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NSIS/Source/Plugins.cpp
anders_k 7cc150c464 MakeNSIS can now generate Unicode or Ansi installers based on a script attribute. SCons generates both Ansi and Unicode stubs and plugins. 
The official plugins are now stored in architecture specific subdirectories under NSIS\Plugins. !AddPluginDir also gained a new (optional) architecture flag because MakeNSIS now stores separate plugin information for each target architecture. Storing plugins in the root of the Plugins directory is no longer supported.

MinGW does not implement the unicode CRT startup functions so the entry point functions and linker parameters had to be changed. The unicode tools use the ansi entry point and a small helper function that calls into the real code: _tmain has full argc+argv emulation while wWinMain does not pass the command line parameters. The stubs do not use any CRT functions and have no CRT or unicode helper code, they call our entry point directly.



git-svn-id: https://svn.code.sf.net/p/nsis/code/NSIS/trunk@6269 212acab6-be3b-0410-9dea-997c60f758d6
2012-10-13 01:47:50 +00:00

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/*
* Plugins.cpp
*
* This file is a part of NSIS.
*
* Copyright (C) 1999-2009 Nullsoft and Contributors
*
* Licensed under the zlib/libpng license (the "License");
* you may not use this file except in compliance with the License.
*
* Licence details can be found in the file COPYING.
*
* This software is provided 'as-is', without any express or implied
* warranty.
*/
#include "exehead/config.h"
#ifdef NSIS_CONFIG_PLUGIN_SUPPORT
#include <map>
#include "tstring.h"
#include <fstream>
#include "Plugins.h"
#include "Platform.h"
#include "util.h"
#include "ResourceEditor.h"
#include "dirreader.h"
#ifdef _WIN32
# include <winnt.h>
#else
# include <sys/stat.h>
#endif
#include "boost/scoped_ptr.hpp"
using namespace std;
extern FILE *g_output;
namespace {
template <class C, class K>
bool contains(const C& cntnr, const K& key)
{
return cntnr.find(key) != cntnr.end();
}
template <class C, class K>
const typename C::const_iterator get_iterator(const C& cntnr, const K& key)
{
assert( contains(cntnr, key) );
return cntnr.find(key);
}
template <class C, class K>
typename C::const_iterator::value_type get_value(const C& cntnr, const K& key)
{
return *get_iterator(cntnr,key);
}
template <class C, class K>
typename C::value_type::second_type get_paired_value(const C& cntnr, const K& key)
{
return get_iterator(cntnr,key)->second;
}
template <class V,class C, class K>
V get_paired_value(const C& cntnr, const K& key, const V& defval)
{
typename C::const_iterator it = cntnr.find(key);
return cntnr.end() == it ? defval : it->second;
}
}
static inline tstring GetDllName(const tstring&command)
{
return get_string_prefix(command, _T("::"));
}
static inline void PrintCommandSig(const tstring sig)
{
_ftprintf(g_output, _T(" + %s\n"), sig.c_str());
}
void Plugins::AddPluginsDir(const tstring &path, bool displayInfo)
{
boost::scoped_ptr<dir_reader> dr( new_dir_reader() );
dr->read(path);
for (dir_reader::iterator files_itr = dr->files().begin();
files_itr != dr->files().end();
files_itr++) // note: files are listed alphabetically, so plugin.dll will be listed before pluginW.dll
{
if (!dir_reader::matches(*files_itr, _T("*.dll")))
continue;
const tstring plugin = path + PLATFORM_PATH_SEPARATOR_C + *files_itr;
GetExports(plugin, displayInfo);
}
}
// VC6 cannot handle NSISException(const tstring& msg) : std::runtime_error(string(TtoCString(msg))) {}
struct NSISExceptionInner : public std::runtime_error
{
NSISExceptionInner(const char* msg) : std::runtime_error(string(msg)) {} // Unicode
NSISExceptionInner(const string&msg) : std::runtime_error(msg) {} // Ansi
};
struct NSISException : public NSISExceptionInner
{
NSISException(const tstring& msg) : NSISExceptionInner(TtoCString(msg)) {}
};
namespace {
// This function slurps the whole file into the vector.
// Modified so the huge vector isn't returned by value.
void read_file(const tstring& filename, vector<unsigned char>& data)
{
FILE*file = FOPEN(filename.c_str(), ("rb"));
if (!file) throw NSISException(_T("Can't open file '") + filename + _T("'"));
MANAGE_WITH(file, fclose);
bool succ = false;
if (!fseek(file, 0, SEEK_END))
{
const long filesize = ftell(file);
rewind(file);
data.resize(filesize);
size_t cbio = fread(reinterpret_cast<char*>(&data[0]), 1, filesize, file);
succ = cbio == (unsigned)filesize;
}
if (!succ) throw NSISException(_T("Couldn't read entire file '") + filename + _T("'"));
}
}
void Plugins::GetExports(const tstring &pathToDll, bool displayInfo)
{
vector<unsigned char> dlldata;
PIMAGE_NT_HEADERS NTHeaders;
try {
read_file(pathToDll, dlldata);
if (dlldata.empty()) return;
NTHeaders = CResourceEditor::GetNTHeaders(&dlldata[0]);
} catch (std::runtime_error&) {
return;
}
tstring dllName = remove_file_extension(get_file_name(pathToDll));
if (DllHasDataHandle(dllName))
{
m_dllname_conflicts.insert(dllName);
}
FIX_ENDIAN_INT16_INPLACE(NTHeaders->FileHeader.Characteristics);
if (NTHeaders->FileHeader.Characteristics & IMAGE_FILE_DLL)
{
FIX_ENDIAN_INT32_INPLACE(NTHeaders->OptionalHeader.NumberOfRvaAndSizes);
if (NTHeaders->OptionalHeader.NumberOfRvaAndSizes <= IMAGE_DIRECTORY_ENTRY_EXPORT) return;
DWORD ExportDirVA = NTHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].VirtualAddress;
DWORD ExportDirSize = NTHeaders->OptionalHeader.DataDirectory[IMAGE_DIRECTORY_ENTRY_EXPORT].Size;
PIMAGE_SECTION_HEADER sections = IMAGE_FIRST_SECTION(NTHeaders);
FIX_ENDIAN_INT32_INPLACE(ExportDirVA);
FIX_ENDIAN_INT32_INPLACE(ExportDirSize);
WORD num_sections = FIX_ENDIAN_INT16(NTHeaders->FileHeader.NumberOfSections);
for (DWORD i = 0; i < num_sections; i++)
{
DWORD va = FIX_ENDIAN_INT32(sections[i].VirtualAddress);
if (va <= ExportDirVA
&& va + FIX_ENDIAN_INT32(sections[i].Misc.VirtualSize) >= ExportDirVA + ExportDirSize)
{
DWORD prd = FIX_ENDIAN_INT32(sections[i].PointerToRawData);
PIMAGE_EXPORT_DIRECTORY exports = PIMAGE_EXPORT_DIRECTORY(&dlldata[0] + prd + ExportDirVA - va);
DWORD na = FIX_ENDIAN_INT32(exports->AddressOfNames);
LPDWORD names = (LPDWORD)((ULONG_PTR)exports + na - ExportDirVA);
for (DWORD j = 0; j < FIX_ENDIAN_INT32(exports->NumberOfNames); j++)
{
if (0 == j) m_dllname_to_path[dllName] = pathToDll;
const string name = string((char*)exports + FIX_ENDIAN_INT32(names[j]) - ExportDirVA);
const tstring canoniccmd = dllName + _T("::") + tstring(CtoTString(name));
if (displayInfo)
{
bool hadCmd = contains(m_commands, canoniccmd);
if (!hadCmd) PrintCommandSig(canoniccmd);
}
m_commands.insert(canoniccmd);
}
break;
}
}
}
}
int Plugins::GetDllDataHandle(bool uninst, const tstring& command) const
{
const tstring dllname = GetDllName(command);
if (uninst)
return get_paired_value(m_dllname_to_unst_datahandle, dllname, -1);
else
return get_paired_value(m_dllname_to_inst_datahandle, dllname, -1);
}
void Plugins::SetDllDataHandle(bool uninst, tstring&canoniccmd, int dataHandle)
{
const tstring dllname = GetDllName(canoniccmd);
if (uninst)
m_dllname_to_unst_datahandle[dllname] = dataHandle;
else
m_dllname_to_inst_datahandle[dllname] = dataHandle;
}
bool Plugins::DllHasDataHandle(const tstring& dllnamelowercase) const
{
int h = GetDllDataHandle(false, dllnamelowercase);
if (-1 == h) h = GetDllDataHandle(true, dllnamelowercase);
return -1 != h;
}
bool Plugins::Initialize(const TCHAR*arcsubdir, bool displayInfo)
{
if (m_initialized) return true;
m_initialized = true;
AddPluginsDir(tstring(arcsubdir), displayInfo);
return true;
}
bool Plugins::GetCommandInfo(const tstring&command, tstring&canoniccmd, tstring&dllPath)
{
const tstring dllname = GetDllName(command);
dllPath = get_paired_value(m_dllname_to_path, dllname);
canoniccmd = get_value(m_commands, command);
return !contains(m_dllname_conflicts, dllname);
}
bool Plugins::IsPluginCommand(const tstring& token) const
{
return contains(m_commands, token);
}
#endif
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