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|
/* $Id: oiddb2c.cpp $ */
/** @file
* IPRT - OID text database to C converter.
*
* The output is used by asn1-dump.cpp.
*/
/*
* Copyright (C) 2006-2020 Oracle Corporation
*
* This file is part of VirtualBox Open Source Edition (OSE), as
* available from http://www.virtualbox.org. This file is free software;
* you can redistribute it and/or modify it under the terms of the GNU
* General Public License (GPL) as published by the Free Software
* Foundation, in version 2 as it comes in the "COPYING" file of the
* VirtualBox OSE distribution. VirtualBox OSE is distributed in the
* hope that it will be useful, but WITHOUT ANY WARRANTY of any kind.
*
* The contents of this file may alternatively be used under the terms
* of the Common Development and Distribution License Version 1.0
* (CDDL) only, as it comes in the "COPYING.CDDL" file of the
* VirtualBox OSE distribution, in which case the provisions of the
* CDDL are applicable instead of those of the GPL.
*
* You may elect to license modified versions of this file under the
* terms and conditions of either the GPL or the CDDL or both.
*/
/*********************************************************************************************************************************
* Header Files *
*********************************************************************************************************************************/
#include <iprt/assert.h>
#include <iprt/types.h>
#include <iprt/ctype.h>
#include <iprt/stdarg.h>
#include <stdio.h>
#include <string.h>
#include <stdlib.h>
/*
* Include the string table code.
*/
#define BLDPROG_STRTAB_MAX_STRLEN 48
#define BLDPROG_STRTAB_WITH_COMPRESSION
#define BLDPROG_STRTAB_PURE_ASCII
#define BLDPROG_STRTAB_WITH_CAMEL_WORDS
#include <iprt/bldprog-strtab-template.cpp.h>
/*********************************************************************************************************************************
* Defined Constants And Macros *
*********************************************************************************************************************************/
#define OID2C_MAX_COMP_VALUE _1G
/*********************************************************************************************************************************
* Structures and Typedefs *
*********************************************************************************************************************************/
/**
* Raw OID tree node.
*
* This is what we produce while loading OID input files.
*/
typedef struct RAWOIDNODE
{
/** The component value. */
uint32_t uKey;
/** Number of children. */
uint32_t cChildren;
/** Pointer to the children pointers (sorted by key). */
struct RAWOIDNODE **papChildren;
/** Pointer to the parent. */
struct RAWOIDNODE *pParent;
/** The string table entry for this node. */
BLDPROGSTRING StrTabEntry;
/** The table index of the children. */
uint32_t idxChildren;
/** Set if we've got one or more children with large keys. */
bool fChildrenInBigTable;
} RAWOIDNODE;
/** Pointer to a raw OID node. */
typedef RAWOIDNODE *PRAWOIDNODE;
/*********************************************************************************************************************************
* Global Variables *
*********************************************************************************************************************************/
/** What to prefix errors with. */
static const char *g_pszProgName = "oiddb2c";
/** The OID tree. */
static PRAWOIDNODE g_pOidRoot = NULL;
/** Number of nodes in the OID tree. */
static uint32_t g_cOidNodes = 0;
/** Number of nodes in the OID tree that has strings (for the string table). */
static uint32_t g_cOidNodesWithStrings = 0;
/** Max number of children of a node in the OID tree. */
static uint32_t g_cMaxOidChildren = 0;
/** Number of nodes which key fits within 6-bits. */
static uint32_t g_cOidNodiesWith6bitKeys = 0;
static RTEXITCODE error(const char *pszFormat, ...)
{
va_list va;
va_start(va, pszFormat);
fprintf(stderr, "%s: error: ", g_pszProgName);
vfprintf(stderr, pszFormat, va);
va_end(va);
return RTEXITCODE_FAILURE;
}
static RTEXITCODE warning(const char *pszFormat, ...)
{
va_list va;
va_start(va, pszFormat);
fprintf(stderr, "%s: warning: ", g_pszProgName);
vfprintf(stderr, pszFormat, va);
va_end(va);
return RTEXITCODE_FAILURE;
}
static void writeDottedOidForNode(PRAWOIDNODE pCurNode, FILE *pOut)
{
if (pCurNode->pParent)
{
writeDottedOidForNode(pCurNode->pParent, pOut);
fprintf(pOut, ".%u", pCurNode->uKey);
}
else
fprintf(pOut, "%u", pCurNode->uKey);
}
static void writeOidTree(PRAWOIDNODE pCurNode, FILE *pOut, bool fBigTable, PBLDPROGSTRTAB pStrTab)
{
/*
* First we produce the entries for our children.
*/
if (pCurNode->fChildrenInBigTable == fBigTable)
{
for (unsigned i = 0; i < pCurNode->cChildren; i++)
{
PRAWOIDNODE pChild = pCurNode->papChildren[i];
fprintf(pOut,
fBigTable
? " { %7u, %2u, %u, %2u, %4u, %#06x }, /* "
: " { %2u, %2u, %u, %2u, %4u, %#06x }, /* "
,
pChild->uKey,
(unsigned)pChild->StrTabEntry.cchString,
pChild->fChildrenInBigTable,
pChild->cChildren,
pChild->idxChildren,
pChild->StrTabEntry.offStrTab);
writeDottedOidForNode(pChild, pOut);
if (pChild->StrTabEntry.pszString)
{
fputs(" = \"", pOut);
BldProgStrTab_PrintCStringLitteral(pStrTab, &pChild->StrTabEntry, pOut);
fputs("\" */\n", pOut);
}
else
fputs(" */\n", pOut);
}
}
/*
* Then we decend and let our children do the same.
*/
for (unsigned i = 0; i < pCurNode->cChildren; i++)
writeOidTree(pCurNode->papChildren[i], pOut, fBigTable, pStrTab);
}
static uint32_t prepareOidTreeForWriting(PRAWOIDNODE pCurNode, uint32_t idxCur, bool fBigTable)
{
if (pCurNode->fChildrenInBigTable == fBigTable)
{
pCurNode->idxChildren = pCurNode->cChildren ? idxCur : 0;
idxCur += pCurNode->cChildren;
}
for (unsigned i = 0; i < pCurNode->cChildren; i++)
idxCur = prepareOidTreeForWriting(pCurNode->papChildren[i], idxCur, fBigTable);
return idxCur;
}
static void addStringFromOidTree(PRAWOIDNODE pCurNode, PBLDPROGSTRTAB pStrTab)
{
/* Do self. */
if (pCurNode->StrTabEntry.pszString)
BldProgStrTab_AddString(pStrTab, &pCurNode->StrTabEntry);
/* Recurse into children. */
unsigned i = pCurNode->cChildren;
while (i-- > 0)
addStringFromOidTree(pCurNode->papChildren[i], pStrTab);
}
static bool isNiceAsciiString(const char *psz)
{
unsigned uch;
while ((uch = *psz) != '\0')
if ( !(uch & 0x80)
&& ( uch >= 0x20
|| uch == '\t') )
psz++;
else
return false;
return true;
}
static RTEXITCODE addOidToTree(uint32_t const *pauComponents, unsigned cComponents, const char *pszName,
const char *pszFile, unsigned iLineNo)
{
/*
* Check preconditions.
*/
size_t cchName = strlen(pszName);
if (cchName == '\0')
return warning("%s(%d): Empty OID name!\n", pszFile, iLineNo);
if (cchName >= BLDPROG_STRTAB_MAX_STRLEN)
return warning("%s(%d): OID name is too long (%u)!\n", pszFile, iLineNo, (unsigned)cchName);
if (cComponents == 0)
return warning("%s(%d): 'Description' without valid OID preceeding it!\n", pszFile, iLineNo);
if (!isNiceAsciiString(pszName))
return warning("%s(%d): Contains unwanted characters!\n", pszFile, iLineNo);
/*
* Make sure we've got a root node (it has no actual OID componet value,
* it's just a place to put the top level children).
*/
if (!g_pOidRoot)
{
g_pOidRoot = (PRAWOIDNODE)calloc(sizeof(*g_pOidRoot), 1);
if (!g_pOidRoot)
return error("Out of memory!\n");
}
/*
* Decend into the tree, adding any missing nodes as we go along.
* We'll end up with the node which is being named.
*/
PRAWOIDNODE pCur = g_pOidRoot;
while (cComponents-- > 0)
{
uint32_t const uKey = *pauComponents++;
uint32_t i = pCur->cChildren;
while ( i > 0
&& pCur->papChildren[i - 1]->uKey >= uKey)
i--;
if ( i < pCur->cChildren
&& pCur->papChildren[i]->uKey == uKey)
pCur = pCur->papChildren[i];
else
{
/* Resize the child pointer array? */
if ((pCur->cChildren % 16) == 0)
{
void *pvNew = realloc(pCur->papChildren, sizeof(pCur->papChildren[0]) * (pCur->cChildren + 16));
if (!pvNew)
return error("Out of memory!\n");
pCur->papChildren = (PRAWOIDNODE *)pvNew;
}
/* Allocate and initialize the node. */
PRAWOIDNODE pNew = (PRAWOIDNODE)malloc(sizeof(*pNew));
if (!pNew)
return error("Out of memory!\n");
pNew->uKey = uKey;
pNew->pParent = pCur;
pNew->papChildren = NULL;
pNew->cChildren = 0;
pNew->fChildrenInBigTable = false;
memset(&pNew->StrTabEntry, 0, sizeof(pNew->StrTabEntry));
/* Insert it. */
if (i < pCur->cChildren)
memmove(&pCur->papChildren[i + 1], &pCur->papChildren[i], (pCur->cChildren - i) * sizeof(pCur->papChildren[0]));
pCur->papChildren[i] = pNew;
pCur->cChildren++;
if (pCur->cChildren > g_cMaxOidChildren)
g_cMaxOidChildren = pCur->cChildren;
g_cOidNodes++;
if (uKey < 64)
g_cOidNodiesWith6bitKeys++;
else
{
pCur->fChildrenInBigTable = true;
if (!pCur->pParent)
return error("Invalid OID! Top level componet value is out of range: %u (max 2)\n", uKey);
}
/* Decend (could optimize insertion of the remaining nodes, but
too much work for very little gain). */
pCur = pNew;
}
}
/*
* Update the node.
*/
if (!pCur->StrTabEntry.pszString)
{
pCur->StrTabEntry.pszString = (char *)malloc(cchName + 1);
if (pCur->StrTabEntry.pszString)
memcpy(pCur->StrTabEntry.pszString, pszName, cchName + 1);
else
return error("Out of memory!\n");
pCur->StrTabEntry.cchString = cchName;
if (cchName >= 64)
pCur->fChildrenInBigTable = true;
g_cOidNodesWithStrings++;
}
/* Ignore duplicates, but warn if different name. */
else if ( pCur->StrTabEntry.cchString != cchName
|| strcmp(pszName, pCur->StrTabEntry.pszString) != 0)
warning("%s(%d): Duplicate OID, name differs: '%s' vs '%s'\n", pszFile, iLineNo, pCur->StrTabEntry.pszString, pszName);
return RTEXITCODE_SUCCESS;
}
static RTEXITCODE parseOid(uint32_t *pauComponents, unsigned *pcComponents, unsigned cMaxComponents, char const *pszOid,
const char *pszFile, unsigned iLine)
{
const char *pszInput = pszOid;
unsigned i = 0;
char ch;
for (;;)
{
/*
* Parse the value.
*/
unsigned uValue = 0;
if (RT_C_IS_DIGIT((ch = *pszOid)))
{
do
{
uValue *= 10;
uValue += ch - '0';
if (uValue < OID2C_MAX_COMP_VALUE)
pszOid++;
else
return warning("%s(%d): Component %u in OID attribute value '%s' is out side the supported!\n",
pszFile, iLine, i, pszInput);
} while (RT_C_IS_DIGIT((ch = *pszOid)));
if ( ch == '\0'
|| ch == '.'
|| RT_C_IS_BLANK(ch))
{
if (i < cMaxComponents)
{
pauComponents[i] = uValue;
i++;
if (ch != '\0')
pszOid++;
else
{
*pcComponents = i;
return RTEXITCODE_SUCCESS;
}
}
else
return warning("%s(%d): Too many OID components in '%s'!\n", pszFile, iLine, pszInput);
}
else
return warning("%s(%d): Invalid OID attribute value '%s' (ch=%c)!\n", pszFile, iLine, pszInput, ch);
}
else
return warning("%s(%d): Invalid OID attribute value '%s' (ch=%c)!\n", pszFile, iLine, pszInput, ch);
}
}
static RTEXITCODE loadOidFile(FILE *pIn, const char *pszFile)
{
/*
* We share the format used by dumpasn1.cfg, except that we accept
* dotted OIDs.
*
* An OID entry starts with a 'OID = <space or dot separated OID>'.
* It is usually followed by an 'Comment = ', which we ignore, and a
* 'Description = <name>' which we keep. We save the entry once we
* see the description attribute.
*/
unsigned cOidComponents = 0;
uint32_t auOidComponents[16];
unsigned iLineNo = 0;
char szLine[16384];
char *pszLine;
szLine[sizeof(szLine) - 1] = '\0';
while ((pszLine = fgets(szLine, sizeof(szLine) - 1, pIn)) != NULL)
{
iLineNo++;
/* Strip leading spaces.*/
char ch;
while (RT_C_IS_SPACE((ch = *pszLine)) )
pszLine++;
/* We only care about lines starting with 'OID =', 'Description =' or
a numbered OID. */
if ( ch == 'O' || ch == 'o'
|| ch == 'D' || ch == 'd'
|| ch == '0' || ch == '1' || ch == '2')
{
/* Right strip the line. */
size_t cchLine = strlen(pszLine);
while (cchLine > 0 && RT_C_IS_SPACE(pszLine[cchLine - 1]))
cchLine--;
pszLine[cchLine] = '\0';
/* Separate the attribute name from the value. */
char *pszValue = (char *)memchr(pszLine, '=', cchLine);
if (pszValue)
{
size_t cchName = pszValue - pszLine;
/* Right strip the name. */
while (cchName > 0 && RT_C_IS_SPACE(pszLine[cchName - 1]))
cchName--;
pszLine[cchName] = '\0';
/* Left strip the value. */
do
pszValue++;
while (RT_C_IS_SPACE(*pszValue));
/* Attribute switch */
if ( cchName == 3
&& (pszLine[0] == 'O' || pszLine[0] == 'o')
&& (pszLine[1] == 'I' || pszLine[1] == 'i')
&& (pszLine[2] == 'D' || pszLine[2] == 'd'))
{
cOidComponents = 0;
parseOid(auOidComponents, &cOidComponents, RT_ELEMENTS(auOidComponents), pszValue, pszFile, iLineNo);
}
else if ( cchName == 11
&& (pszLine[0] == 'D' || pszLine[0] == 'd')
&& (pszLine[1] == 'e' || pszLine[1] == 'E')
&& (pszLine[2] == 's' || pszLine[2] == 'S')
&& (pszLine[3] == 'c' || pszLine[3] == 'C')
&& (pszLine[4] == 'r' || pszLine[4] == 'R')
&& (pszLine[5] == 'i' || pszLine[5] == 'I')
&& (pszLine[6] == 'p' || pszLine[6] == 'P')
&& (pszLine[7] == 't' || pszLine[7] == 'T')
&& (pszLine[8] == 'i' || pszLine[8] == 'I')
&& (pszLine[9] == 'o' || pszLine[9] == 'O')
&& (pszLine[10] == 'n' || pszLine[10] == 'N'))
{
if ( addOidToTree(auOidComponents, cOidComponents, pszValue, pszFile, iLineNo)
!= RTEXITCODE_SUCCESS)
return RTEXITCODE_FAILURE;
cOidComponents = 0;
}
else
{
/* <OID> = <Value> */
cOidComponents = 0;
if ( parseOid(auOidComponents, &cOidComponents, RT_ELEMENTS(auOidComponents), pszLine, pszLine, iLineNo)
== RTEXITCODE_SUCCESS)
{
if ( addOidToTree(auOidComponents, cOidComponents, pszValue, pszFile, iLineNo)
!= RTEXITCODE_SUCCESS)
return RTEXITCODE_FAILURE;
}
cOidComponents = 0;
}
}
}
}
if (feof(pIn))
return RTEXITCODE_SUCCESS;
return error("error or something reading '%s'.\n", pszFile);
}
static RTEXITCODE usage(FILE *pOut, const char *argv0, RTEXITCODE rcExit)
{
fprintf(pOut, "usage: %s <out-file.c> <oid-file> [oid-file2 [...]]\n", argv0);
return rcExit;
}
int main(int argc, char **argv)
{
/*
* Process arguments and input files.
*/
bool fVerbose = false;
unsigned cInFiles = 0;
const char *pszOutFile = NULL;
for (int i = 1; i < argc; i++)
{
const char *pszFile = NULL;
if (argv[i][0] != '-')
pszFile = argv[i];
else if (!strcmp(argv[i], "-"))
pszFile = argv[i];
else
return usage(stderr, argv[0], RTEXITCODE_SYNTAX);
if (!pszOutFile)
pszOutFile = pszFile;
else
{
cInFiles++;
FILE *pInFile = fopen(pszFile, "r");
if (!pInFile)
return error("opening '%s' for reading.\n", pszFile);
RTEXITCODE rcExit = loadOidFile(pInFile, pszFile);
fclose(pInFile);
if (rcExit != RTEXITCODE_SUCCESS)
return rcExit;
}
}
/*
* Check that the user specified at least one input and an output file.
*/
if (!pszOutFile)
return error("No output file specified specified!\n");
if (!cInFiles)
return error("No input files specified!\n");
if (!g_cOidNodes)
return error("No OID found!\n");
if (fVerbose)
printf("debug: %u nodes with strings; %u nodes without strings; %u nodes in total;\n"
"debug: max %u children; %u nodes with 6-bit keys (%u others)\n",
g_cOidNodesWithStrings, g_cOidNodes - g_cOidNodesWithStrings, g_cOidNodes,
g_cMaxOidChildren, g_cOidNodiesWith6bitKeys, g_cOidNodes - g_cOidNodiesWith6bitKeys);
/*
* Compile the string table.
*/
BLDPROGSTRTAB StrTab;
if (!BldProgStrTab_Init(&StrTab, g_cOidNodesWithStrings))
return error("Out of memory!\n");
addStringFromOidTree(g_pOidRoot, &StrTab);
if (!BldProgStrTab_CompileIt(&StrTab, fVerbose))
return error("BldProgStrTab_CompileIt failed!\n");
/*
* Open the output file and write out the stuff.
*/
FILE *pOut;
if (!strcmp(pszOutFile, "-"))
pOut = stdout;
else
pOut = fopen(pszOutFile, "w");
if (!pOut)
return error("opening '%s' for writing.\n", pszOutFile);
/* Write the string table. */
BldProgStrTab_WriteStringTable(&StrTab, pOut, "static ", "g_", "OidDbStrTab");
prepareOidTreeForWriting(g_pOidRoot, 0, false /*fBigTable*/);
prepareOidTreeForWriting(g_pOidRoot, 0, true /*fBigTable*/);
fprintf(pOut,
"\n"
"#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)\n"
"# pragma pack(2)\n"
"#endif\n"
"typedef struct RTOIDENTRYSMALL\n"
"{\n"
" uint32_t uKey : 6;\n"
" uint32_t cchString : 6;\n"
" uint32_t fBigTable : 1;\n"
" uint32_t cChildren : 7;\n"
" uint32_t idxChildren : 12;\n"
" uint16_t offString;\n"
"} RTOIDENTRYSMALL;\n"
"#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)\n"
"# pragma pack()\n"
"AssertCompileSize(RTOIDENTRYSMALL, 6);\n"
"#endif\n"
"typedef RTOIDENTRYSMALL const *PCRTOIDENTRYSMALL;\n"
"\n"
"static const RTOIDENTRYSMALL g_aSmallOidTable[] = \n{\n");
writeOidTree(g_pOidRoot, pOut, false /*fBigTable*/, &StrTab);
fprintf(pOut, "};\n");
fprintf(pOut,
"\n"
"#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)\n"
"# pragma pack(2)\n"
"#endif\n"
"typedef struct RTOIDENTRYBIG\n"
"{\n"
" uint32_t uKey;\n"
" uint8_t cchString;\n"
" uint8_t fBigTable : 1;\n"
" uint8_t cChildren : 7;\n"
" uint16_t idxChildren;\n"
" uint16_t offString;\n"
"} RTOIDENTRYBIG;\n"
"#if defined(RT_ARCH_AMD64) || defined(RT_ARCH_X86)\n"
"# pragma pack()\n"
"AssertCompileSize(RTOIDENTRYBIG, 10);\n"
"#endif\n"
"typedef RTOIDENTRYBIG const *PCRTOIDENTRYBIG;\n"
"\n"
"static const RTOIDENTRYBIG g_aBigOidTable[] = \n{\n");
writeOidTree(g_pOidRoot, pOut, true /*fBigTable*/, &StrTab);
fprintf(pOut, "};\n");
/* Carefully close the output file. */
if (ferror(pOut))
return error("problem writing '%s'!\n", pszOutFile);
if (fclose(pOut) != 0)
return error("closing '%s' after writing it.\n", pszOutFile);
return RTEXITCODE_SUCCESS;
}
|