/** \ingroup rpmbuild * \file build/parseSpec.c * Top level dispatcher for spec file parsing. */ #include "system.h" #include #include #include #include #include #include "debug.h" #define SKIPSPACE(s) { while (*(s) && xisspace(*(s))) (s)++; } #define SKIPNONSPACE(s) { while (*(s) && !xisspace(*(s))) (s)++; } /** */ static struct PartRec { int part; int len; const char * token; } partList[] = { { PART_PREAMBLE, 0, "%package"}, { PART_PREP, 0, "%prep"}, { PART_BUILD, 0, "%build"}, { PART_INSTALL, 0, "%install"}, { PART_CHECK, 0, "%check"}, { PART_CLEAN, 0, "%clean"}, { PART_PREUN, 0, "%preun"}, { PART_POSTUN, 0, "%postun"}, { PART_PRETRANS, 0, "%pretrans"}, { PART_POSTTRANS, 0, "%posttrans"}, { PART_PRE, 0, "%pre"}, { PART_POST, 0, "%post"}, { PART_FILES, 0, "%files"}, { PART_CHANGELOG, 0, "%changelog"}, { PART_DESCRIPTION, 0, "%description"}, { PART_TRIGGERPOSTUN, 0, "%triggerpostun"}, { PART_TRIGGERUN, 0, "%triggerun"}, { PART_TRIGGERIN, 0, "%triggerin"}, { PART_TRIGGERIN, 0, "%trigger"}, { PART_VERIFYSCRIPT, 0, "%verifyscript"}, {0, 0, 0} }; /** */ static inline void initParts(struct PartRec *p) { for (; p->token != NULL; p++) p->len = strlen(p->token); } rpmParseState isPart(const char *line) { struct PartRec *p; if (partList[0].len == 0) initParts(partList); for (p = partList; p->token != NULL; p++) { char c; if (xstrncasecmp(line, p->token, p->len)) continue; c = *(line + p->len); if (c == '\0' || xisspace(c)) break; } return (p->token ? p->part : PART_NONE); } /** */ static int matchTok(const char *token, const char *line) { const char *b, *be = line; size_t toklen = strlen(token); int rc = 0; while ( *(b = be) != '\0' ) { SKIPSPACE(b); be = b; SKIPNONSPACE(be); if (be == b) break; if (toklen != (be-b) || xstrncasecmp(token, b, (be-b))) continue; rc = 1; break; } return rc; } void handleComments(char *s) { SKIPSPACE(s); if (*s == '#') *s = '\0'; } /** */ static void forceIncludeFile(rpmSpec spec, const char * fileName) { OFI_t * ofi; ofi = newOpenFileInfo(); ofi->fileName = xstrdup(fileName); ofi->next = spec->fileStack; spec->fileStack = ofi; } /** */ static int copyNextLine(rpmSpec spec, OFI_t *ofi, int strip) { char *last; char ch; /* Restore 1st char in (possible) next line */ if (spec->nextline != NULL && spec->nextpeekc != '\0') { *spec->nextline = spec->nextpeekc; spec->nextpeekc = '\0'; } /* Expand next line from file into line buffer */ if (!(spec->nextline && *spec->nextline)) { int pc = 0, bc = 0, nc = 0; char *from, *to, *p; to = spec->lbufPtr ? spec->lbufPtr : spec->lbuf; from = ofi->readPtr; ch = ' '; while (*from && ch != '\n') ch = *to++ = *from++; spec->lbufPtr = to; *to++ = '\0'; ofi->readPtr = from; /* Check if we need another line before expanding the buffer. */ for (p = spec->lbuf; *p; p++) { switch (*p) { case '\\': switch (*(p+1)) { case '\n': p++, nc = 1; break; case '\0': break; default: p++; break; } break; case '\n': nc = 0; break; case '%': switch (*(p+1)) { case '{': p++, bc++; break; case '(': p++, pc++; break; case '%': p++; break; } break; case '{': if (bc > 0) bc++; break; case '}': if (bc > 0) bc--; break; case '(': if (pc > 0) pc++; break; case ')': if (pc > 0) pc--; break; } } /* If it doesn't, ask for one more line. We need a better * error code for this. */ if (pc || bc || nc ) { spec->nextline = ""; return RPMLOG_ERR; } spec->lbufPtr = spec->lbuf; /* Don't expand macros (eg. %define) in false branch of %if clause */ if (spec->readStack->reading && expandMacros(spec, spec->macros, spec->lbuf, sizeof(spec->lbuf))) { rpmlog(RPMLOG_ERR, _("line %d: %s\n"), spec->lineNum, spec->lbuf); return RPMLOG_ERR; } spec->nextline = spec->lbuf; } /* Find next line in expanded line buffer */ spec->line = last = spec->nextline; ch = ' '; while (*spec->nextline && ch != '\n') { ch = *spec->nextline++; if (!xisspace(ch)) last = spec->nextline; } /* Save 1st char of next line in order to terminate current line. */ if (*spec->nextline != '\0') { spec->nextpeekc = *spec->nextline; *spec->nextline = '\0'; } if (strip & STRIP_COMMENTS) handleComments(spec->line); if (strip & STRIP_TRAILINGSPACE) *last = '\0'; return 0; } int readLine(rpmSpec spec, int strip) { char *s; int match; struct ReadLevelEntry *rl; OFI_t *ofi = spec->fileStack; int rc; retry: /* Make sure the current file is open */ if (ofi->fd == NULL) { ofi->fd = Fopen(ofi->fileName, "r.fpio"); if (ofi->fd == NULL || Ferror(ofi->fd)) { /* XXX Fstrerror */ rpmlog(RPMLOG_ERR, _("Unable to open %s: %s\n"), ofi->fileName, Fstrerror(ofi->fd)); return RPMLOG_ERR; } spec->lineNum = ofi->lineNum = 0; } /* Make sure we have something in the read buffer */ if (!(ofi->readPtr && *(ofi->readPtr))) { FILE * f = fdGetFILE(ofi->fd); if (f == NULL || !fgets(ofi->readBuf, BUFSIZ, f)) { /* EOF */ if (spec->readStack->next) { rpmlog(RPMLOG_ERR, _("Unclosed %%if\n")); return RPMLOG_ERR; } /* remove this file from the stack */ spec->fileStack = ofi->next; (void) Fclose(ofi->fd); ofi->fileName = _free(ofi->fileName); ofi = _free(ofi); /* only on last file do we signal EOF to caller */ ofi = spec->fileStack; if (ofi == NULL) return 1; /* otherwise, go back and try the read again. */ goto retry; } ofi->readPtr = ofi->readBuf; ofi->lineNum++; spec->lineNum = ofi->lineNum; if (spec->sl) { speclines sl = spec->sl; if (sl->sl_nlines == sl->sl_nalloc) { sl->sl_nalloc += 100; sl->sl_lines = (char **) xrealloc(sl->sl_lines, sl->sl_nalloc * sizeof(*(sl->sl_lines))); } sl->sl_lines[sl->sl_nlines++] = xstrdup(ofi->readBuf); } } /* Copy next file line into the spec line buffer */ if ((rc = copyNextLine(spec, ofi, strip)) != 0) { if (rc == RPMLOG_ERR) goto retry; return rc; } s = spec->line; SKIPSPACE(s); match = -1; if (!spec->readStack->reading && !strncmp("%if", s, sizeof("%if")-1)) { match = 0; } else if (! strncmp("%ifarch", s, sizeof("%ifarch")-1)) { const char *arch = rpmExpand("%{_target_cpu}", NULL); s += 7; match = matchTok(arch, s); arch = _free(arch); } else if (! strncmp("%ifnarch", s, sizeof("%ifnarch")-1)) { const char *arch = rpmExpand("%{_target_cpu}", NULL); s += 8; match = !matchTok(arch, s); arch = _free(arch); } else if (! strncmp("%ifos", s, sizeof("%ifos")-1)) { const char *os = rpmExpand("%{_target_os}", NULL); s += 5; match = matchTok(os, s); os = _free(os); } else if (! strncmp("%ifnos", s, sizeof("%ifnos")-1)) { const char *os = rpmExpand("%{_target_os}", NULL); s += 6; match = !matchTok(os, s); os = _free(os); } else if (! strncmp("%if", s, sizeof("%if")-1)) { s += 3; match = parseExpressionBoolean(spec, s); if (match < 0) { rpmlog(RPMLOG_ERR, _("%s:%d: parseExpressionBoolean returns %d\n"), ofi->fileName, ofi->lineNum, match); return RPMLOG_ERR; } } else if (! strncmp("%else", s, sizeof("%else")-1)) { s += 5; if (! spec->readStack->next) { /* Got an else with no %if ! */ rpmlog(RPMLOG_ERR, _("%s:%d: Got a %%else with no %%if\n"), ofi->fileName, ofi->lineNum); return RPMLOG_ERR; } spec->readStack->reading = spec->readStack->next->reading && ! spec->readStack->reading; spec->line[0] = '\0'; } else if (! strncmp("%endif", s, sizeof("%endif")-1)) { s += 6; if (! spec->readStack->next) { /* Got an end with no %if ! */ rpmlog(RPMLOG_ERR, _("%s:%d: Got a %%endif with no %%if\n"), ofi->fileName, ofi->lineNum); return RPMLOG_ERR; } rl = spec->readStack; spec->readStack = spec->readStack->next; free(rl); spec->line[0] = '\0'; } else if (! strncmp("%include", s, sizeof("%include")-1)) { char *fileName, *endFileName, *p; s += 8; fileName = s; if (! xisspace(*fileName)) { rpmlog(RPMLOG_ERR, _("malformed %%include statement\n")); return RPMLOG_ERR; } SKIPSPACE(fileName); endFileName = fileName; SKIPNONSPACE(endFileName); p = endFileName; SKIPSPACE(p); if (*p != '\0') { rpmlog(RPMLOG_ERR, _("malformed %%include statement\n")); return RPMLOG_ERR; } *endFileName = '\0'; forceIncludeFile(spec, fileName); ofi = spec->fileStack; goto retry; } if (match != -1) { rl = xmalloc(sizeof(*rl)); rl->reading = spec->readStack->reading && match; rl->next = spec->readStack; spec->readStack = rl; spec->line[0] = '\0'; } if (! spec->readStack->reading) { spec->line[0] = '\0'; } /* FIX: spec->readStack->next should be dependent */ return 0; } void closeSpec(rpmSpec spec) { OFI_t *ofi; while (spec->fileStack) { ofi = spec->fileStack; spec->fileStack = spec->fileStack->next; if (ofi->fd) (void) Fclose(ofi->fd); ofi->fileName = _free(ofi->fileName); ofi = _free(ofi); } } extern int noLang; /* XXX FIXME: pass as arg */ int parseSpec(rpmts ts, const char *specFile, const char *rootURL, const char *buildRootURL, int recursing, const char *passPhrase, const char *cookie, int anyarch, int force) { rpmParseState parsePart = PART_PREAMBLE; int initialPackage = 1; Package pkg; rpmSpec spec; /* Set up a new Spec structure with no packages. */ spec = newSpec(); /* * Note: rpmGetPath should guarantee a "canonical" path. That means * that the following pathologies should be weeded out: * //bin//sh * //usr//bin/ * /.././../usr/../bin//./sh (XXX FIXME: dots not handled yet) */ spec->specFile = rpmGetPath(specFile, NULL); spec->fileStack = newOpenFileInfo(); spec->fileStack->fileName = xstrdup(spec->specFile); if (buildRootURL) { const char * buildRoot; (void) urlPath(buildRootURL, &buildRoot); if (*buildRoot == '\0') buildRoot = "/"; if (!strcmp(buildRoot, "/")) { rpmlog(RPMLOG_ERR, _("BuildRoot can not be \"/\": %s\n"), buildRootURL); return RPMLOG_ERR; } spec->gotBuildRootURL = 1; spec->buildRootURL = xstrdup(buildRootURL); addMacro(spec->macros, "buildroot", NULL, buildRoot, RMIL_SPEC); } addMacro(NULL, "_docdir", NULL, "%{_defaultdocdir}", RMIL_SPEC); spec->recursing = recursing; spec->anyarch = anyarch; spec->force = force; if (rootURL) spec->rootURL = xstrdup(rootURL); if (passPhrase) spec->passPhrase = xstrdup(passPhrase); if (cookie) spec->cookie = xstrdup(cookie); spec->timeCheck = rpmExpandNumeric("%{_timecheck}"); /* All the parse*() functions expect to have a line pre-read */ /* in the spec's line buffer. Except for parsePreamble(), */ /* which handles the initial entry into a spec file. */ /* LCL: parsePart is modified @*/ while (parsePart < PART_LAST && parsePart != PART_NONE) { switch (parsePart) { case PART_PREAMBLE: parsePart = parsePreamble(spec, initialPackage); initialPackage = 0; break; case PART_PREP: parsePart = parsePrep(spec); break; case PART_BUILD: case PART_INSTALL: case PART_CHECK: case PART_CLEAN: parsePart = parseBuildInstallClean(spec, parsePart); break; case PART_CHANGELOG: parsePart = parseChangelog(spec); break; case PART_DESCRIPTION: parsePart = parseDescription(spec); break; case PART_PRE: case PART_POST: case PART_PREUN: case PART_POSTUN: case PART_PRETRANS: case PART_POSTTRANS: case PART_VERIFYSCRIPT: case PART_TRIGGERIN: case PART_TRIGGERUN: case PART_TRIGGERPOSTUN: parsePart = parseScript(spec, parsePart); break; case PART_FILES: parsePart = parseFiles(spec); break; case PART_NONE: /* XXX avoid gcc whining */ case PART_LAST: case PART_BUILDARCHITECTURES: break; } if (parsePart >= PART_LAST) { spec = freeSpec(spec); return parsePart; } if (parsePart == PART_BUILDARCHITECTURES) { int index; int x; closeSpec(spec); /* LCL: sizeof(spec->BASpecs[0]) -nullderef whine here */ spec->BASpecs = xcalloc(spec->BACount, sizeof(*spec->BASpecs)); index = 0; if (spec->BANames != NULL) for (x = 0; x < spec->BACount; x++) { /* Skip if not arch is not compatible. */ if (!rpmMachineScore(RPM_MACHTABLE_BUILDARCH, spec->BANames[x])) continue; addMacro(NULL, "_target_cpu", NULL, spec->BANames[x], RMIL_RPMRC); spec->BASpecs[index] = NULL; if (parseSpec(ts, specFile, spec->rootURL, buildRootURL, 1, passPhrase, cookie, anyarch, force) || (spec->BASpecs[index] = rpmtsSetSpec(ts, NULL)) == NULL) { spec->BACount = index; spec = freeSpec(spec); return RPMLOG_ERR; } delMacro(NULL, "_target_cpu"); index++; } spec->BACount = index; if (! index) { rpmlog(RPMLOG_ERR, _("No compatible architectures found for build\n")); spec = freeSpec(spec); return RPMLOG_ERR; } /* * Return the 1st child's fully parsed Spec structure. * The restart of the parse when encountering BuildArch * causes problems for "rpm -q --specfile". This is * still a hack because there may be more than 1 arch * specified (unlikely but possible.) There's also the * further problem that the macro context, particularly * %{_target_cpu}, disagrees with the info in the header. */ if (spec->BACount >= 1) { rpmSpec nspec = spec->BASpecs[0]; spec->BASpecs = _free(spec->BASpecs); spec = freeSpec(spec); spec = nspec; } (void) rpmtsSetSpec(ts, spec); return 0; } } /* LCL: parsePart is modified @*/ /* Check for description in each package and add arch and os */ { const char *platform = rpmExpand("%{_target_platform}", NULL); const char *arch = rpmExpand("%{_target_cpu}", NULL); const char *os = rpmExpand("%{_target_os}", NULL); for (pkg = spec->packages; pkg != NULL; pkg = pkg->next) { if (!headerIsEntry(pkg->header, RPMTAG_DESCRIPTION)) { const char * name; (void) headerNVR(pkg->header, &name, NULL, NULL); rpmlog(RPMLOG_ERR, _("Package has no %%description: %s\n"), name); spec = freeSpec(spec); return RPMLOG_ERR; } (void) headerAddEntry(pkg->header, RPMTAG_OS, RPM_STRING_TYPE, os, 1); (void) headerAddEntry(pkg->header, RPMTAG_ARCH, RPM_STRING_TYPE, arch, 1); (void) headerAddEntry(pkg->header, RPMTAG_PLATFORM, RPM_STRING_TYPE, platform, 1); pkg->ds = rpmdsThis(pkg->header, RPMTAG_REQUIRENAME, RPMSENSE_EQUAL); } platform = _free(platform); arch = _free(arch); os = _free(os); } closeSpec(spec); (void) rpmtsSetSpec(ts, spec); return 0; }