/** \ingroup header * \file lib/formats.c */ #include "system.h" #include #include #include #include #include #include #include #include #include "rpmio/digest.h" #include "lib/manifest.h" #include "lib/misc.h" #include "lib/signature.h" #include "debug.h" #define RPM_ANY_CLASS 255 typedef char * (*headerTagFormatFunction) (rpmtd td, char **emsg); /** \ingroup header * Define header tag output formats. */ struct headerFmt_s { rpmtdFormats fmt; /*!< Value of extension */ const char *name; /*!< Name of extension. */ rpmTagClass class; /*!< Class of source data (RPM_ANY_CLASS for any) */ headerTagFormatFunction func; /*!< Pointer to formatter function. */ }; static const char *classEr(rpmTagClass class) { switch (class) { case RPM_BINARY_CLASS: return _("(not a blob)"); case RPM_NUMERIC_CLASS: return _("(not a number)"); case RPM_STRING_CLASS: return _("(not a string)"); default: break; } return _("(invalid type)"); } /* barebones string representation with no extra formatting */ static char * stringFormat(rpmtd td, char **emsg) { char *val = NULL; switch (rpmtdClass(td)) { case RPM_NUMERIC_CLASS: rasprintf(&val, "%" PRIu64, rpmtdGetNumber(td)); break; case RPM_STRING_CLASS: { const char *str = rpmtdGetString(td); if (str) val = xstrdup(str); break; } case RPM_BINARY_CLASS: val = pgpHexStr(td->data, td->count); break; default: *emsg = xstrdup("(unknown type)"); break; } return val; } /* arbitrary number format as per format arg */ static char * numFormat(rpmtd td, const char *format) { char * val = NULL; rasprintf(&val, format, rpmtdGetNumber(td)); return val; } /* octal number formatting */ static char * octalFormat(rpmtd td, char **emsg) { return numFormat(td, "%o"); } /* hexadecimal format */ static char * hexFormat(rpmtd td, char **emsg) { return numFormat(td, "%x"); } /* arbitrary date formatting as per strftimeFormat arg */ static char * realDateFormat(rpmtd td, const char * strftimeFormat, char **emsg) { char * val = NULL; struct tm * tstruct; char buf[1024]; time_t dateint = rpmtdGetNumber(td); tstruct = localtime(&dateint); buf[0] = '\0'; if (tstruct) if (strftime(buf, sizeof(buf) - 1, strftimeFormat, tstruct) == 0) *emsg = xstrdup("date output too long"); val = xstrdup(buf); return val; } /* date formatting */ static char * dateFormat(rpmtd td, char **emsg) { return realDateFormat(td, _("%c"), emsg); } /* day formatting */ static char * dayFormat(rpmtd td, char **emsg) { return realDateFormat(td, _("%a %b %d %Y"), emsg); } /* shell escape formatting */ static char * shescapeFormat(rpmtd td, char **emsg) { char * result = NULL, * dst, * src; if (rpmtdClass(td) == RPM_NUMERIC_CLASS) { rasprintf(&result, "%" PRIu64, rpmtdGetNumber(td)); } else if (rpmtdClass(td) == RPM_STRING_CLASS) { char *buf = xstrdup(rpmtdGetString(td));; result = dst = xmalloc(strlen(buf) * 4 + 3); *dst++ = '\''; for (src = buf; *src != '\0'; src++) { if (*src == '\'') { *dst++ = '\''; *dst++ = '\\'; *dst++ = '\''; *dst++ = '\''; } else { *dst++ = *src; } } *dst++ = '\''; *dst = '\0'; free(buf); } else { *emsg = xstrdup(_("(invalid type)")); } return result; } /* trigger type formatting (from rpmsense flags) */ static char * triggertypeFormat(rpmtd td, char **emsg) { char * val; uint64_t item = rpmtdGetNumber(td); if (item & RPMSENSE_TRIGGERPREIN) val = xstrdup("prein"); else if (item & RPMSENSE_TRIGGERIN) val = xstrdup("in"); else if (item & RPMSENSE_TRIGGERUN) val = xstrdup("un"); else if (item & RPMSENSE_TRIGGERPOSTUN) val = xstrdup("postun"); else val = xstrdup(""); return val; } /* dependency type formatting (from rpmsense flags) */ static char * deptypeFormat(rpmtd td, char **emsg) { char *val = NULL; ARGV_t sdeps = NULL; uint64_t item = rpmtdGetNumber(td); if (item & RPMSENSE_SCRIPT_PRE) argvAdd(&sdeps, "pre"); if (item & RPMSENSE_SCRIPT_POST) argvAdd(&sdeps, "post"); if (item & RPMSENSE_SCRIPT_PREUN) argvAdd(&sdeps, "preun"); if (item & RPMSENSE_SCRIPT_POSTUN) argvAdd(&sdeps, "postun"); if (item & RPMSENSE_SCRIPT_VERIFY) argvAdd(&sdeps, "verify"); if (item & RPMSENSE_INTERP) argvAdd(&sdeps, "interp"); if (item & RPMSENSE_RPMLIB) argvAdd(&sdeps, "rpmlib"); if ((item & RPMSENSE_FIND_REQUIRES) || (item & RPMSENSE_FIND_PROVIDES)) argvAdd(&sdeps, "auto"); if (item & RPMSENSE_PREREQ) argvAdd(&sdeps, "prereq"); if (item & RPMSENSE_PRETRANS) argvAdd(&sdeps, "pretrans"); if (item & RPMSENSE_POSTTRANS) argvAdd(&sdeps, "posttrans"); if (item & RPMSENSE_CONFIG) argvAdd(&sdeps, "config"); if (item & RPMSENSE_MISSINGOK) argvAdd(&sdeps, "missingok"); if (sdeps) { val = argvJoin(sdeps, ","); } else { val = xstrdup("manual"); } argvFree(sdeps); return val; } /* file permissions formatting */ static char * permsFormat(rpmtd td, char **emsg) { return rpmPermsString(rpmtdGetNumber(td)); } /* file flags formatting */ static char * fflagsFormat(rpmtd td, char **emsg) { return rpmFFlagsString(rpmtdGetNumber(td), ""); } /* pubkey ascii armor formatting */ static char * armorFormat(rpmtd td, char **emsg) { const char * enc; const unsigned char * s; unsigned char * bs = NULL; char *val = NULL; size_t ns; int atype; switch (rpmtdType(td)) { case RPM_BIN_TYPE: s = td->data; /* XXX HACK ALERT: element field abused as no. bytes of binary data. */ ns = td->count; atype = PGPARMOR_SIGNATURE; /* XXX check pkt for signature */ break; case RPM_STRING_TYPE: case RPM_STRING_ARRAY_TYPE: enc = rpmtdGetString(td); if (rpmBase64Decode(enc, (void **)&bs, &ns)) { *emsg = xstrdup(_("(not base64)")); goto exit; } s = bs; atype = PGPARMOR_PUBKEY; /* XXX check pkt for pubkey */ break; case RPM_NULL_TYPE: case RPM_CHAR_TYPE: case RPM_INT8_TYPE: case RPM_INT16_TYPE: case RPM_INT32_TYPE: case RPM_INT64_TYPE: case RPM_I18NSTRING_TYPE: default: *emsg = xstrdup(_("(invalid type)")); goto exit; break; } /* XXX this doesn't use padding directly, assumes enough slop in retval. */ val = pgpArmorWrap(atype, s, ns); if (atype == PGPARMOR_PUBKEY) { free(bs); } exit: return val; } /* base64 encoding formatting */ static char * base64Format(rpmtd td, char **emsg) { char * val = rpmBase64Encode(td->data, td->count, -1); if (val == NULL) val = xstrdup(""); return val; } /* xml formatting */ static char * xmlFormat(rpmtd td, char **emsg) { const char *xtag = NULL; char *val = NULL; char *s = NULL; headerTagFormatFunction fmt = stringFormat; switch (rpmtdClass(td)) { case RPM_STRING_CLASS: xtag = "string"; break; case RPM_BINARY_CLASS: fmt = base64Format; xtag = "base64"; break; case RPM_NUMERIC_CLASS: xtag = "integer"; break; case RPM_NULL_TYPE: default: *emsg = xstrdup(_("(invalid xml type)")); goto exit; break; } s = fmt(td, emsg); if (s == NULL) goto exit; if (s[0] == '\0') { val = rstrscat(NULL, "\t<", xtag, "/>", NULL); } else { char *new_s = NULL; size_t i, s_size = strlen(s); for (i=0; i': rstrcat(&new_s, ">"); break; case '&': rstrcat(&new_s, "&"); break; default: { char c[2] = " "; *c = s[i]; rstrcat(&new_s, c); break; } } } val = rstrscat(NULL, "\t<", xtag, ">", new_s, "", NULL); free(new_s); } free(s); exit: return val; } /* signature fingerprint and time formatting */ static char * pgpsigFormat(rpmtd td, char **emsg) { char * val = NULL; pgpDigParams sigp = NULL; if (pgpPrtParams(td->data, td->count, PGPTAG_SIGNATURE, &sigp)) { *emsg = xstrdup(_("(not an OpenPGP signature)")); } else { char dbuf[BUFSIZ]; char *keyid = pgpHexStr(sigp->signid, sizeof(sigp->signid)); unsigned int dateint = sigp->time; time_t date = dateint; struct tm * tms = localtime(&date); unsigned int key_algo = pgpDigParamsAlgo(sigp, PGPVAL_PUBKEYALGO); unsigned int hash_algo = pgpDigParamsAlgo(sigp, PGPVAL_HASHALGO); if (!(tms && strftime(dbuf, sizeof(dbuf), "%c", tms) > 0)) { rasprintf(emsg, _("Invalid date %u"), dateint); } else { rasprintf(&val, "%s/%s, %s, Key ID %s", pgpValString(PGPVAL_PUBKEYALGO, key_algo), pgpValString(PGPVAL_HASHALGO, hash_algo), dbuf, keyid); } free(keyid); pgpDigParamsFree(sigp); } return val; } /* dependency flags formatting */ static char * depflagsFormat(rpmtd td, char **emsg) { char * val = NULL; uint64_t anint = rpmtdGetNumber(td); val = xcalloc(4, 1); if (anint & RPMSENSE_LESS) strcat(val, "<"); if (anint & RPMSENSE_GREATER) strcat(val, ">"); if (anint & RPMSENSE_EQUAL) strcat(val, "="); return val; } /* tag container array size */ static char * arraysizeFormat(rpmtd td, char **emsg) { char *val = NULL; rasprintf(&val, "%u", rpmtdCount(td)); return val; } /* file state formatting */ static char * fstateFormat(rpmtd td, char **emsg) { char * val = NULL; const char * str; rpmfileState fstate = rpmtdGetNumber(td); switch (fstate) { case RPMFILE_STATE_NORMAL: str = _("normal"); break; case RPMFILE_STATE_REPLACED: str = _("replaced"); break; case RPMFILE_STATE_NOTINSTALLED: str = _("not installed"); break; case RPMFILE_STATE_NETSHARED: str = _("net shared"); break; case RPMFILE_STATE_WRONGCOLOR: str = _("wrong color"); break; case RPMFILE_STATE_MISSING: str = _("missing"); break; default: str = _("(unknown)"); break; } val = xstrdup(str); return val; } /* file verification flags formatting with optional padding */ static char * verifyFlags(rpmtd td, const char *pad) { return rpmVerifyString(rpmtdGetNumber(td), pad); } static char * vflagsFormat(rpmtd td, char **emsg) { return verifyFlags(td, ""); } static char * fstatusFormat(rpmtd td, char **emsg) { return verifyFlags(td, "."); } /* macro expansion formatting */ static char * expandFormat(rpmtd td, char **emsg) { return rpmExpand(rpmtdGetString(td), NULL); } static const struct headerFmt_s rpmHeaderFormats[] = { { RPMTD_FORMAT_STRING, "string", RPM_ANY_CLASS, stringFormat }, { RPMTD_FORMAT_ARMOR, "armor", RPM_ANY_CLASS, armorFormat }, { RPMTD_FORMAT_BASE64, "base64", RPM_BINARY_CLASS, base64Format }, { RPMTD_FORMAT_PGPSIG, "pgpsig", RPM_BINARY_CLASS, pgpsigFormat }, { RPMTD_FORMAT_DEPFLAGS, "depflags", RPM_NUMERIC_CLASS, depflagsFormat }, { RPMTD_FORMAT_DEPTYPE, "deptype", RPM_NUMERIC_CLASS, deptypeFormat }, { RPMTD_FORMAT_FFLAGS, "fflags", RPM_NUMERIC_CLASS, fflagsFormat }, { RPMTD_FORMAT_PERMS, "perms", RPM_NUMERIC_CLASS, permsFormat }, { RPMTD_FORMAT_PERMS, "permissions", RPM_NUMERIC_CLASS, permsFormat }, { RPMTD_FORMAT_TRIGGERTYPE, "triggertype", RPM_NUMERIC_CLASS, triggertypeFormat }, { RPMTD_FORMAT_XML, "xml", RPM_ANY_CLASS, xmlFormat }, { RPMTD_FORMAT_OCTAL, "octal", RPM_NUMERIC_CLASS, octalFormat }, { RPMTD_FORMAT_HEX, "hex", RPM_NUMERIC_CLASS, hexFormat }, { RPMTD_FORMAT_DATE, "date", RPM_NUMERIC_CLASS, dateFormat }, { RPMTD_FORMAT_DAY, "day", RPM_NUMERIC_CLASS, dayFormat }, { RPMTD_FORMAT_SHESCAPE, "shescape", RPM_ANY_CLASS, shescapeFormat }, { RPMTD_FORMAT_ARRAYSIZE, "arraysize", RPM_ANY_CLASS, arraysizeFormat }, { RPMTD_FORMAT_FSTATE, "fstate", RPM_NUMERIC_CLASS, fstateFormat }, { RPMTD_FORMAT_VFLAGS, "vflags", RPM_NUMERIC_CLASS, vflagsFormat }, { RPMTD_FORMAT_EXPAND, "expand", RPM_STRING_CLASS, expandFormat }, { RPMTD_FORMAT_FSTATUS, "fstatus", RPM_NUMERIC_CLASS, fstatusFormat }, { -1, NULL, 0, NULL } }; headerFmt rpmHeaderFormatByName(const char *fmt) { const struct headerFmt_s * ext; for (ext = rpmHeaderFormats; ext->name != NULL; ext++) { if (rstreq(ext->name, fmt)) return ext; } return NULL; } headerFmt rpmHeaderFormatByValue(rpmtdFormats fmt) { const struct headerFmt_s * ext; for (ext = rpmHeaderFormats; ext->name != NULL; ext++) { if (fmt == ext->fmt) return ext; } return NULL; } char *rpmHeaderFormatCall(headerFmt fmt, rpmtd td) { char *ret = NULL; char *err = NULL; if (fmt->class != RPM_ANY_CLASS && rpmtdClass(td) != fmt->class) err = xstrdup(classEr(fmt->class)); else ret = fmt->func(td, &err); if (err) { free(ret); ret = err; } return ret; }