int vcc_ParseAction(struct vcc *tl) { struct token *at; struct action_table *atp; const struct symbol *sym; at = tl->t; assert(at->tok == ID); for(atp = action_table; atp->name != NULL; atp++) { if (vcc_IdIs(at, atp->name)) { if (atp->bitmask != 0) vcc_AddUses(tl, at, atp->bitmask, "not a valid action"); atp->func(tl); return (1); } } sym = VCC_FindSymbol(tl, tl->t, SYM_NONE); if (sym != NULL && sym->kind == SYM_PROC) { vcc_Expr_Call(tl, sym); return (1); } return (0); }
const struct var * vcc_FindVar(struct vcc *tl, const struct token *t, int wr_access, const char *use) { const struct var *v; const struct symbol *sym; AN(tl->vars); sym = VCC_FindSymbol(tl, t, SYM_VAR); if (sym != NULL) { v = sym->var; AN(v); if (wr_access && v->w_methods == 0) { VSB_printf(tl->sb, "Variable "); vcc_ErrToken(tl, t); VSB_printf(tl->sb, " is read only."); VSB_cat(tl->sb, "\nAt: "); vcc_ErrWhere(tl, t); return (NULL); } else if (wr_access) { vcc_AddUses(tl, t, v->w_methods, use); } else if (v->r_methods == 0) { VSB_printf(tl->sb, "Variable "); vcc_ErrToken(tl, t); VSB_printf(tl->sb, " is write only."); VSB_cat(tl->sb, "\nAt: "); vcc_ErrWhere(tl, t); return (NULL); } else { vcc_AddUses(tl, t, v->r_methods, use); } assert(v->fmt != HEADER); return (v); } VSB_printf(tl->sb, "Unknown variable "); vcc_ErrToken(tl, t); VSB_cat(tl->sb, "\nAt: "); vcc_ErrWhere(tl, t); return (NULL); }
static void vcc_expr4(struct vcc *tl, struct expr **e, enum var_type fmt) { struct expr *e1, *e2; const struct symbol *sym; double d; *e = NULL; if (tl->t->tok == '(') { SkipToken(tl, '('); vcc_expr0(tl, &e2, fmt); ERRCHK(tl); SkipToken(tl, ')'); *e = vcc_expr_edit(e2->fmt, "(\v1)", e2, NULL); return; } switch(tl->t->tok) { case ID: /* * XXX: what if var and func/proc had same name ? * XXX: look for SYM_VAR first for consistency ? */ sym = VCC_FindSymbol(tl, tl->t, SYM_NONE); if (sym == NULL || sym->eval == NULL) { VSB_printf(tl->sb, "Symbol not found: "); vcc_ErrToken(tl, tl->t); VSB_printf(tl->sb, " (expected type %s):\n", vcc_Type(fmt)); vcc_ErrWhere(tl, tl->t); return; } AN(sym); switch(sym->kind) { case SYM_VAR: case SYM_FUNC: case SYM_BACKEND: AN(sym->eval); AZ(*e); sym->eval(tl, e, sym); return; default: break; } VSB_printf(tl->sb, "Symbol type (%s) can not be used in expression.\n", VCC_SymKind(tl, sym)); vcc_ErrWhere(tl, tl->t); return; case CSTR: assert(fmt != VOID); e1 = vcc_new_expr(); EncToken(e1->vsb, tl->t); e1->fmt = STRING; e1->t1 = tl->t; e1->constant = 1; vcc_NextToken(tl); AZ(VSB_finish(e1->vsb)); *e = e1; break; case CNUM: /* * XXX: %g may not have enough decimals by default * XXX: but %a is ugly, isn't it ? */ assert(fmt != VOID); if (fmt == DURATION) { vcc_RTimeVal(tl, &d); ERRCHK(tl); e1 = vcc_mk_expr(DURATION, "%g", d); } else if (fmt == BYTES) { vcc_ByteVal(tl, &d); ERRCHK(tl); e1 = vcc_mk_expr(BYTES, "%.1f", d); ERRCHK(tl); } else if (fmt == REAL) { e1 = vcc_mk_expr(REAL, "%g", vcc_DoubleVal(tl)); ERRCHK(tl); } else { e1 = vcc_mk_expr(INT, "%.*s", PF(tl->t)); vcc_NextToken(tl); } e1->constant = 1; *e = e1; break; default: VSB_printf(tl->sb, "Unknown token "); vcc_ErrToken(tl, tl->t); VSB_printf(tl->sb, " when looking for %s\n\n", vcc_Type(fmt)); vcc_ErrWhere(tl, tl->t); break; } }
void vcc_Eval_Func(struct vcc *tl, struct expr **e, const struct symbol *sym) { const char *p, *r; struct expr *e1, *e2; enum var_type fmt; char buf[32]; assert(sym->kind == SYM_FUNC || sym->kind == SYM_PROC); AN(sym->cfunc); AN(sym->args); SkipToken(tl, ID); SkipToken(tl, '('); p = sym->args; e2 = vcc_mk_expr(vcc_arg_type(&p), "%s(sp\v+", sym->cfunc); while (*p != '\0') { e1 = NULL; fmt = vcc_arg_type(&p); if (fmt == VOID && !strcmp(p, "PRIV_VCL")) { r = strchr(sym->name, '.'); AN(r); e1 = vcc_mk_expr(VOID, "&vmod_priv_%.*s", r - sym->name, sym->name); p += strlen(p) + 1; } else if (fmt == VOID && !strcmp(p, "PRIV_CALL")) { bprintf(buf, "vmod_priv_%u", tl->nvmodpriv++); Fh(tl, 0, "struct vmod_priv %s;\n", buf); e1 = vcc_mk_expr(VOID, "&%s", buf); p += strlen(p) + 1; } else if (fmt == ENUM) { ExpectErr(tl, ID); ERRCHK(tl); r = p; do { if (vcc_IdIs(tl->t, p)) break; p += strlen(p) + 1; } while (*p != '\0'); if (*p == '\0') { VSB_printf(tl->sb, "Wrong enum value."); VSB_printf(tl->sb, " Expected one of:\n"); do { VSB_printf(tl->sb, "\t%s\n", r); r += strlen(r) + 1; } while (*r != '\0'); vcc_ErrWhere(tl, tl->t); return; } e1 = vcc_mk_expr(VOID, "\"%.*s\"", PF(tl->t)); while (*p != '\0') p += strlen(p) + 1; p++; SkipToken(tl, ID); if (*p != '\0') SkipToken(tl, ','); } else if (fmt == HEADER) { const struct var *v; sym = VCC_FindSymbol(tl, tl->t, SYM_NONE); ERRCHK(tl); SkipToken(tl, ID); if (sym == NULL) { VSB_printf(tl->sb, "Symbol not found.\n"); vcc_ErrWhere(tl, tl->t); return; } vcc_AddUses(tl, tl->t, sym->r_methods, "Not available"); if (sym->kind != SYM_VAR) { VSB_printf(tl->sb, "Wrong kind of symbol.\n"); vcc_ErrWhere(tl, tl->t); return; } AN(sym->var); v = sym->var; if (v->http == NULL) { VSB_printf(tl->sb, "Variable not an HTTP header.\n"); vcc_ErrWhere(tl, tl->t); return; } e1 = vcc_mk_expr(VOID, "%s, \"%s\"", v->http, v->hdr); if (*p != '\0') SkipToken(tl, ','); } else { vcc_expr0(tl, &e1, fmt); ERRCHK(tl); if (e1->fmt != fmt) { VSB_printf(tl->sb, "Wrong argument type."); VSB_printf(tl->sb, " Expected %s.", vcc_Type(fmt)); VSB_printf(tl->sb, " Got %s.\n", vcc_Type(e1->fmt)); vcc_ErrWhere2(tl, e1->t1, tl->t); return; } assert(e1->fmt == fmt); if (e1->fmt == STRING_LIST) { e1 = vcc_expr_edit(STRING_LIST, "\v+\n\v1,\nvrt_magic_string_end\v-", e1, NULL); } if (*p != '\0') SkipToken(tl, ','); } e2 = vcc_expr_edit(e2->fmt, "\v1,\n\v2", e2, e1); } SkipToken(tl, ')'); e2 = vcc_expr_edit(e2->fmt, "\v1\n)\v-", e2, NULL); *e = e2; }
static void parse_new(struct vcc *tl) { struct symbol *sy1, *sy2, *sy3; struct inifin *ifp; const char *p, *s_obj, *s_init, *s_struct, *s_fini; char buf1[128]; char buf2[128]; vcc_NextToken(tl); ExpectErr(tl, ID); if (!vcc_isCid(tl->t)) { VSB_printf(tl->sb, "Names of VCL objects cannot contain '-'\n"); vcc_ErrWhere(tl, tl->t); return; } sy1 = VCC_FindSymbol(tl, tl->t, SYM_NONE); if (sy1 != NULL) { VSB_printf(tl->sb, "Object name '%.*s' already used.\n", PF(tl->t)); VSB_printf(tl->sb, "First usage:\n"); AN(sy1->def_b); if (sy1->def_e != NULL) vcc_ErrWhere2(tl, sy1->def_b, sy1->def_e); else vcc_ErrWhere(tl, sy1->def_b); VSB_printf(tl->sb, "Redefinition:\n"); vcc_ErrWhere(tl, tl->t); return; } sy1 = VCC_AddSymbolTok(tl, tl->t, SYM_NONE); // XXX: NONE ? XXXAN(sy1); sy1->def_b = tl->t; vcc_NextToken(tl); ExpectErr(tl, '='); vcc_NextToken(tl); ExpectErr(tl, ID); sy2 = VCC_FindSymbol(tl, tl->t, SYM_OBJECT); if (sy2 == NULL) { VSB_printf(tl->sb, "Symbol not found: "); vcc_ErrToken(tl, tl->t); VSB_printf(tl->sb, " at "); vcc_ErrWhere(tl, tl->t); return; } XXXAN(sy2); /*lint -save -e448 */ /* Split the first three args */ p = sy2->args; s_obj = p; p += strlen(p) + 1; s_init = p; while (p[0] != '\0' || p[1] != '\0') p++; p += 2; s_struct = p; p += strlen(p) + 1; s_fini = p + strlen(p) + 1; while (p[0] != '\0' || p[1] != '\0') p++; p += 2; Fh(tl, 0, "static %s *vo_%s;\n\n", s_struct, sy1->name); vcc_NextToken(tl); bprintf(buf1, ", &vo_%s, \"%s\"", sy1->name, sy1->name); vcc_Eval_Func(tl, s_init, buf1, "ASDF", s_init + strlen(s_init) + 1); ifp = New_IniFin(tl); VSB_printf(ifp->fin, "\t%s(&vo_%s);", s_fini, sy1->name); ExpectErr(tl, ';'); bprintf(buf1, ", vo_%s", sy1->name); /* Split the methods from the args */ while (*p != '\0') { p += strlen(s_obj); bprintf(buf2, "%s%s", sy1->name, p); sy3 = VCC_AddSymbolStr(tl, buf2, SYM_FUNC); AN(sy3); sy3->eval = vcc_Eval_SymFunc; p += strlen(p) + 1; sy3->cfunc = p; p += strlen(p) + 1; /* Functions which return VOID are procedures */ if (!memcmp(p, "VOID\0", 5)) sy3->kind = SYM_PROC; sy3->args = p; sy3->extra = TlDup(tl, buf1); while (p[0] != '\0' || p[1] != '\0') { if (!memcmp(p, "ENUM\0", 5)) { /* XXX: Special case for ENUM that has it's own \0\0 end marker. Not exactly elegant, we should consider alternatives here. Maybe runlength encode the entire block? */ p += strlen(p) + 1; while (p[0] != '\0' || p[1] != '\0') p++; } p++; } p += 2; } sy1->def_e = tl->t; /*lint -restore */ }
void vcc_ParseImport(struct vcc *tl) { void *hdl; char fn[1024]; char buf[256]; struct token *mod, *t1; const char *modname; const char *proto; const char *abi; const char **spec; struct symbol *sym; const struct symbol *osym; const char *p; // int *modlen; t1 = tl->t; SkipToken(tl, ID); /* "import" */ ExpectErr(tl, ID); mod = tl->t; vcc_NextToken(tl); osym = VCC_FindSymbol(tl, mod, SYM_NONE); if (osym != NULL && osym->kind != SYM_VMOD) { VSB_printf(tl->sb, "Module %.*s conflics with other symbol.\n", PF(mod)); vcc_ErrWhere2(tl, t1, tl->t); return; } if (osym != NULL) { VSB_printf(tl->sb, "Module %.*s already imported.\n", PF(mod)); vcc_ErrWhere2(tl, t1, tl->t); VSB_printf(tl->sb, "Previous import was here:\n"); vcc_ErrWhere2(tl, osym->def_b, osym->def_e); return; } bprintf(fn, "%.*s", PF(mod)); sym = VCC_AddSymbolStr(tl, fn, SYM_VMOD); ERRCHK(tl); AN(sym); sym->def_b = t1; sym->def_e = tl->t; if (tl->t->tok == ID) { if (!tl->unsafe_path) { VSB_printf(tl->sb, "'import ... from path...'" " not allowed.\nAt:"); vcc_ErrToken(tl, tl->t); vcc_ErrWhere(tl, tl->t); return; } if (!vcc_IdIs(tl->t, "from")) { VSB_printf(tl->sb, "Expected 'from path...'\n"); vcc_ErrWhere(tl, tl->t); return; } vcc_NextToken(tl); ExpectErr(tl, CSTR); bprintf(fn, "%s", tl->t->dec); vcc_NextToken(tl); } else { bprintf(fn, "%s/libvmod_%.*s.so", tl->vmod_dir, PF(mod)); } Fh(tl, 0, "static void *VGC_vmod_%.*s;\n", PF(mod)); Fi(tl, 0, "\tif (VRT_Vmod_Init(&VGC_vmod_%.*s,\n", PF(mod)); Fi(tl, 0, "\t &Vmod_%.*s_Func,\n", PF(mod)); Fi(tl, 0, "\t sizeof(Vmod_%.*s_Func),\n", PF(mod)); Fi(tl, 0, "\t \"%.*s\",\n", PF(mod)); Fi(tl, 0, "\t "); EncString(tl->fi, fn, NULL, 0); Fi(tl, 0, ",\n\t "); Fi(tl, 0, "cli))\n"); Fi(tl, 0, "\t\treturn(1);\n"); SkipToken(tl, ';'); hdl = dlopen(fn, RTLD_NOW | RTLD_LOCAL); if (hdl == NULL) { VSB_printf(tl->sb, "Could not load module %.*s\n\t%s\n\t%s\n", PF(mod), fn, dlerror()); vcc_ErrWhere(tl, mod); return; } bprintf(buf, "Vmod_%.*s_Name", PF(mod)); modname = dlsym(hdl, buf); if (modname == NULL) { VSB_printf(tl->sb, "Could not load module %.*s\n\t%s\n\t%s\n", PF(mod), fn, "Symbol Vmod_Name not found"); vcc_ErrWhere(tl, mod); return; } if (!vcc_IdIs(mod, modname)) { VSB_printf(tl->sb, "Could not load module %.*s\n\t%s\n", PF(mod), fn); VSB_printf(tl->sb, "\tModule has wrong name: <%s>\n", modname); vcc_ErrWhere(tl, mod); return; } bprintf(buf, "Vmod_%.*s_ABI", PF(mod)); abi = dlsym(hdl, buf); if (abi == NULL || strcmp(abi, VMOD_ABI_Version) != 0) { VSB_printf(tl->sb, "Could not load module %.*s\n\t%s\n", PF(mod), fn); VSB_printf(tl->sb, "\tABI mismatch, expected <%s>, got <%s>\n", VMOD_ABI_Version, abi); vcc_ErrWhere(tl, mod); return; } bprintf(buf, "Vmod_%.*s_Proto", PF(mod)); proto = dlsym(hdl, buf); if (proto == NULL) { VSB_printf(tl->sb, "Could not load module %.*s\n\t%s\n\t%s\n", PF(mod), fn, "Symbol Vmod_Proto not found"); vcc_ErrWhere(tl, mod); return; } bprintf(buf, "Vmod_%.*s_Spec", PF(mod)); spec = dlsym(hdl, buf); if (spec == NULL) { VSB_printf(tl->sb, "Could not load module %.*s\n\t%s\n\t%s\n", PF(mod), fn, "Symbol Vmod_Spec not found"); vcc_ErrWhere(tl, mod); return; } Fh(tl, 0, "static struct vmod_priv vmod_priv_%.*s;\n", PF(mod)); for (; *spec != NULL; spec++) { p = *spec; if (!strcmp(p, "OBJ")) { p += strlen(p) + 1; sym = VCC_AddSymbolStr(tl, p, SYM_OBJECT); XXXAN(sym); sym->args = p; } else if (!strcmp(p, "INIT")) { p += strlen(p) + 1; Fi(tl, 0, "\t%s(&vmod_priv_%.*s, &VCL_conf);\n", p, PF(mod)); } else { sym = VCC_AddSymbolStr(tl, p, SYM_FUNC); ERRCHK(tl); AN(sym); sym->eval = vcc_Eval_SymFunc; p += strlen(p) + 1; sym->cfunc = p; p += strlen(p) + 1; sym->args = p; /* Functions which return VOID are procedures */ if (!memcmp(p, "VOID\0", 5)) sym->kind = SYM_PROC; } } Fh(tl, 0, "\n%s\n", proto); /* XXX: zero the function pointer structure ?*/ Ff(tl, 0, "\tvmod_priv_fini(&vmod_priv_%.*s);\n", PF(mod)); Ff(tl, 0, "\tVRT_Vmod_Fini(&VGC_vmod_%.*s);\n", PF(mod)); }
void vcc_ParseImport(struct vcc *tl) { void *hdl; char fn[1024], *fnp; char buf[256]; struct token *mod, *t1; struct inifin *ifp; const char * const *spec; struct symbol *sym; const struct symbol *osym; const char *p; // int *modlen; const struct vmod_data *vmd; t1 = tl->t; SkipToken(tl, ID); /* "import" */ ExpectErr(tl, ID); mod = tl->t; vcc_NextToken(tl); osym = VCC_FindSymbol(tl, mod, SYM_NONE); if (osym != NULL && osym->kind != SYM_VMOD) { VSB_printf(tl->sb, "Module %.*s conflicts with other symbol.\n", PF(mod)); vcc_ErrWhere2(tl, t1, tl->t); return; } if (osym != NULL) { VSB_printf(tl->sb, "Module %.*s already imported.\n", PF(mod)); vcc_ErrWhere2(tl, t1, tl->t); VSB_printf(tl->sb, "Previous import was here:\n"); vcc_ErrWhere2(tl, osym->def_b, osym->def_e); return; } bprintf(fn, "%.*s", PF(mod)); sym = VCC_AddSymbolStr(tl, fn, SYM_VMOD); ERRCHK(tl); AN(sym); sym->def_b = t1; sym->def_e = tl->t; if (tl->t->tok == ID) { if (!vcc_IdIs(tl->t, "from")) { VSB_printf(tl->sb, "Expected 'from path ...'\n"); vcc_ErrWhere(tl, tl->t); return; } vcc_NextToken(tl); if (!tl->param->unsafe_path && strchr(tl->t->dec, '/')) { VSB_printf(tl->sb, "'import ... from path ...' is unsafe.\nAt:"); vcc_ErrToken(tl, tl->t); vcc_ErrWhere(tl, tl->t); return; } ExpectErr(tl, CSTR); p = strrchr(tl->t->dec, '/'); if (p != NULL && p[1] == '\0') bprintf(fn, "%slibvmod_%.*s.so", tl->t->dec, PF(mod)); else bprintf(fn, "%s", tl->t->dec); vcc_NextToken(tl); } else { bprintf(fn, "libvmod_%.*s.so", PF(mod)); } SkipToken(tl, ';'); if (VFIL_searchpath(tl->param->vmod_path, vcc_path_dlopen, &hdl, fn, &fnp)) { VSB_printf(tl->sb, "Could not load VMOD %.*s\n", PF(mod)); VSB_printf(tl->sb, "\tFile name: %s\n", fnp != NULL ? fnp : fn); VSB_printf(tl->sb, "\tdlerror: %s\n", dlerror()); vcc_ErrWhere(tl, mod); return; } bprintf(buf, "Vmod_%.*s_Data", PF(mod)); vmd = dlsym(hdl, buf); if (vmd == NULL) { VSB_printf(tl->sb, "Malformed VMOD %.*s\n", PF(mod)); VSB_printf(tl->sb, "\tFile name: %s\n", fnp); VSB_printf(tl->sb, "\t(no Vmod_Data symbol)\n"); vcc_ErrWhere(tl, mod); return; } if (strcmp(VCS_Branch, "master") == 0 && strcmp(vmd->abi, VMOD_ABI_Version) != 0) { VSB_printf(tl->sb, "Incompatible VMOD %.*s\n", PF(mod)); VSB_printf(tl->sb, "\tFile name: %s\n", fnp); VSB_printf(tl->sb, "\tABI mismatch, expected <%s>, got <%s>\n", VMOD_ABI_Version, vmd->abi); vcc_ErrWhere(tl, mod); return; } if (vmd->vrt_major != VRT_MAJOR_VERSION || vmd->vrt_minor > VRT_MINOR_VERSION) { VSB_printf(tl->sb, "Incompatible VMOD %.*s\n", PF(mod)); VSB_printf(tl->sb, "\tFile name: %s\n", fnp); VSB_printf(tl->sb, "\tVMOD version %u.%u\n", vmd->vrt_major, vmd->vrt_minor); VSB_printf(tl->sb, "\tvarnishd version %u.%u\n", VRT_MAJOR_VERSION, VRT_MINOR_VERSION); vcc_ErrWhere(tl, mod); return; } if (vmd->name == NULL || vmd->func == NULL || vmd->func_len <= 0 || vmd->proto == NULL || vmd->abi == NULL) { VSB_printf(tl->sb, "Mangled VMOD %.*s\n", PF(mod)); VSB_printf(tl->sb, "\tFile name: %s\n", fnp); VSB_printf(tl->sb, "\tInconsistent metadata\n"); vcc_ErrWhere(tl, mod); return; } if (!vcc_IdIs(mod, vmd->name)) { VSB_printf(tl->sb, "Wrong VMOD file %.*s\n", PF(mod)); VSB_printf(tl->sb, "\tFile name: %s\n", fnp); VSB_printf(tl->sb, "\tContains vmod \"%s\"\n", vmd->name); vcc_ErrWhere(tl, mod); return; } ifp = New_IniFin(tl); VSB_printf(ifp->ini, "\tif (VRT_Vmod_Init(&VGC_vmod_%.*s,\n", PF(mod)); VSB_printf(ifp->ini, "\t &Vmod_%.*s_Func,\n", PF(mod)); VSB_printf(ifp->ini, "\t sizeof(Vmod_%.*s_Func),\n", PF(mod)); VSB_printf(ifp->ini, "\t \"%.*s\",\n", PF(mod)); VSB_printf(ifp->ini, "\t "); EncString(ifp->ini, fnp, NULL, 0); free(fnp); VSB_printf(ifp->ini, ",\n"); AN(vmd); AN(vmd->file_id); VSB_printf(ifp->ini, "\t \"%s\",\n", vmd->file_id); VSB_printf(ifp->ini, "\t ctx))\n"); VSB_printf(ifp->ini, "\t\treturn(1);"); /* XXX: zero the function pointer structure ?*/ VSB_printf(ifp->fin, "\t\tVRT_priv_fini(&vmod_priv_%.*s);", PF(mod)); VSB_printf(ifp->fin, "\n\t\tVRT_Vmod_Fini(&VGC_vmod_%.*s);", PF(mod)); ifp = NULL; spec = vmd->spec; for (; *spec != NULL; spec++) { p = *spec; if (!strcmp(p, "$OBJ")) { p += strlen(p) + 1; sym = VCC_AddSymbolStr(tl, p, SYM_OBJECT); XXXAN(sym); sym->args = p; } else if (!strcmp(p, "$EVENT")) { p += strlen(p) + 1; if (ifp == NULL) ifp = New_IniFin(tl); VSB_printf(ifp->ini, "\tif (%s(ctx, &vmod_priv_%.*s, VCL_EVENT_LOAD))\n" "\t\treturn(1);", p, PF(mod)); VSB_printf(ifp->fin, "\t\t(void)%s(ctx, &vmod_priv_%.*s,\n" "\t\t VCL_EVENT_DISCARD);\n", p, PF(mod)); VSB_printf(ifp->event, "\t(void)%s(ctx, &vmod_priv_%.*s, ev);\n", p, PF(mod)); } else { sym = VCC_AddSymbolStr(tl, p, SYM_FUNC); ERRCHK(tl); AN(sym); sym->eval = vcc_Eval_SymFunc; p += strlen(p) + 1; sym->cfunc = p; p += strlen(p) + 1; sym->args = p; /* Functions which return VOID are procedures */ if (!memcmp(p, "VOID\0", 5)) sym->kind = SYM_PROC; } } Fh(tl, 0, "\n/* --- BEGIN VMOD %.*s --- */\n\n", PF(mod)); Fh(tl, 0, "static struct vmod *VGC_vmod_%.*s;\n", PF(mod)); Fh(tl, 0, "static struct vmod_priv vmod_priv_%.*s;\n", PF(mod)); Fh(tl, 0, "\n%s\n", vmd->proto); Fh(tl, 0, "\n/* --- END VMOD %.*s --- */\n\n", PF(mod)); }
static void parse_new(struct vcc *tl) { struct symbol *sy1, *sy2, *sy3; const char *p, *s_obj, *s_init, *s_struct, *s_fini; char buf1[128]; char buf2[128]; vcc_NextToken(tl); ExpectErr(tl, ID); sy1 = VCC_FindSymbol(tl, tl->t, SYM_NONE); XXXAZ(sy1); sy1 = VCC_AddSymbolTok(tl, tl->t, SYM_NONE); // XXX: NONE ? XXXAN(sy1); vcc_NextToken(tl); ExpectErr(tl, '='); vcc_NextToken(tl); ExpectErr(tl, ID); sy2 = VCC_FindSymbol(tl, tl->t, SYM_OBJECT); XXXAN(sy2); /*lint -save -e448 */ /* Split the first three args */ p = sy2->args; s_obj = p; p += strlen(p) + 1; s_init = p; while (p[0] != '\0' || p[1] != '\0') p++; p += 2; s_struct = p; p += strlen(p) + 1; s_fini = p + strlen(p) + 1; while (p[0] != '\0' || p[1] != '\0') p++; p += 2; Fh(tl, 0, "static %s *%s;\n\n", s_struct, sy1->name); vcc_NextToken(tl); bprintf(buf1, ", &%s, \"%s\"", sy1->name, sy1->name); vcc_Eval_Func(tl, s_init, buf1, "ASDF", s_init + strlen(s_init) + 1); Fd(tl, 0, "\t%s(&%s);\n", s_fini, sy1->name); ExpectErr(tl, ';'); bprintf(buf1, ", %s", sy1->name); /* Split the methods from the args */ while (*p != '\0') { p += strlen(s_obj); bprintf(buf2, "%s%s", sy1->name, p); sy3 = VCC_AddSymbolStr(tl, buf2, SYM_FUNC); AN(sy3); sy3->eval = vcc_Eval_SymFunc; p += strlen(p) + 1; sy3->cfunc = p; p += strlen(p) + 1; /* Functions which return VOID are procedures */ if (!memcmp(p, "VOID\0", 5)) sy3->kind = SYM_PROC; sy3->args = p; sy3->extra = TlDup(tl, buf1); while (p[0] != '\0' || p[1] != '\0') p++; p += 2; } /*lint -restore */ }
static void vcc_ParseHostDef(struct vcc *tl, const struct token *t_be, const char *vgcname) { struct token *t_field; struct token *t_val; struct token *t_host = NULL; struct token *t_port = NULL; struct token *t_hosthdr = NULL; struct fld_spec *fs; struct inifin *ifp; struct vsb *vsb; char *p; unsigned u; double t; fs = vcc_FldSpec(tl, "!host", "?port", "?host_header", "?connect_timeout", "?first_byte_timeout", "?between_bytes_timeout", "?probe", "?max_connections", "?proxy_header", NULL); SkipToken(tl, '{'); vsb = VSB_new_auto(); AN(vsb); tl->fb = vsb; Fb(tl, 0, "\nstatic const struct vrt_backend vgc_dir_priv_%s = {\n", vgcname); Fb(tl, 0, "\t.magic = VRT_BACKEND_MAGIC,\n"); Fb(tl, 0, "\t.vcl_name = \"%.*s", PF(t_be)); Fb(tl, 0, "\",\n"); /* Check for old syntax */ if (tl->t->tok == ID && vcc_IdIs(tl->t, "set")) { VSB_printf(tl->sb, "NB: Backend Syntax has changed:\n" "Remove \"set\" and \"backend\" in front" " of backend fields.\n" ); vcc_ErrToken(tl, tl->t); VSB_printf(tl->sb, " at "); vcc_ErrWhere(tl, tl->t); return; } while (tl->t->tok != '}') { vcc_IsField(tl, &t_field, fs); ERRCHK(tl); if (vcc_IdIs(t_field, "host")) { ExpectErr(tl, CSTR); assert(tl->t->dec != NULL); t_host = tl->t; vcc_NextToken(tl); SkipToken(tl, ';'); } else if (vcc_IdIs(t_field, "port")) { ExpectErr(tl, CSTR); assert(tl->t->dec != NULL); t_port = tl->t; vcc_NextToken(tl); SkipToken(tl, ';'); } else if (vcc_IdIs(t_field, "host_header")) { ExpectErr(tl, CSTR); assert(tl->t->dec != NULL); t_hosthdr = tl->t; vcc_NextToken(tl); SkipToken(tl, ';'); } else if (vcc_IdIs(t_field, "connect_timeout")) { Fb(tl, 0, "\t.connect_timeout = "); vcc_Duration(tl, &t); ERRCHK(tl); Fb(tl, 0, "%g,\n", t); SkipToken(tl, ';'); } else if (vcc_IdIs(t_field, "first_byte_timeout")) { Fb(tl, 0, "\t.first_byte_timeout = "); vcc_Duration(tl, &t); ERRCHK(tl); Fb(tl, 0, "%g,\n", t); SkipToken(tl, ';'); } else if (vcc_IdIs(t_field, "between_bytes_timeout")) { Fb(tl, 0, "\t.between_bytes_timeout = "); vcc_Duration(tl, &t); ERRCHK(tl); Fb(tl, 0, "%g,\n", t); SkipToken(tl, ';'); } else if (vcc_IdIs(t_field, "max_connections")) { u = vcc_UintVal(tl); ERRCHK(tl); SkipToken(tl, ';'); Fb(tl, 0, "\t.max_connections = %u,\n", u); } else if (vcc_IdIs(t_field, "proxy_header")) { t_val = tl->t; u = vcc_UintVal(tl); ERRCHK(tl); if (u != 1 && u != 2) { VSB_printf(tl->sb, ".proxy_header must be 1 or 2\n"); vcc_ErrWhere(tl, t_val); return; } SkipToken(tl, ';'); Fb(tl, 0, "\t.proxy_header = %u,\n", u); } else if (vcc_IdIs(t_field, "probe") && tl->t->tok == '{') { vcc_ParseProbeSpec(tl, NULL, &p); Fb(tl, 0, "\t.probe = &%s,\n", p); ERRCHK(tl); } else if (vcc_IdIs(t_field, "probe") && tl->t->tok == ID) { if (VCC_FindSymbol(tl, tl->t, SYM_PROBE) == NULL) { VSB_printf(tl->sb, "Probe %.*s not found\n", PF(tl->t)); vcc_ErrWhere(tl, tl->t); return; } Fb(tl, 0, "\t.probe = &vgc_probe_%.*s,\n", PF(tl->t)); vcc_AddRef(tl, tl->t, SYM_PROBE); vcc_NextToken(tl); SkipToken(tl, ';'); } else if (vcc_IdIs(t_field, "probe")) { VSB_printf(tl->sb, "Expected '{' or name of probe, got "); vcc_ErrToken(tl, tl->t); VSB_printf(tl->sb, " at\n"); vcc_ErrWhere(tl, tl->t); return; } else { ErrInternal(tl); return; } } vcc_FieldsOk(tl, fs); ERRCHK(tl); /* Check that the hostname makes sense */ assert(t_host != NULL); Emit_Sockaddr(tl, t_host, t_port); ERRCHK(tl); ExpectErr(tl, '}'); /* We have parsed it all, emit the ident string */ /* Emit the hosthdr field, fall back to .host if not specified */ Fb(tl, 0, "\t.hosthdr = "); if (t_hosthdr != NULL) EncToken(tl->fb, t_hosthdr); else EncToken(tl->fb, t_host); Fb(tl, 0, ",\n"); /* Close the struct */ Fb(tl, 0, "};\n"); vcc_NextToken(tl); tl->fb = NULL; AZ(VSB_finish(vsb)); Fh(tl, 0, "%s", VSB_data(vsb)); VSB_destroy(&vsb); ifp = New_IniFin(tl); VSB_printf(ifp->ini, "\t%s =\n\t VRT_new_backend(ctx, &vgc_dir_priv_%s);", vgcname, vgcname); }