (size %lu)", kind, (ulong_t)t->dtdt_size); } return (buf); } static int dis(uintptr_t addr, dtrace_difo_t *dp) { static const struct opent { const char *op_name; void (*op_func)(const dtrace_difo_t *, const char *, dif_instr_t); } optab[] = { { "(illegal opcode)", dis_str }, { "or", dis_log }, /* DIF_OP_OR */ { "xor", dis_log }, /* DIF_OP_XOR */ { "and", dis_log }, /* DIF_OP_AND */ { "sll", dis_log }, /* DIF_OP_SLL */ { "srl", dis_log }, /* DIF_OP_SRL */ { "sub", dis_log }, /* DIF_OP_SUB */ { "add", dis_log }, /* DIF_OP_ADD */ { "mul", dis_log }, /* DIF_OP_MUL */ { "sdiv", dis_log }, /* DIF_OP_SDIV */ { "udiv", dis_log }, /* DIF_OP_UDIV */ { "srem", dis_log }, /* DIF_OP_SREM */ { "urem", dis_log }, /* DIF_OP_UREM */ { "not", dis_r1rd }, /* DIF_OP_NOT */ { "mov", dis_r1rd }, /* DIF_OP_MOV */ { "cmp", dis_cmp }, /* DIF_OP_CMP */ { "tst", dis_tst }, /* DIF_OP_TST */ { "ba", dis_branch }, /* DIF_OP_BA */ { "be", dis_branch }, /* DIF_OP_BE */ { "bne", dis_branch }, /* DIF_OP_BNE */ { "bg", dis_branch }, /* DIF_OP_BG */ { "bgu", dis_branch }, /* DIF_OP_BGU */ { "bge", dis_branch }, /* DIF_OP_BGE */ { "bgeu", dis_branch }, /* DIF_OP_BGEU */ { "bl", dis_branch }, /* DIF_OP_BL */ { "blu", dis_branch }, /* DIF_OP_BLU */ { "ble", dis_branch }, /* DIF_OP_BLE */ { "bleu", dis_branch }, /* DIF_OP_BLEU */ { "ldsb", dis_load }, /* DIF_OP_LDSB */ { "ldsh", dis_load }, /* DIF_OP_LDSH */ { "ldsw", dis_load }, /* DIF_OP_LDSW */ { "ldub", dis_load }, /* DIF_OP_LDUB */ { "lduh", dis_load }, /* DIF_OP_LDUH */ { "lduw", dis_load }, /* DIF_OP_LDUW */ { "ldx", dis_load }, /* DIF_OP_LDX */ { "ret", dis_ret }, /* DIF_OP_RET */ { "nop", dis_str }, /* DIF_OP_NOP */ { "setx", dis_setx }, /* DIF_OP_SETX */ { "sets", dis_sets }, /* DIF_OP_SETS */ { "scmp", dis_cmp }, /* DIF_OP_SCMP */ { "ldga", dis_lda }, /* DIF_OP_LDGA */ { "ldgs", dis_ldv }, /* DIF_OP_LDGS */ { "stgs", dis_stv }, /* DIF_OP_STGS */ { "ldta", dis_lda }, /* DIF_OP_LDTA */ { "ldts", dis_ldv }, /* DIF_OP_LDTS */ { "stts", dis_stv }, /* DIF_OP_STTS */ { "sra", dis_log }, /* DIF_OP_SRA */ { "call", dis_call }, /* DIF_OP_CALL */ { "pushtr", dis_pushts }, /* DIF_OP_PUSHTR */ { "pushtv", dis_pushts }, /* DIF_OP_PUSHTV */ { "popts", dis_str }, /* DIF_OP_POPTS */ { "flushts", dis_str }, /* DIF_OP_FLUSHTS */ { "ldgaa", dis_ldv }, /* DIF_OP_LDGAA */ { "ldtaa", dis_ldv }, /* DIF_OP_LDTAA */ { "stgaa", dis_stv }, /* DIF_OP_STGAA */ { "sttaa", dis_stv }, /* DIF_OP_STTAA */ { "ldls", dis_ldv }, /* DIF_OP_LDLS */ { "stls", dis_stv }, /* DIF_OP_STLS */ { "allocs", dis_r1rd }, /* DIF_OP_ALLOCS */ { "copys", dis_log }, /* DIF_OP_COPYS */ { "stb", dis_store }, /* DIF_OP_STB */ { "sth", dis_store }, /* DIF_OP_STH */ { "stw", dis_store }, /* DIF_OP_STW */ { "stx", dis_store }, /* DIF_OP_STX */ { "uldsb", dis_load }, /* DIF_OP_ULDSB */ { "uldsh", dis_load }, /* DIF_OP_ULDSH */ { "uldsw", dis_load }, /* DIF_OP_ULDSW */ { "uldub", dis_load }, /* DIF_OP_ULDUB */ { "ulduh", dis_load }, /* DIF_OP_ULDUH */ { "ulduw", dis_load }, /* DIF_OP_ULDUW */ { "uldx", dis_load }, /* DIF_OP_ULDX */ { "rldsb", dis_load }, /* DIF_OP_RLDSB */ { "rldsh", dis_load }, /* DIF_OP_RLDSH */ { "rldsw", dis_load }, /* DIF_OP_RLDSW */ { "rldub", dis_load }, /* DIF_OP_RLDUB */ { "rlduh", dis_load }, /* DIF_OP_RLDUH */ { "rlduw", dis_load }, /* DIF_OP_RLDUW */ { "rldx", dis_load }, /* DIF_OP_RLDX */ { "xlate", dis_xlate }, /* DIF_OP_XLATE */ { "xlarg", dis_xlate }, /* DIF_OP_XLARG */ }; dif_instr_t instr, opcode; const struct opent *op; if (mdb_vread(&instr, sizeof (dif_instr_t), addr) == -1) { mdb_warn("failed to read DIF instruction at %p", addr); return (DCMD_ERR); } opcode = DIF_INSTR_OP(instr); if (opcode >= sizeof (optab) / sizeof (optab[0])) opcode = 0; /* force invalid opcode message */ op = &optab[opcode]; mdb_printf("%0?p %08x ", addr, instr); op->op_func(dp, op->op_name, instr); mdb_printf("\n"); mdb_set_dot(addr + sizeof (dif_instr_t)); return (DCMD_OK); } /*ARGSUSED*/ int difo(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dtrace_difo_t difo, *dp = &difo; uintptr_t instr, limit; dtrace_difv_t *dvp; size_t varsize; ulong_t i; char type[64]; char *str; if (!(flags & DCMD_ADDRSPEC)) return (DCMD_USAGE); if (mdb_vread(dp, sizeof (dtrace_difo_t), addr) == -1) { mdb_warn("couldn't read dtrace_difo_t at %p", addr); return (DCMD_ERR); } mdb_printf("%DIF Object 0x%p% (refcnt=%d)\n\n", addr, dp->dtdo_refcnt); mdb_printf("%%-?s %-8s %s%\n", "ADDR", "OPCODE", "INSTRUCTION"); mdb_set_dot((uintmax_t)(uintptr_t)dp->dtdo_buf); limit = (uintptr_t)dp->dtdo_buf + dp->dtdo_len * sizeof (dif_instr_t); while ((instr = mdb_get_dot()) < limit) dis(instr, dp); if (dp->dtdo_varlen != 0) { mdb_printf("\n%%-16s %-4s %-3s %-3s %-4s %s%\n", "NAME", "ID", "KND", "SCP", "FLAG", "TYPE"); } varsize = sizeof (dtrace_difv_t) * dp->dtdo_varlen; dvp = mdb_alloc(varsize, UM_SLEEP | UM_GC); if (mdb_vread(dvp, varsize, (uintptr_t)dp->dtdo_vartab) == -1) { mdb_warn("couldn't read dtdo_vartab"); return (DCMD_ERR); } str = mdb_alloc(dp->dtdo_strlen, UM_SLEEP | UM_GC); if (mdb_vread(str, dp->dtdo_strlen, (uintptr_t)dp->dtdo_strtab) == -1) { mdb_warn("couldn't read dtdo_strtab"); return (DCMD_ERR); } for (i = 0; i < dp->dtdo_varlen; i++) { dtrace_difv_t *v = &dvp[i]; char kind[4], scope[4], flags[16] = { 0 }; switch (v->dtdv_kind) { case DIFV_KIND_ARRAY: (void) strcpy(kind, "arr"); break; case DIFV_KIND_SCALAR: (void) strcpy(kind, "scl"); break; default: (void) mdb_snprintf(kind, sizeof (kind), "%u", v->dtdv_kind); } switch (v->dtdv_scope) { case DIFV_SCOPE_GLOBAL: (void) strcpy(scope, "glb"); break; case DIFV_SCOPE_THREAD: (void) strcpy(scope, "tls"); break; case DIFV_SCOPE_LOCAL: (void) strcpy(scope, "loc"); break; default: (void) mdb_snprintf(scope, sizeof (scope), "%u", v->dtdv_scope); } if (v->dtdv_flags & ~(DIFV_F_REF | DIFV_F_MOD)) { (void) mdb_snprintf(flags, sizeof (flags), "/0x%x", v->dtdv_flags & ~(DIFV_F_REF | DIFV_F_MOD)); } if (v->dtdv_flags & DIFV_F_REF) (void) strcat(flags, "/r"); if (v->dtdv_flags & DIFV_F_MOD) (void) strcat(flags, "/w"); mdb_printf("%-16s %-4x %-3s %-3s %-4s %s\n", &str[v->dtdv_name], v->dtdv_id, kind, scope, flags + 1, dis_typestr(&v->dtdv_type, type, sizeof (type))); } mdb_printf("\n%RETURN%\n%s\n\n", dis_typestr(&dp->dtdo_rtype, type, sizeof (type))); return (DCMD_OK); } /*ARGSUSED*/ int difinstr(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { if (!(flags & DCMD_ADDRSPEC)) return (DCMD_USAGE); return (dis(addr, NULL)); } /*ARGSUSED*/ int dof_hdr(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dof_hdr_t h; if (argc != 0) return (DCMD_USAGE); if (!(flags & DCMD_ADDRSPEC)) addr = 0; /* assume base of file in file target */ if (mdb_vread(&h, sizeof (h), addr) != sizeof (h)) { mdb_warn("failed to read header at %p", addr); return (DCMD_ERR); } mdb_printf("dofh_ident.id_magic = 0x%x, %c, %c, %c\n", h.dofh_ident[DOF_ID_MAG0], h.dofh_ident[DOF_ID_MAG1], h.dofh_ident[DOF_ID_MAG2], h.dofh_ident[DOF_ID_MAG3]); switch (h.dofh_ident[DOF_ID_MODEL]) { case DOF_MODEL_ILP32: mdb_printf("dofh_ident.id_model = ILP32\n"); break; case DOF_MODEL_LP64: mdb_printf("dofh_ident.id_model = LP64\n"); break; default: mdb_printf("dofh_ident.id_model = 0x%x\n", h.dofh_ident[DOF_ID_MODEL]); } switch (h.dofh_ident[DOF_ID_ENCODING]) { case DOF_ENCODE_LSB: mdb_printf("dofh_ident.id_encoding = LSB\n"); break; case DOF_ENCODE_MSB: mdb_printf("dofh_ident.id_encoding = MSB\n"); break; default: mdb_printf("dofh_ident.id_encoding = 0x%x\n", h.dofh_ident[DOF_ID_ENCODING]); } mdb_printf("dofh_ident.id_version = %u\n", h.dofh_ident[DOF_ID_VERSION]); mdb_printf("dofh_ident.id_difvers = %u\n", h.dofh_ident[DOF_ID_DIFVERS]); mdb_printf("dofh_ident.id_difireg = %u\n", h.dofh_ident[DOF_ID_DIFIREG]); mdb_printf("dofh_ident.id_diftreg = %u\n", h.dofh_ident[DOF_ID_DIFTREG]); mdb_printf("dofh_flags = 0x%x\n", h.dofh_flags); mdb_printf("dofh_hdrsize = %u\n", h.dofh_hdrsize); mdb_printf("dofh_secsize = %u\n", h.dofh_secsize); mdb_printf("dofh_secnum = %u\n", h.dofh_secnum); mdb_printf("dofh_secoff = %llu\n", h.dofh_secoff); mdb_printf("dofh_loadsz = %llu\n", h.dofh_loadsz); mdb_printf("dofh_filesz = %llu\n", h.dofh_filesz); return (DCMD_OK); } /*ARGSUSED*/ static int dof_sec_walk(uintptr_t addr, void *ignored, int *sec) { mdb_printf("%3d ", (*sec)++); (void) dof_sec(addr, DCMD_ADDRSPEC | DCMD_LOOP, 0, NULL); return (WALK_NEXT); } /*ARGSUSED*/ int dof_sec(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { const char *name; dof_sec_t s; if (!(flags & DCMD_ADDRSPEC)) mdb_printf("%%-3s ", "NDX"); if (!(flags & DCMD_ADDRSPEC) || DCMD_HDRSPEC(flags)) { mdb_printf("%%?s %-10s %-5s %-5s %-5s %-6s %-5s%\n", "ADDR", "TYPE", "ALIGN", "FLAGS", "ENTSZ", "OFFSET", "SIZE"); } if (!(flags & DCMD_ADDRSPEC)) { int sec = 0; if (mdb_walk("dof_sec", (mdb_walk_cb_t)dof_sec_walk, &sec) == -1) { mdb_warn("failed to walk dof_sec"); return (DCMD_ERR); } return (DCMD_OK); } if (argc != 0) return (DCMD_USAGE); if (mdb_vread(&s, sizeof (s), addr) != sizeof (s)) { mdb_warn("failed to read section header at %p", addr); return (DCMD_ERR); } mdb_printf("%?p ", addr); if ((name = dof_sec_name(s.dofs_type)) != NULL) mdb_printf("%-10s ", name); else mdb_printf("%-10u ", s.dofs_type); mdb_printf("%-5u %-#5x %-#5x %-6llx %-#5llx\n", s.dofs_align, s.dofs_flags, s.dofs_entsize, s.dofs_offset, s.dofs_size); return (DCMD_OK); } int dof_sec_walk_init(mdb_walk_state_t *wsp) { dof_hdr_t h, *hp; size_t size; if (mdb_vread(&h, sizeof (h), wsp->walk_addr) != sizeof (h)) { mdb_warn("failed to read DOF header at %p", wsp->walk_addr); return (WALK_ERR); } size = sizeof (dof_hdr_t) + sizeof (dof_sec_t) * h.dofh_secnum; hp = mdb_alloc(size, UM_SLEEP); if (mdb_vread(hp, size, wsp->walk_addr) != size) { mdb_warn("failed to read DOF sections at %p", wsp->walk_addr); mdb_free(hp, size); return (WALK_ERR); } wsp->walk_arg = (void *)0; wsp->walk_data = hp; return (WALK_NEXT); } int dof_sec_walk_step(mdb_walk_state_t *wsp) { uint_t i = (uintptr_t)wsp->walk_arg; size_t off = sizeof (dof_hdr_t) + sizeof (dof_sec_t) * i; dof_hdr_t *hp = wsp->walk_data; dof_sec_t *sp = (dof_sec_t *)((uintptr_t)hp + off); if (i >= hp->dofh_secnum) return (WALK_DONE); wsp->walk_arg = (void *)(uintptr_t)(i + 1); return (wsp->walk_callback(wsp->walk_addr + off, sp, wsp->walk_cbdata)); } void dof_sec_walk_fini(mdb_walk_state_t *wsp) { dof_hdr_t *hp = wsp->walk_data; mdb_free(hp, sizeof (dof_hdr_t) + sizeof (dof_sec_t) * hp->dofh_secnum); } /*ARGSUSED*/ int dof_ecbdesc(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dof_ecbdesc_t e; if (argc != 0 || !(flags & DCMD_ADDRSPEC)) return (DCMD_USAGE); if (mdb_vread(&e, sizeof (e), addr) != sizeof (e)) { mdb_warn("failed to read ecbdesc at %p", addr); return (DCMD_ERR); } mdb_printf("dofe_probes = %d\n", e.dofe_probes); mdb_printf("dofe_actions = %d\n", e.dofe_actions); mdb_printf("dofe_pred = %d\n", e.dofe_pred); mdb_printf("dofe_uarg = 0x%llx\n", e.dofe_uarg); return (DCMD_OK); } /*ARGSUSED*/ int dof_probedesc(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dof_probedesc_t p; if (argc != 0 || !(flags & DCMD_ADDRSPEC)) return (DCMD_USAGE); if (mdb_vread(&p, sizeof (p), addr) != sizeof (p)) { mdb_warn("failed to read probedesc at %p", addr); return (DCMD_ERR); } mdb_printf("dofp_strtab = %d\n", p.dofp_strtab); mdb_printf("dofp_provider = %u\n", p.dofp_provider); mdb_printf("dofp_mod = %u\n", p.dofp_mod); mdb_printf("dofp_func = %u\n", p.dofp_func); mdb_printf("dofp_name = %u\n", p.dofp_name); mdb_printf("dofp_id = %u\n", p.dofp_id); return (DCMD_OK); } /*ARGSUSED*/ int dof_actdesc(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dof_actdesc_t a; if (argc != 0 || !(flags & DCMD_ADDRSPEC)) return (DCMD_USAGE); if (mdb_vread(&a, sizeof (a), addr) != sizeof (a)) { mdb_warn("failed to read actdesc at %p", addr); return (DCMD_ERR); } mdb_printf("dofa_difo = %d\n", a.dofa_difo); mdb_printf("dofa_strtab = %d\n", a.dofa_strtab); mdb_printf("dofa_kind = %u\n", a.dofa_kind); mdb_printf("dofa_ntuple = %u\n", a.dofa_ntuple); mdb_printf("dofa_arg = 0x%llx\n", a.dofa_arg); mdb_printf("dofa_uarg = 0x%llx\n", a.dofa_uarg); return (DCMD_OK); } /*ARGSUSED*/ int dof_relohdr(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dof_relohdr_t r; if (argc != 0 || !(flags & DCMD_ADDRSPEC)) return (DCMD_USAGE); if (mdb_vread(&r, sizeof (r), addr) != sizeof (r)) { mdb_warn("failed to read relohdr at %p", addr); return (DCMD_ERR); } mdb_printf("dofr_strtab = %d\n", r.dofr_strtab); mdb_printf("dofr_relsec = %d\n", r.dofr_relsec); mdb_printf("dofr_tgtsec = %d\n", r.dofr_tgtsec); return (DCMD_OK); } /*ARGSUSED*/ int dof_relodesc(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dof_relodesc_t r; if (argc != 0 || !(flags & DCMD_ADDRSPEC)) return (DCMD_USAGE); if (mdb_vread(&r, sizeof (r), addr) != sizeof (r)) { mdb_warn("failed to read relodesc at %p", addr); return (DCMD_ERR); } mdb_printf("dofr_name = %u\n", r.dofr_name); mdb_printf("dofr_type = %u\n", r.dofr_type); mdb_printf("dofr_offset = 0x%llx\n", r.dofr_offset); mdb_printf("dofr_data = 0x%llx\n", r.dofr_data); return (DCMD_OK); } static int dof_sect_strtab(uintptr_t addr, dof_sec_t *sec) { char *strtab; size_t sz, i; sz = (size_t)sec->dofs_size; strtab = mdb_alloc(sz, UM_SLEEP | UM_GC); if (mdb_vread(strtab, sz, addr + sec->dofs_offset) != sz) { mdb_warn("failed to read string table"); return (1); } mdb_printf("size = %lx\n", sz); for (i = 0; i < sz; i++) { if (strtab[i] == '\0') mdb_printf("\\0"); else mdb_printf("%c", strtab[i]); } mdb_printf("\n"); return (0); } static int dof_sect_provider(dof_hdr_t *dofh, uintptr_t addr, dof_sec_t *sec, dof_sec_t *dofs) { dof_provider_t pv; dof_probe_t *pb; char *strtab, *p; uint32_t *offs, *enoffs; uint8_t *args = NULL; size_t sz; int i, j; dof_stridx_t narg, xarg; sz = MIN(sec->dofs_size, sizeof (dof_provider_t)); if (mdb_vread(&pv, sz, addr + sec->dofs_offset) != sz) { mdb_warn("failed to read DOF provider"); return (-1); } sz = dofs[pv.dofpv_strtab].dofs_size; strtab = mdb_alloc(sz, UM_SLEEP | UM_GC); if (mdb_vread(strtab, sz, addr + dofs[pv.dofpv_strtab].dofs_offset) != sz) { mdb_warn("failed to read string table"); return (-1); } mdb_printf("%lx provider %s {\n", (ulong_t)(addr + sec->dofs_offset), strtab + pv.dofpv_name); sz = dofs[pv.dofpv_prargs].dofs_size; if (sz != 0) { args = mdb_alloc(sz, UM_SLEEP | UM_GC); if (mdb_vread(args, sz, addr + dofs[pv.dofpv_prargs].dofs_offset) != sz) { mdb_warn("failed to read args"); return (-1); } } sz = dofs[pv.dofpv_proffs].dofs_size; offs = mdb_alloc(sz, UM_SLEEP | UM_GC); if (mdb_vread(offs, sz, addr + dofs[pv.dofpv_proffs].dofs_offset) != sz) { mdb_warn("failed to read offsets"); return (-1); } enoffs = NULL; if (dofh->dofh_ident[DOF_ID_VERSION] != DOF_VERSION_1 || pv.dofpv_prenoffs == 0) { sz = dofs[pv.dofpv_prenoffs].dofs_size; enoffs = mdb_alloc(sz, UM_SLEEP | UM_GC); if (mdb_vread(enoffs, sz, addr + dofs[pv.dofpv_prenoffs].dofs_offset) != sz) { mdb_warn("failed to read is-enabled offsets"); return (-1); } } sz = dofs[pv.dofpv_probes].dofs_size; p = mdb_alloc(sz, UM_SLEEP | UM_GC); if (mdb_vread(p, sz, addr + dofs[pv.dofpv_probes].dofs_offset) != sz) { mdb_warn("failed to read probes"); return (-1); } (void) mdb_inc_indent(2); for (i = 0; i < sz / dofs[pv.dofpv_probes].dofs_entsize; i++) { pb = (dof_probe_t *)(uintptr_t)(p + i * dofs[pv.dofpv_probes].dofs_entsize); mdb_printf("%lx probe %s:%s {\n", (ulong_t)(addr + dofs[pv.dofpv_probes].dofs_offset + i * dofs[pv.dofpv_probes].dofs_entsize), strtab + pb->dofpr_func, strtab + pb->dofpr_name); (void) mdb_inc_indent(2); mdb_printf("addr: %p\n", (ulong_t)pb->dofpr_addr); mdb_printf("offs: "); for (j = 0; j < pb->dofpr_noffs; j++) { mdb_printf("%s %x", "," + (j == 0), offs[pb->dofpr_offidx + j]); } mdb_printf("\n"); if (dofh->dofh_ident[DOF_ID_VERSION] != DOF_VERSION_1) { mdb_printf("enoffs: "); if (enoffs == NULL) { if (pb->dofpr_nenoffs != 0) mdb_printf(""); } else { for (j = 0; j < pb->dofpr_nenoffs; j++) { mdb_printf("%s %x", "," + (j == 0), enoffs[pb->dofpr_enoffidx + j]); } } mdb_printf("\n"); } mdb_printf("nargs:"); narg = pb->dofpr_nargv; for (j = 0; j < pb->dofpr_nargc; j++) { mdb_printf("%s %s", "," + (j == 0), strtab + narg); narg += strlen(strtab + narg) + 1; } mdb_printf("\n"); mdb_printf("xargs:"); xarg = pb->dofpr_xargv; for (j = 0; j < pb->dofpr_xargc; j++) { mdb_printf("%s %s", "," + (j == 0), strtab + xarg); xarg += strlen(strtab + xarg) + 1; } mdb_printf("\n"); mdb_printf("map: "); for (j = 0; j < pb->dofpr_xargc; j++) { mdb_printf("%s %d->%d", "," + (j == 0), args[pb->dofpr_argidx + j], j); } (void) mdb_dec_indent(2); mdb_printf("\n}\n"); } (void) mdb_dec_indent(2); mdb_printf("}\n"); return (0); } static int dof_sect_prargs(uintptr_t addr, dof_sec_t *sec) { int i; uint8_t arg; for (i = 0; i < sec->dofs_size; i++) { if (mdb_vread(&arg, sizeof (arg), addr + sec->dofs_offset + i) != sizeof (arg)) { mdb_warn("failed to read argument"); return (1); } mdb_printf("%d ", arg); if (i % 20 == 19) mdb_printf("\n"); } mdb_printf("\n"); return (0); } /*ARGSUSED*/ static int dofdump(uintptr_t addr, uint_t flags, int argc, const mdb_arg_t *argv) { dof_hdr_t dofh; dof_sec_t *dofs; const char *name; int i; if (mdb_vread(&dofh, sizeof (dof_hdr_t), addr) != sizeof (dof_hdr_t)) { mdb_warn("failed to read DOF header"); return (DCMD_ERR); } dofs = mdb_alloc(sizeof (dof_sec_t) * dofh.dofh_secnum, UM_SLEEP | UM_GC); for (i = 0; i < dofh.dofh_secnum; i++) { if (mdb_vread(&dofs[i], sizeof (dof_sec_t), dofh.dofh_secoff + addr + i * dofh.dofh_secsize) != sizeof (dof_sec_t)) { mdb_warn("failed to read DOF sections"); return (DCMD_ERR); } } for (i = 0; i < dofh.dofh_secnum; i++) { mdb_printf("%lx Section %d: ", (ulong_t) (dofh.dofh_secoff + addr + i * dofh.dofh_secsize), i); if ((name = dof_sec_name(dofs[i].dofs_type)) != NULL) mdb_printf("%s\n", name); else mdb_printf("%u\n", dofs[i].dofs_type); (void) mdb_inc_indent(2); switch (dofs[i].dofs_type) { case DOF_SECT_PROVIDER: (void) dof_sect_provider(&dofh, addr, &dofs[i], dofs); break; case DOF_SECT_STRTAB: (void) dof_sect_strtab(addr, &dofs[i]); break; case DOF_SECT_PRARGS: (void) dof_sect_prargs(addr, &dofs[i]); break; } (void) mdb_dec_indent(2); mdb_printf("\n"); } return (DCMD_OK); } static const mdb_dcmd_t common_dcmds[] = { { "difinstr", ":", "disassemble a DIF instruction", difinstr }, { "difo", ":", "print a DIF object", difo }, { "dof_hdr", "?", "print a DOF header", dof_hdr }, { "dof_sec", ":", "print a DOF section header", dof_sec }, { "dof_ecbdesc", ":", "print a DOF ecbdesc", dof_ecbdesc }, { "dof_probedesc", ":", "print a DOF probedesc", dof_probedesc }, { "dof_actdesc", ":", "print a DOF actdesc", dof_actdesc }, { "dof_relohdr", ":", "print a DOF relocation header", dof_relohdr }, { "dof_relodesc", ":", "print a DOF relodesc", dof_relodesc }, { "dofdump", ":", "dump DOF", dofdump }, { NULL } }; static const mdb_walker_t common_walkers[] = { { "dof_sec", "walk DOF section header table given header address", dof_sec_walk_init, dof_sec_walk_step, dof_sec_walk_fini }, { NULL } }; static mdb_modinfo_t modinfo = { MDB_API_VERSION, NULL, NULL }; const mdb_modinfo_t * _mdb_init(void) { uint_t d = 0, kd = 0, w = 0, kw = 0; const mdb_walker_t *wp; const mdb_dcmd_t *dp; for (dp = common_dcmds; dp->dc_name != NULL; dp++) d++; /* count common dcmds */ for (wp = common_walkers; wp->walk_name != NULL; wp++) w++; /* count common walkers */ #ifdef _KERNEL for (dp = kernel_dcmds; dp->dc_name != NULL; dp++) kd++; /* count kernel dcmds */ for (wp = kernel_walkers; wp->walk_name != NULL; wp++) kw++; /* count common walkers */ #endif modinfo.mi_dcmds = mdb_zalloc(sizeof (*dp) * (d + kd + 1), UM_SLEEP); modinfo.mi_walkers = mdb_zalloc(sizeof (*wp) * (w + kw + 1), UM_SLEEP); bcopy(common_dcmds, (void *)modinfo.mi_dcmds, sizeof (*dp) * d); bcopy(common_walkers, (void *)modinfo.mi_walkers, sizeof (*wp) * w); #ifdef _KERNEL bcopy(kernel_dcmds, (void *) (modinfo.mi_dcmds + d), sizeof (*dp) * kd); bcopy(kernel_walkers, (void *) (modinfo.mi_walkers + w), sizeof (*wp) * kw); #endif return (&modinfo); } void _mdb_fini(void) { const mdb_walker_t *wp; const mdb_dcmd_t *dp; uint_t d = 0, w = 0; for (dp = modinfo.mi_dcmds; dp->dc_name != NULL; dp++) d++; for (wp = modinfo.mi_walkers; wp->walk_name != NULL; wp++) w++; mdb_free((void *)modinfo.mi_dcmds, sizeof (*dp) * (d + 1)); mdb_free((void *)modinfo.mi_walkers, sizeof (*wp) * (w + 1)); }