merge r67228-r67235, r67237, r67251 and r67256-67259 to trunk (they are

[mono.git] / mono / metadata / assembly.c

/*
 * assembly.c: Routines for loading assemblies.
 * 
 * Author:
 *   Miguel de Icaza (miguel@ximian.com)
 *
 * (C) 2001 Ximian, Inc.  http://www.ximian.com
 *
 */
#include <config.h>
#include <stdio.h>
#include <glib.h>
#include <errno.h>
#include <string.h>
#include <stdlib.h>
#include "assembly.h"
#include "image.h"
#include "cil-coff.h"
#include "rawbuffer.h"
#include <mono/metadata/loader.h>
#include <mono/metadata/tabledefs.h>
#include <mono/metadata/metadata-internals.h>
#include <mono/metadata/class-internals.h>
#include <mono/metadata/domain-internals.h>
#include <mono/metadata/mono-endian.h>
#include <mono/io-layer/io-layer.h>
#include <mono/utils/mono-uri.h>
#include <mono/metadata/mono-config.h>
#include <mono/utils/mono-digest.h>
#include <mono/utils/mono-logger.h>
#include <mono/metadata/reflection.h>

#ifndef PLATFORM_WIN32
#include <sys/types.h>
#include <unistd.h>
#include <sys/stat.h>
#endif

/* AssemblyVersionMap: an assembly name and the assembly version set on which it is based */
typedef struct  {
        const char* assembly_name;
        guint8 version_set_index;
} AssemblyVersionMap;

/* the default search path is empty, the first slot is replaced with the computed value */
static const char*
default_path [] = {
        NULL,
        NULL
};

/* Contains the list of directories to be searched for assemblies (MONO_PATH) */
static char **assemblies_path = NULL;

/* Contains the list of directories that point to auxiliary GACs */
static char **extra_gac_paths = NULL;

/* The list of system assemblies what will be remapped to the running
 * runtime version. WARNING: this list must be sorted.
 */
static const AssemblyVersionMap framework_assemblies [] = {
        {"Accessibility", 0},
        {"Commons.Xml.Relaxng", 0},
        {"I18N", 0},
        {"I18N.CJK", 0},
        {"I18N.MidEast", 0},
        {"I18N.Other", 0},
        {"I18N.Rare", 0},
        {"I18N.West", 0},
        {"Microsoft.VisualBasic", 1},
        {"Microsoft.VisualC", 1},
        {"Mono.Cairo", 0},
        {"Mono.CompilerServices.SymbolWriter", 0},
        {"Mono.Data", 0},
        {"Mono.Data.SqliteClient", 0},
        {"Mono.Data.SybaseClient", 0},
        {"Mono.Data.Tds", 0},
        {"Mono.Data.TdsClient", 0},
        {"Mono.GetOptions", 0},
        {"Mono.Http", 0},
        {"Mono.Posix", 0},
        {"Mono.Security", 0},
        {"Mono.Security.Win32", 0},
        {"Mono.Xml.Ext", 0},
        {"Novell.Directory.Ldap", 0},
        {"Npgsql", 0},
        {"PEAPI", 0},
        {"System", 0},
        {"System.Configuration.Install", 0},
        {"System.Data", 0},
        {"System.Data.OracleClient", 0},
        {"System.Data.SqlXml", 0},
        {"System.Design", 0},
        {"System.DirectoryServices", 0},
        {"System.Drawing", 0},
        {"System.Drawing.Design", 0},
        {"System.EnterpriseServices", 0},
        {"System.Management", 0},
        {"System.Messaging", 0},
        {"System.Runtime.Remoting", 0},
        {"System.Runtime.Serialization.Formatters.Soap", 0},
        {"System.Security", 0},
        {"System.ServiceProcess", 0},
        {"System.Web", 0},
        {"System.Web.Mobile", 0},
        {"System.Web.Services", 0},
        {"System.Windows.Forms", 0},
        {"System.Xml", 0},
        {"mscorlib", 0}
};

/*
 * keeps track of loaded assemblies
 */
static GList *loaded_assemblies = NULL;
static MonoAssembly *corlib;

/* This protects loaded_assemblies and image->references */
#define mono_assemblies_lock() EnterCriticalSection (&assemblies_mutex)
#define mono_assemblies_unlock() LeaveCriticalSection (&assemblies_mutex)
static CRITICAL_SECTION assemblies_mutex;

/* A hastable of thread->assembly list mappings */
static GHashTable *assemblies_loading;

/* A hashtable of reflection only load thread->assemblies mappings */
static GHashTable *assemblies_refonly_loading;

/* If defined, points to the bundled assembly information */
const MonoBundledAssembly **bundles;

/* Loaded assembly binding info */
static GSList *loaded_assembly_bindings = NULL;

static MonoAssembly*
mono_assembly_invoke_search_hook_internal (MonoAssemblyName *aname, gboolean refonly, gboolean postload);

static gchar*
encode_public_tok (const guchar *token, gint32 len)
{
        const static gchar allowed [] = { '0', '1', '2', '3', '4', '5', '6', '7', '8', '9', 'a', 'b', 'c', 'd', 'e', 'f' };
        gchar *res;
        int i;

        res = g_malloc (len * 2 + 1);
        for (i = 0; i < len; i++) {
                res [i * 2] = allowed [token [i] >> 4];
                res [i * 2 + 1] = allowed [token [i] & 0xF];
        }
        res [len * 2] = 0;
        return res;
}

static void
check_path_env (void)
{
        const char *path;
        char **splitted;
        
        path = g_getenv ("MONO_PATH");
        if (!path)
                return;

        splitted = g_strsplit (path, G_SEARCHPATH_SEPARATOR_S, 1000);
        if (assemblies_path)
                g_strfreev (assemblies_path);
        assemblies_path = splitted;
        if (g_getenv ("MONO_DEBUG") == NULL)
                return;

        while (*splitted) {
                if (**splitted && !g_file_test (*splitted, G_FILE_TEST_IS_DIR))
                        g_warning ("'%s' in MONO_PATH doesn't exist or has wrong permissions.", *splitted);

                splitted++;
        }
}

static void
check_extra_gac_path_env (void) {
        const char *path;
        char **splitted;
        
        path = g_getenv ("MONO_GAC_PREFIX");
        if (!path)
                return;

        splitted = g_strsplit (path, G_SEARCHPATH_SEPARATOR_S, 1000);
        if (extra_gac_paths)
                g_strfreev (extra_gac_paths);
        extra_gac_paths = splitted;
        if (g_getenv ("MONO_DEBUG") == NULL)
                return;

        while (*splitted) {
                if (**splitted && !g_file_test (*splitted, G_FILE_TEST_IS_DIR))
                        g_warning ("'%s' in MONO_GAC_PATH doesn't exist or has wrong permissions.", *splitted);

                splitted++;
        }
}

static gboolean
assembly_binding_maps_name (MonoAssemblyBindingInfo *info, MonoAssemblyName *aname)
{
        if (strcmp (info->name, aname->name))
                return FALSE;

        if (info->major != aname->major || info->minor != aname->minor)
                return FALSE;

        if ((info->culture != NULL) != (aname->culture != NULL))
                return FALSE;
        
        if (info->culture && strcmp (info->culture, aname->culture))
                return FALSE;
        
        if (strcmp ((const char *)info->public_key_token, (const char *)aname->public_key_token))
                return FALSE;

        return TRUE;
}

static void
mono_assembly_binding_info_free (MonoAssemblyBindingInfo *info)
{
        g_free (info->name);
        g_free (info->culture);
}

static void
get_publisher_policy_info (MonoImage *image, MonoAssemblyName *aname, MonoAssemblyBindingInfo *binding_info)
{
        MonoTableInfo *t;
        guint32 cols [MONO_MANIFEST_SIZE];
        const gchar *filename;
        gchar *subpath, *fullpath;

        t = &image->tables [MONO_TABLE_MANIFESTRESOURCE];
        /* MS Impl. accepts policy assemblies with more than
         * one manifest resource, and only takes the first one */
        if (t->rows < 1) {
                binding_info->is_valid = FALSE;
                return;
        }
        
        mono_metadata_decode_row (t, 0, cols, MONO_MANIFEST_SIZE);
        if ((cols [MONO_MANIFEST_IMPLEMENTATION] & MONO_IMPLEMENTATION_MASK) != MONO_IMPLEMENTATION_FILE) {
                binding_info->is_valid = FALSE;
                return;
        }
        
        filename = mono_metadata_string_heap (image, cols [MONO_MANIFEST_NAME]);
        g_assert (filename != NULL);
        
        subpath = g_path_get_dirname (image->name);
        fullpath = g_build_path (G_DIR_SEPARATOR_S, subpath, filename, NULL);
        mono_config_parse_publisher_policy (fullpath, binding_info);
        g_free (subpath);
        g_free (fullpath);
        
        /* Define the optional elements/attributes before checking */
        if (!binding_info->culture)
                binding_info->culture = g_strdup ("");
        
        /* Check that the most important elements/attributes exist */
        if (!binding_info->name || !binding_info->public_key_token [0] || !binding_info->has_old_version_bottom ||
                        !binding_info->has_new_version || !assembly_binding_maps_name (binding_info, aname)) {
                mono_assembly_binding_info_free (binding_info);
                binding_info->is_valid = FALSE;
                return;
        }

        binding_info->is_valid = TRUE;
}

static int
compare_versions (AssemblyVersionSet *v, MonoAssemblyName *aname)
{
        if (v->major > aname->major)
                return 1;
        else if (v->major < aname->major)
                return -1;

        if (v->minor > aname->minor)
                return 1;
        else if (v->minor < aname->minor)
                return -1;

        if (v->build > aname->build)
                return 1;
        else if (v->build < aname->build)
                return -1;

        if (v->revision > aname->revision)
                return 1;
        else if (v->revision < aname->revision)
                return -1;

        return 0;
}

static gboolean
check_policy_versions (MonoAssemblyBindingInfo *info, MonoAssemblyName *name)
{
        if (!info->is_valid)
                return FALSE;
        
        /* If has_old_version_top doesn't exist, we don't have an interval */
        if (!info->has_old_version_top) {
                if (compare_versions (&info->old_version_bottom, name) == 0)
                        return TRUE;

                return FALSE;
        }

        /* Check that the version defined by name is valid for the interval */
        if (compare_versions (&info->old_version_top, name) < 0)
                return FALSE;

        /* We should be greater or equal than the small version */
        if (compare_versions (&info->old_version_bottom, name) > 0)
                return FALSE;

        return TRUE;
}

/**
 * mono_assembly_names_equal:
 * @l: first assembly
 * @r: second assembly.
 *
 * Compares two MonoAssemblyNames and returns whether they are equal.
 * This compares the names, the cultures, the release version and their
 * public tokens.
 *
 * Returns: TRUE if both assembly names are equal.
 */
gboolean
mono_assembly_names_equal (MonoAssemblyName *l, MonoAssemblyName *r)
{
        if (!l->name || !r->name)
                return FALSE;

        if (strcmp (l->name, r->name))
                return FALSE;

        if (l->culture && r->culture && strcmp (l->culture, r->culture))
                return FALSE;

        if (l->major != r->major || l->minor != r->minor ||
                        l->build != r->build || l->revision != r->revision)
                if (! ((l->major == 0 && l->minor == 0 && l->build == 0 && l->revision == 0) || (r->major == 0 && r->minor == 0 && r->build == 0 && r->revision == 0)))
                        return FALSE;

        if (!l->public_key_token [0] || !r->public_key_token [0])
                return TRUE;

        if (strcmp ((char*)l->public_key_token, (char*)r->public_key_token))
                return FALSE;

        return TRUE;
}

static MonoAssembly*
search_loaded (MonoAssemblyName* aname, gboolean refonly)
{
        GList *tmp;
        MonoAssembly *ass;
        GList *loading;

        ass = mono_assembly_invoke_search_hook_internal (aname, refonly, FALSE);
        if (ass)
                return ass;
        
        /*
         * The assembly might be under load by this thread. In this case, it is
         * safe to return an incomplete instance to prevent loops.
         */
        loading = g_hash_table_lookup (refonly ? assemblies_refonly_loading : assemblies_loading, (gpointer)GetCurrentThreadId ());
        for (tmp = loading; tmp; tmp = tmp->next) {
                ass = tmp->data;
                if (!mono_assembly_names_equal (aname, &ass->aname))
                        continue;

                return ass;
        }

        return NULL;
}

static MonoAssembly *
load_in_path (const char *basename, const char** search_path, MonoImageOpenStatus *status, MonoBoolean refonly)
{
        int i;
        char *fullpath;
        MonoAssembly *result;

        for (i = 0; search_path [i]; ++i) {
                fullpath = g_build_filename (search_path [i], basename, NULL);
                result = mono_assembly_open_full (fullpath, status, refonly);
                g_free (fullpath);
                if (result)
                        return result;
        }
        return NULL;
}

/**
 * mono_assembly_setrootdir:
 * @root_dir: The pathname of the root directory where we will locate assemblies
 *
 * This routine sets the internal default root directory for looking up
 * assemblies.  This is used by Windows installations to compute dynamically
 * the place where the Mono assemblies are located.
 *
 */
void
mono_assembly_setrootdir (const char *root_dir)
{
        /*
         * Override the MONO_ASSEMBLIES directory configured at compile time.
         */
        /* Leak if called more than once */
        default_path [0] = g_strdup (root_dir);
}

/**
 * mono_assembly_getrootdir:
 *
 * Returns: The internal root directory used for looking up assemblies
 */
G_CONST_RETURN gchar *
mono_assembly_getrootdir (void)
{
        return default_path [0];
}

/**
 * mono_set_dirs:
 * @assembly_dir: the base directory for assemblies
 * @config_dir: the base directory for configuration files
 *
 * This routine is used internally and by developers embedding
 * the runtime into their own applications.  There are a number
 * of cases to consider: Mono as a system-installed package that
 * is available on the location preconfigured or Mono in a relocated
 * location.
 *
 * If you are using a system-installed Mono, you can pass NULL
 * to both parameters.  If you are not, you should compute both
 * directory values and call this routine.
 *
 * The values for a given PREFIX are:
 *
 *    assembly_dir: PREFIX/lib
 *    config_dir:   PREFIX/etc
 *
 * Notice that embedders that use Mono in a relocated way must
 * compute the location at runtime, as they will be in control
 * of where Mono is installed.
 */
void
mono_set_dirs (const char *assembly_dir, const char *config_dir)
{
#if defined (MONO_ASSEMBLIES)
        if (assembly_dir == NULL)
                assembly_dir = MONO_ASSEMBLIES;
#endif
#if defined (MONO_CFG_DIR)
        if (config_dir == NULL)
                config_dir = MONO_CFG_DIR;
#endif
        mono_assembly_setrootdir (assembly_dir);
        mono_set_config_dir (config_dir);
}

#ifndef PLATFORM_WIN32

static char *
compute_base (char *path)
{
        char *p = rindex (path, '/');
        if (p == NULL)
                return NULL;

        /* Not a well known Mono executable, we are embedded, cant guess the base  */
        if (strcmp (p, "/mono") && strcmp (p, "/monodis") && strcmp (p, "/mint") && strcmp (p, "/monodiet"))
                return NULL;
            
        *p = 0;
        p = rindex (path, '/');
        if (p == NULL)
                return NULL;
        
        if (strcmp (p, "/bin") != 0)
                return NULL;
        *p = 0;
        return path;
}

static void
fallback (void)
{
        mono_set_dirs (MONO_ASSEMBLIES, MONO_CFG_DIR);
}

static void
set_dirs (char *exe)
{
        char *base;
        char *config, *lib, *mono;
        struct stat buf;
        
        /*
         * Only /usr prefix is treated specially
         */
        if (strncmp (exe, MONO_BINDIR, strlen (MONO_BINDIR)) == 0 || (base = compute_base (exe)) == NULL){
                fallback ();
                return;
        }

        config = g_build_filename (base, "etc", NULL);
        lib = g_build_filename (base, "lib", NULL);
        mono = g_build_filename (lib, "mono/1.0", NULL);
        if (stat (mono, &buf) == -1)
                fallback ();
        else {
                mono_set_dirs (lib, config);
        }
        
        g_free (config);
        g_free (lib);
        g_free (mono);
}

#endif /* PLATFORM_WIN32 */

#ifdef UNDER_CE
#undef GetModuleFileName
#define GetModuleFileName ceGetModuleFileNameA

DWORD ceGetModuleFileNameA(HMODULE hModule, char* lpFilename, DWORD nSize)
{
        DWORD res = 0;
        wchar_t* wbuff = (wchar_t*)LocalAlloc(LPTR, nSize*2);
        res = GetModuleFileNameW(hModule, wbuff, nSize);
        if (res) {
                int len = wcslen(wbuff);
                WideCharToMultiByte(CP_ACP, 0, wbuff, len, lpFilename, len, NULL, NULL);
        }
        LocalFree(wbuff);
        return res;
}
#endif

/**
 * mono_set_rootdir:
 *
 * Registers the root directory for the Mono runtime, for Linux and Solaris 10,
 * this auto-detects the prefix where Mono was installed. 
 */
void
mono_set_rootdir (void)
{
#ifdef PLATFORM_WIN32
        gunichar2 moddir [MAXPATHLEN];
        gchar *bindir, *installdir, *root, *utf8name, *config;

        GetModuleFileNameW (NULL, moddir, MAXPATHLEN);
        utf8name = g_utf16_to_utf8 (moddir, -1, NULL, NULL, NULL);
        bindir = g_path_get_dirname (utf8name);
        installdir = g_path_get_dirname (bindir);
        root = g_build_path (G_DIR_SEPARATOR_S, installdir, "lib", NULL);

        config = g_build_filename (root, "..", "etc", NULL);
        mono_set_dirs (root, config);

        g_free (config);
        g_free (root);
        g_free (installdir);
        g_free (bindir);
        g_free (utf8name);
#else
        char buf [4096];
        int  s;
        char *str;

        /* Linux style */
        s = readlink ("/proc/self/exe", buf, sizeof (buf)-1);

        if (s != -1){
                buf [s] = 0;
                set_dirs (buf);
                return;
        }

        /* Solaris 10 style */
        str = g_strdup_printf ("/proc/%d/path/a.out", getpid ());
        s = readlink (str, buf, sizeof (buf)-1);
        g_free (str);
        if (s != -1){
                buf [s] = 0;
                set_dirs (buf);
                return;
        } 
        fallback ();
#endif
}

/**
 * mono_assemblies_init:
 *
 *  Initialize global variables used by this module.
 */
void
mono_assemblies_init (void)
{
        /*
         * Initialize our internal paths if we have not been initialized yet.
         * This happens when embedders use Mono.
         */
        if (mono_assembly_getrootdir () == NULL)
                mono_set_rootdir ();

        check_path_env ();
        check_extra_gac_path_env ();

        InitializeCriticalSection (&assemblies_mutex);

        assemblies_loading = g_hash_table_new (NULL, NULL);
        assemblies_refonly_loading = g_hash_table_new (NULL, NULL);
}

gboolean
mono_assembly_fill_assembly_name (MonoImage *image, MonoAssemblyName *aname)
{
        MonoTableInfo *t = &image->tables [MONO_TABLE_ASSEMBLY];
        guint32 cols [MONO_ASSEMBLY_SIZE];

        if (!t->rows)
                return FALSE;

        mono_metadata_decode_row (t, 0, cols, MONO_ASSEMBLY_SIZE);

        aname->hash_len = 0;
        aname->hash_value = NULL;
        aname->name = mono_metadata_string_heap (image, cols [MONO_ASSEMBLY_NAME]);
        aname->culture = mono_metadata_string_heap (image, cols [MONO_ASSEMBLY_CULTURE]);
        aname->flags = cols [MONO_ASSEMBLY_FLAGS];
        aname->major = cols [MONO_ASSEMBLY_MAJOR_VERSION];
        aname->minor = cols [MONO_ASSEMBLY_MINOR_VERSION];
        aname->build = cols [MONO_ASSEMBLY_BUILD_NUMBER];
        aname->revision = cols [MONO_ASSEMBLY_REV_NUMBER];
        aname->hash_alg = cols [MONO_ASSEMBLY_HASH_ALG];
        if (cols [MONO_ASSEMBLY_PUBLIC_KEY]) {
                gchar* token = g_malloc (8);
                gchar* encoded;
                int len;

                aname->public_key = mono_metadata_blob_heap (image, cols [MONO_ASSEMBLY_PUBLIC_KEY]);
                len = mono_metadata_decode_blob_size (aname->public_key, (const char**)&aname->public_key);

                mono_digest_get_public_token (token, aname->public_key, len);
                encoded = encode_public_tok (token, 8);
                g_strlcpy (aname->public_key_token, encoded, MONO_PUBLIC_KEY_TOKEN_LENGTH);

                g_free (encoded);
                g_free (token);
        }
        else {
                aname->public_key = NULL;
                memset (aname->public_key_token, 0, MONO_PUBLIC_KEY_TOKEN_LENGTH);
        }

        if (cols [MONO_ASSEMBLY_PUBLIC_KEY]) {
                aname->public_key = mono_metadata_blob_heap (image, cols [MONO_ASSEMBLY_PUBLIC_KEY]);
        }
        else
                aname->public_key = 0;

        return TRUE;
}

/*
 * mono_stringify_assembly_name:
 *
 *   Convert @aname into its string format. The returned string is dynamically
 * allocated and should be freed by the caller.
 */
char*
mono_stringify_assembly_name (MonoAssemblyName *aname)
{
        return g_strdup_printf (
                "%s, Version=%d.%d.%d.%d, Culture=%s%s%s",
                aname->name,
                aname->major, aname->minor, aname->build, aname->revision,
                aname->culture && *aname->culture? aname->culture: "neutral",
                aname->public_key_token [0] ? ", PublicKeyToken=" : "",
                aname->public_key_token [0] ? (char *)aname->public_key_token : "");
}

static gchar*
assemblyref_public_tok (MonoImage *image, guint32 key_index, guint32 flags)
{
        const gchar *public_tok;
        int len;

        public_tok = mono_metadata_blob_heap (image, key_index);
        len = mono_metadata_decode_blob_size (public_tok, &public_tok);

        if (flags & ASSEMBLYREF_FULL_PUBLIC_KEY_FLAG) {
                gchar token [8];
                mono_digest_get_public_token (token, public_tok, len);
                return encode_public_tok (token, 8);
        }

        return encode_public_tok (public_tok, len);
}

/**
 * mono_assembly_addref:
 * @assemnly: the assembly to reference
 *
 * This routine increments the reference count on a MonoAssembly.
 * The reference count is reduced every time the method mono_assembly_close() is
 * invoked.
 */
void
mono_assembly_addref (MonoAssembly *assembly)
{
        InterlockedIncrement (&assembly->ref_count);
}

static MonoAssemblyName *
mono_assembly_remap_version (MonoAssemblyName *aname, MonoAssemblyName *dest_aname)
{
        const MonoRuntimeInfo *current_runtime;
        int pos, first, last;

        if (aname->name == NULL) return aname;
        current_runtime = mono_get_runtime_info ();

        first = 0;
        last = G_N_ELEMENTS (framework_assemblies) - 1;
        
        while (first <= last) {
                int res;
                pos = first + (last - first) / 2;
                res = strcmp (aname->name, framework_assemblies[pos].assembly_name);
                if (res == 0) {
                        const AssemblyVersionSet* vset;
                        int index = framework_assemblies[pos].version_set_index;
                        g_assert (index < G_N_ELEMENTS (current_runtime->version_sets));
                        vset = &current_runtime->version_sets [index];

                        if (aname->major == vset->major && aname->minor == vset->minor &&
                                aname->build == vset->build && aname->revision == vset->revision)
                                return aname;
                
                        if ((aname->major | aname->minor | aname->build | aname->revision) != 0)
                                mono_trace (G_LOG_LEVEL_WARNING, MONO_TRACE_ASSEMBLY,
                                        "The request to load the assembly %s v%d.%d.%d.%d was remapped to v%d.%d.%d.%d",
                                                        aname->name,
                                                        aname->major, aname->minor, aname->build, aname->revision,
                                                        vset->major, vset->minor, vset->build, vset->revision
                                                        );
                        
                        memcpy (dest_aname, aname, sizeof(MonoAssemblyName));
                        dest_aname->major = vset->major;
                        dest_aname->minor = vset->minor;
                        dest_aname->build = vset->build;
                        dest_aname->revision = vset->revision;
                        return dest_aname;
                } else if (res < 0) {
                        last = pos - 1;
                } else {
                        first = pos + 1;
                }
        }
        return aname;
}

/*
 * mono_assembly_get_assemblyref:
 *
 *   Fill out ANAME with the assembly name of the INDEXth assembly reference in IMAGE.
 */
void
mono_assembly_get_assemblyref (MonoImage *image, int index, MonoAssemblyName *aname)
{
        MonoTableInfo *t;
        guint32 cols [MONO_ASSEMBLYREF_SIZE];
        const char *hash;

        t = &image->tables [MONO_TABLE_ASSEMBLYREF];

        mono_metadata_decode_row (t, index, cols, MONO_ASSEMBLYREF_SIZE);
                
        hash = mono_metadata_blob_heap (image, cols [MONO_ASSEMBLYREF_HASH_VALUE]);
        aname->hash_len = mono_metadata_decode_blob_size (hash, &hash);
        aname->hash_value = hash;
        aname->name = mono_metadata_string_heap (image, cols [MONO_ASSEMBLYREF_NAME]);
        aname->culture = mono_metadata_string_heap (image, cols [MONO_ASSEMBLYREF_CULTURE]);
        aname->flags = cols [MONO_ASSEMBLYREF_FLAGS];
        aname->major = cols [MONO_ASSEMBLYREF_MAJOR_VERSION];
        aname->minor = cols [MONO_ASSEMBLYREF_MINOR_VERSION];
        aname->build = cols [MONO_ASSEMBLYREF_BUILD_NUMBER];
        aname->revision = cols [MONO_ASSEMBLYREF_REV_NUMBER];

        if (cols [MONO_ASSEMBLYREF_PUBLIC_KEY]) {
                gchar *token = assemblyref_public_tok (image, cols [MONO_ASSEMBLYREF_PUBLIC_KEY], aname->flags);
                g_strlcpy (aname->public_key_token, token, MONO_PUBLIC_KEY_TOKEN_LENGTH);
                g_free (token);
        } else {
                memset (aname->public_key_token, 0, MONO_PUBLIC_KEY_TOKEN_LENGTH);
        }
}

void
mono_assembly_load_reference (MonoImage *image, int index)
{
        MonoAssembly *reference;
        MonoAssemblyName aname;
        MonoImageOpenStatus status;

        /*
         * image->references is shared between threads, so we need to access
         * it inside a critical section.
         */
        mono_assemblies_lock ();
        reference = image->references [index];
        mono_assemblies_unlock ();
        if (reference)
                return;

        mono_assembly_get_assemblyref (image, index, &aname);

        if (image->assembly->ref_only) {
                /* We use the loaded corlib */
                if (!strcmp (aname.name, "mscorlib"))
                        reference = mono_assembly_load_full (&aname, image->assembly->basedir, &status, FALSE);
                else
                        reference = mono_assembly_loaded_full (&aname, TRUE);
                /*
                 * Here we must advice that the error was due to
                 * a non loaded reference using the ReflectionOnly api
                */
                if (!reference)
                        reference = REFERENCE_MISSING;
        } else
                reference = mono_assembly_load (&aname, image->assembly->basedir, &status);

        if (reference == NULL){
                char *extra_msg = g_strdup ("");

                if (status == MONO_IMAGE_ERROR_ERRNO && errno == ENOENT) {
                        extra_msg = g_strdup_printf ("The assembly was not found in the Global Assembly Cache, a path listed in the MONO_PATH environment variable, or in the location of the executing assembly (%s).\n", image->assembly->basedir);
                } else if (status == MONO_IMAGE_ERROR_ERRNO) {
                        extra_msg = g_strdup_printf ("System error: %s\n", strerror (errno));
                } else if (status == MONO_IMAGE_MISSING_ASSEMBLYREF) {
                        extra_msg = g_strdup ("Cannot find an assembly referenced from this one.\n");
                } else if (status == MONO_IMAGE_IMAGE_INVALID) {
                        extra_msg = g_strdup ("The file exists but is not a valid assembly.\n");
                }
                
                g_warning ("The following assembly referenced from %s could not be loaded:\n"
                                   "     Assembly:   %s    (assemblyref_index=%d)\n"
                                   "     Version:    %d.%d.%d.%d\n"
                                   "     Public Key: %s\n%s",
                                   image->name, aname.name, index,
                                   aname.major, aname.minor, aname.build, aname.revision,
                                   strlen(aname.public_key_token) == 0 ? "(none)" : (char*)aname.public_key_token, extra_msg);
                g_free (extra_msg);
        }

        mono_assemblies_lock ();
        if (reference == NULL) {
                /* Flag as not found */
                reference = REFERENCE_MISSING;
        }       

        if (!image->references [index]) {
                if (reference != REFERENCE_MISSING){
                        mono_assembly_addref (reference);
                        mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY, "Assembly Ref addref %s %p -> %s %p: %d\n",
                                    image->assembly->aname.name, image->assembly, reference->aname.name, reference, reference->ref_count);
                } else {
                        mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY, "Failed to load assembly %s %p\n",
                                    image->assembly->aname.name, image->assembly);
                }
                
                image->references [index] = reference;
        }
        mono_assemblies_unlock ();

        if (image->references [index] != reference) {
                /* Somebody loaded it before us */
                mono_assembly_close (reference);
        }
}

void
mono_assembly_load_references (MonoImage *image, MonoImageOpenStatus *status)
{
        MonoTableInfo *t;
        int i;

        *status = MONO_IMAGE_OK;

        t = &image->tables [MONO_TABLE_ASSEMBLYREF];
        
        image->references = g_new0 (MonoAssembly *, t->rows + 1);

        /* resolve assembly references for modules */
        for (i = 0; i < image->module_count; i++){
                if (image->modules [i]) {
                        image->modules [i]->assembly = image->assembly;
                        mono_assembly_load_references (image->modules [i], status);
                }
        }
}

typedef struct AssemblyLoadHook AssemblyLoadHook;
struct AssemblyLoadHook {
        AssemblyLoadHook *next;
        MonoAssemblyLoadFunc func;
        gpointer user_data;
};

AssemblyLoadHook *assembly_load_hook = NULL;

void
mono_assembly_invoke_load_hook (MonoAssembly *ass)
{
        AssemblyLoadHook *hook;

        for (hook = assembly_load_hook; hook; hook = hook->next) {
                hook->func (ass, hook->user_data);
        }
}

void
mono_install_assembly_load_hook (MonoAssemblyLoadFunc func, gpointer user_data)
{
        AssemblyLoadHook *hook;
        
        g_return_if_fail (func != NULL);

        hook = g_new0 (AssemblyLoadHook, 1);
        hook->func = func;
        hook->user_data = user_data;
        hook->next = assembly_load_hook;
        assembly_load_hook = hook;
}

static void
free_assembly_load_hooks (void)
{
        AssemblyLoadHook *hook, *next;

        for (hook = assembly_load_hook; hook; hook = next) {
                next = hook->next;
                g_free (hook);
        }
}

typedef struct AssemblySearchHook AssemblySearchHook;
struct AssemblySearchHook {
        AssemblySearchHook *next;
        MonoAssemblySearchFunc func;
        gboolean refonly;
        gboolean postload;
        gpointer user_data;
};

AssemblySearchHook *assembly_search_hook = NULL;

static MonoAssembly*
mono_assembly_invoke_search_hook_internal (MonoAssemblyName *aname, gboolean refonly, gboolean postload)
{
        AssemblySearchHook *hook;

        for (hook = assembly_search_hook; hook; hook = hook->next) {
                if ((hook->refonly == refonly) && (hook->postload == postload)) {
                        MonoAssembly *ass = hook->func (aname, hook->user_data);
                        if (ass)
                                return ass;
                }
        }

        return NULL;
}

MonoAssembly*
mono_assembly_invoke_search_hook (MonoAssemblyName *aname)
{
        return mono_assembly_invoke_search_hook_internal (aname, FALSE, FALSE);
}

static void
mono_install_assembly_search_hook_internal (MonoAssemblySearchFunc func, gpointer user_data, gboolean refonly, gboolean postload)
{
        AssemblySearchHook *hook;
        
        g_return_if_fail (func != NULL);

        hook = g_new0 (AssemblySearchHook, 1);
        hook->func = func;
        hook->user_data = user_data;
        hook->refonly = refonly;
        hook->postload = postload;
        hook->next = assembly_search_hook;
        assembly_search_hook = hook;
}

void          
mono_install_assembly_search_hook (MonoAssemblySearchFunc func, gpointer user_data)
{
        mono_install_assembly_search_hook_internal (func, user_data, FALSE, FALSE);
}       

static void
free_assembly_search_hooks (void)
{
        AssemblySearchHook *hook, *next;

        for (hook = assembly_search_hook; hook; hook = next) {
                next = hook->next;
                g_free (hook);
        }
}

void
mono_install_assembly_refonly_search_hook (MonoAssemblySearchFunc func, gpointer user_data)
{
        mono_install_assembly_search_hook_internal (func, user_data, TRUE, FALSE);
}

void          
mono_install_assembly_postload_search_hook (MonoAssemblySearchFunc func, gpointer user_data)
{
        mono_install_assembly_search_hook_internal (func, user_data, FALSE, TRUE);
}       

void
mono_install_assembly_postload_refonly_search_hook (MonoAssemblySearchFunc func, gpointer user_data)
{
        mono_install_assembly_search_hook_internal (func, user_data, TRUE, TRUE);
}

typedef struct AssemblyPreLoadHook AssemblyPreLoadHook;
struct AssemblyPreLoadHook {
        AssemblyPreLoadHook *next;
        MonoAssemblyPreLoadFunc func;
        gpointer user_data;
};

static AssemblyPreLoadHook *assembly_preload_hook = NULL;
static AssemblyPreLoadHook *assembly_refonly_preload_hook = NULL;

static MonoAssembly *
invoke_assembly_preload_hook (MonoAssemblyName *aname, gchar **assemblies_path)
{
        AssemblyPreLoadHook *hook;
        MonoAssembly *assembly;

        for (hook = assembly_preload_hook; hook; hook = hook->next) {
                assembly = hook->func (aname, assemblies_path, hook->user_data);
                if (assembly != NULL)
                        return assembly;
        }

        return NULL;
}

static MonoAssembly *
invoke_assembly_refonly_preload_hook (MonoAssemblyName *aname, gchar **assemblies_path)
{
        AssemblyPreLoadHook *hook;
        MonoAssembly *assembly;

        for (hook = assembly_refonly_preload_hook; hook; hook = hook->next) {
                assembly = hook->func (aname, assemblies_path, hook->user_data);
                if (assembly != NULL)
                        return assembly;
        }

        return NULL;
}

void
mono_install_assembly_preload_hook (MonoAssemblyPreLoadFunc func, gpointer user_data)
{
        AssemblyPreLoadHook *hook;
        
        g_return_if_fail (func != NULL);

        hook = g_new0 (AssemblyPreLoadHook, 1);
        hook->func = func;
        hook->user_data = user_data;
        hook->next = assembly_preload_hook;
        assembly_preload_hook = hook;
}

void
mono_install_assembly_refonly_preload_hook (MonoAssemblyPreLoadFunc func, gpointer user_data)
{
        AssemblyPreLoadHook *hook;
        
        g_return_if_fail (func != NULL);

        hook = g_new0 (AssemblyPreLoadHook, 1);
        hook->func = func;
        hook->user_data = user_data;
        hook->next = assembly_refonly_preload_hook;
        assembly_refonly_preload_hook = hook;
}

static void
free_assembly_preload_hooks (void)
{
        AssemblyPreLoadHook *hook, *next;

        for (hook = assembly_preload_hook; hook; hook = next) {
                next = hook->next;
                g_free (hook);
        }

        for (hook = assembly_refonly_preload_hook; hook; hook = next) {
                next = hook->next;
                g_free (hook);
        }
}

static gchar *
absolute_dir (const gchar *filename)
{
        gchar *cwd;
        gchar *mixed;
        gchar **parts;
        gchar *part;
        GList *list, *tmp;
        GString *result;
        gchar *res;
        gint i;

        if (g_path_is_absolute (filename))
                return g_path_get_dirname (filename);

        cwd = g_get_current_dir ();
        mixed = g_build_filename (cwd, filename, NULL);
        parts = g_strsplit (mixed, G_DIR_SEPARATOR_S, 0);
        g_free (mixed);
        g_free (cwd);

        list = NULL;
        for (i = 0; (part = parts [i]) != NULL; i++) {
                if (!strcmp (part, "."))
                        continue;

                if (!strcmp (part, "..")) {
                        if (list && list->next) /* Don't remove root */
                                list = g_list_delete_link (list, list);
                } else {
                        list = g_list_prepend (list, part);
                }
        }

        result = g_string_new ("");
        list = g_list_reverse (list);

        /* Ignores last data pointer, which should be the filename */
        for (tmp = list; tmp && tmp->next != NULL; tmp = tmp->next)
                if (tmp->data)
                        g_string_append_printf (result, "%s%c", (char *) tmp->data,
                                                                G_DIR_SEPARATOR);
        
        res = result->str;
        g_string_free (result, FALSE);
        g_list_free (list);
        g_strfreev (parts);
        if (*res == '\0') {
                g_free (res);
                return g_strdup (".");
        }

        return res;
}

/** 
 * mono_assembly_open_from_bundle:
 * @filename: Filename requested
 * @status: return value
 *
 * This routine tries to open the assembly specified by `filename' from the
 * defined bundles, if found, returns the MonoImage for it, if not found
 * returns NULL
 */
static MonoImage *
mono_assembly_open_from_bundle (const char *filename, MonoImageOpenStatus *status, gboolean refonly)
{
        int i;
        char *name = g_path_get_basename (filename);
        MonoImage *image = NULL;

        /*
         * we do a very simple search for bundled assemblies: it's not a general 
         * purpose assembly loading mechanism.
         */
        mono_assemblies_lock ();
        for (i = 0; !image && bundles [i]; ++i) {
                if (strcmp (bundles [i]->name, name) == 0) {
                        image = mono_image_open_from_data_full ((char*)bundles [i]->data, bundles [i]->size, FALSE, status, refonly);
                        break;
                }
        }
        mono_assemblies_unlock ();
        g_free (name);
        if (image) {
                mono_image_addref (image);
                return image;
        }
        return NULL;
}

MonoAssembly *
mono_assembly_open_full (const char *filename, MonoImageOpenStatus *status, gboolean refonly)
{
        MonoImage *image;
        MonoAssembly *ass;
        MonoImageOpenStatus def_status;
        gchar *fname;
        
        g_return_val_if_fail (filename != NULL, NULL);

        if (!status)
                status = &def_status;
        *status = MONO_IMAGE_OK;

        if (strncmp (filename, "file://", 7) == 0) {
                GError *error = NULL;
                gchar *uri = (gchar *) filename;
                gchar *tmpuri;

                /*
                 * MS allows file://c:/... and fails on file://localhost/c:/... 
                 * They also throw an IndexOutOfRangeException if "file://"
                 */
                if (uri [7] != '/')
                        uri = g_strdup_printf ("file:///%s", uri + 7);
        
                tmpuri = uri;
                uri = mono_escape_uri_string (tmpuri);
                fname = g_filename_from_uri (uri, NULL, &error);
                g_free (uri);

                if (tmpuri != filename)
                        g_free (tmpuri);

                if (error != NULL) {
                        g_warning ("%s\n", error->message);
                        g_error_free (error);
                        fname = g_strdup (filename);
                }
        } else {
                fname = g_strdup (filename);
        }

        mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY,
                        "Assembly Loader probing location: '%s'.", filename);
        image = NULL;

        if (bundles != NULL)
                image = mono_assembly_open_from_bundle (fname, status, refonly);

        if (!image) {
                mono_assemblies_lock ();
                image = mono_image_open_full (fname, status, refonly);
                mono_assemblies_unlock ();
        }

        if (!image){
                if (*status == MONO_IMAGE_OK)
                        *status = MONO_IMAGE_ERROR_ERRNO;
                g_free (fname);
                return NULL;
        }

        if (image->assembly) {
                /* Already loaded by another appdomain */
                mono_assembly_invoke_load_hook (image->assembly);
                mono_image_close (image);
                g_free (fname);
                return image->assembly;
        }

        ass = mono_assembly_load_from_full (image, fname, status, refonly);

        if (ass) {
                mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY,
                                "Assembly Loader loaded assembly from location: '%s'.", filename);
                if (!refonly)
                        mono_config_for_assembly (ass->image);
        }

        /* Clear the reference added by mono_image_open */
        mono_image_close (image);
        
        g_free (fname);

        return ass;
}

/*
 * load_friend_assemblies:
 * @ass: an assembly
 *
 * Load the list of friend assemblies that are allowed to access
 * the assembly's internal types and members. They are stored as assembly
 * names in custom attributes.
 */
static void
load_friend_assemblies (MonoAssembly* ass)
{
        int i;
        MonoCustomAttrInfo* attrs = mono_custom_attrs_from_assembly (ass);
        if (!attrs)
                return;
        for (i = 0; i < attrs->num_attrs; ++i) {
                MonoCustomAttrEntry *attr = &attrs->attrs [i];
                MonoAssemblyName *aname;
                const guchar *data;
                guint slen;
                /* Do some sanity checking */
                if (!attr->ctor || attr->ctor->klass != mono_defaults.internals_visible_class)
                        continue;
                if (attr->data_size < 4)
                        continue;
                data = attr->data;
                /* 0xFF means null string, see custom attr format */
                if (data [0] != 1 || data [1] != 0 || data [2] == 0xFF)
                        continue;
                slen = mono_metadata_decode_value (data + 2, &data);
                aname = g_new0 (MonoAssemblyName, 1);
                /*g_print ("friend ass: %s\n", data);*/
                if (mono_assembly_name_parse_full (data, aname, TRUE, NULL)) {
                        ass->friend_assembly_names = g_slist_prepend (ass->friend_assembly_names, aname);
                } else {
                        g_free (aname);
                }
        }
        mono_custom_attrs_free (attrs);
}

/**
 * mono_assembly_open:
 * @filename: Opens the assembly pointed out by this name
 * @status: where a status code can be returned
 *
 * mono_assembly_open opens the PE-image pointed by @filename, and
 * loads any external assemblies referenced by it.
 *
 * Return: a pointer to the MonoAssembly if @filename contains a valid
 * assembly or NULL on error.  Details about the error are stored in the
 * @status variable.
 */
MonoAssembly *
mono_assembly_open (const char *filename, MonoImageOpenStatus *status)
{
        return mono_assembly_open_full (filename, status, FALSE);
}

MonoAssembly *
mono_assembly_load_from_full (MonoImage *image, const char*fname, 
                              MonoImageOpenStatus *status, gboolean refonly)
{
        MonoAssembly *ass, *ass2;
        char *base_dir;
        GList *loading;
        GHashTable *ass_loading;

#if defined (PLATFORM_WIN32)
        {
                gchar *tmp_fn;
                int i;

                tmp_fn = g_strdup (fname);
                for (i = strlen (tmp_fn) - 1; i >= 0; i--) {
                        if (tmp_fn [i] == '/')
                                tmp_fn [i] = '\\';
                }

                base_dir = absolute_dir (tmp_fn);
                g_free (tmp_fn);
        }
#else
        base_dir = absolute_dir (fname);
#endif

        /*
         * To avoid deadlocks and scalability problems, we load assemblies outside
         * the assembly lock. This means that multiple threads might try to load
         * the same assembly at the same time. The first one to load it completely
         * "wins", the other threads free their copy and use the one loaded by
         * the winning thread.
         */

        /*
         * Create assembly struct, and enter it into the assembly cache
         */
        ass = g_new0 (MonoAssembly, 1);
        ass->basedir = base_dir;
        ass->ref_only = refonly;
        ass->image = image;

        /* Add a non-temporary reference because of ass->image */
        mono_image_addref (image);

        mono_assembly_fill_assembly_name (image, &ass->aname);

        mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY, "Image addref %s %p -> %s %p: %d\n", ass->aname.name, ass, image->name, image, image->ref_count);

        /* 
         * Atomically search the loaded list and add ourselves to it if necessary.
         */
        mono_assemblies_lock ();
        if (ass->aname.name) {
                /* avoid loading the same assembly twice for now... */
                ass2 = search_loaded (&ass->aname, refonly);
                if (ass2) {
                        g_free (ass);
                        g_free (base_dir);
                        mono_image_close (image);
                        *status = MONO_IMAGE_OK;
                        mono_assemblies_unlock ();
                        return ass2;
                }
        }
        ass_loading = refonly ? assemblies_refonly_loading : assemblies_loading;
        loading = g_hash_table_lookup (ass_loading, (gpointer)GetCurrentThreadId ());
        loading = g_list_prepend (loading, ass);
        g_hash_table_insert (ass_loading, (gpointer)GetCurrentThreadId (), loading);
        mono_assemblies_unlock ();

        g_assert (image->assembly == NULL);
        image->assembly = ass;

        mono_assembly_load_references (image, status);

        mono_assemblies_lock ();

        loading = g_hash_table_lookup (ass_loading, (gpointer)GetCurrentThreadId ());
        loading = g_list_remove (loading, ass);
        if (loading == NULL)
                /* Prevent memory leaks */
                g_hash_table_remove (ass_loading, (gpointer)GetCurrentThreadId ());
        else
                g_hash_table_insert (ass_loading, (gpointer)GetCurrentThreadId (), loading);
        if (*status != MONO_IMAGE_OK) {
                mono_assemblies_unlock ();
                mono_assembly_close (ass);
                return NULL;
        }

        if (ass->aname.name) {
                ass2 = search_loaded (&ass->aname, refonly);
                if (ass2) {
                        /* Somebody else has loaded the assembly before us */
                        mono_assemblies_unlock ();
                        mono_assembly_close (ass);
                        return ass2;
                }
        }

        loaded_assemblies = g_list_prepend (loaded_assemblies, ass);
        if (mono_defaults.internals_visible_class)
                load_friend_assemblies (ass);
        mono_assemblies_unlock ();

        mono_assembly_invoke_load_hook (ass);

        return ass;
}

MonoAssembly *
mono_assembly_load_from (MonoImage *image, const char *fname,
                         MonoImageOpenStatus *status)
{
        return mono_assembly_load_from_full (image, fname, status, FALSE);
}

/**
* mono_assembly_name_free:
* @aname: assembly name to free
* 
* Frees the provided assembly name object.
* (it does not frees the object itself, only the name members).
*/
void
mono_assembly_name_free (MonoAssemblyName *aname)
{
        if (aname == NULL)
                return;

        g_free ((void *) aname->name);
        g_free ((void *) aname->culture);
        g_free ((void *) aname->hash_value);
}

static gboolean
parse_public_key (const gchar *key, gchar** pubkey)
{
        const gchar *pkey;
        gchar header [16], val, *arr;
        gint i, j, offset, bitlen, keylen, pkeylen;
        
        keylen = strlen (key) >> 1;
        if (keylen < 1)
                return FALSE;
        
        val = g_ascii_xdigit_value (key [0]) << 4;
        val |= g_ascii_xdigit_value (key [1]);
        switch (val) {
                case 0x00:
                        if (keylen < 13)
                                return FALSE;
                        val = g_ascii_xdigit_value (key [24]);
                        val |= g_ascii_xdigit_value (key [25]);
                        if (val != 0x06)
                                return FALSE;
                        pkey = key + 24;
                        break;
                case 0x06:
                        pkey = key;
                        break;
                default:
                        return FALSE;
        }
                
        /* We need the first 16 bytes
        * to check whether this key is valid or not */
        pkeylen = strlen (pkey) >> 1;
        if (pkeylen < 16)
                return FALSE;
                
        for (i = 0, j = 0; i < 16; i++) {
                header [i] = g_ascii_xdigit_value (pkey [j++]) << 4;
                header [i] |= g_ascii_xdigit_value (pkey [j++]);
        }

        if (header [0] != 0x06 || /* PUBLICKEYBLOB (0x06) */
                        header [1] != 0x02 || /* Version (0x02) */
                        header [2] != 0x00 || /* Reserved (word) */
                        header [3] != 0x00 ||
                        (guint)(read32 (header + 8)) != 0x31415352) /* DWORD magic = RSA1 */
                return FALSE;

        /* Based on this length, we _should_ be able to know if the length is right */
        bitlen = read32 (header + 12) >> 3;
        if ((bitlen + 16 + 4) != pkeylen)
                return FALSE;
                
        /* Encode the size of the blob */
        offset = 0;
        if (keylen <= 127) {
                arr = g_malloc (keylen + 1);
                arr [offset++] = keylen;
        } else {
                arr = g_malloc (keylen + 2);
                arr [offset++] = 0x80; /* 10bs */
                arr [offset++] = keylen;
        }
                
        for (i = offset, j = 0; i < keylen + offset; i++) {
                arr [i] = g_ascii_xdigit_value (key [j++]) << 4;
                arr [i] |= g_ascii_xdigit_value (key [j++]);
        }
        if (pubkey)
                *pubkey = arr;

        return TRUE;
}

static gboolean
build_assembly_name (const char *name, const char *version, const char *culture, const char *token, const char *key, MonoAssemblyName *aname, gboolean save_public_key)
{
        gint major, minor, build, revision;
        gint len;
        gint version_parts;
        gchar *pkey, *pkeyptr, *encoded, tok [8];

        memset (aname, 0, sizeof (MonoAssemblyName));

        if (version) {
                version_parts = sscanf (version, "%u.%u.%u.%u", &major, &minor, &build, &revision);
                if (version_parts < 2 || version_parts > 4)
                        return FALSE;

                /* FIXME: we should set build & revision to -1 (instead of 0)
                if these are not set in the version string. That way, later on,
                we can still determine if these were specified. */
                aname->major = major;
                aname->minor = minor;
                if (version_parts >= 3)
                        aname->build = build;
                else
                        aname->build = 0;
                if (version_parts == 4)
                        aname->revision = revision;
                else
                        aname->revision = 0;
        }
        
        aname->name = g_strdup (name);
        
        if (culture) {
                if (g_ascii_strcasecmp (culture, "neutral") == 0)
                        aname->culture = g_strdup ("");
                else
                        aname->culture = g_strdup (culture);
        }
        
        if (token && strncmp (token, "null", 4) != 0) {
                char *lower = g_ascii_strdown (token, MONO_PUBLIC_KEY_TOKEN_LENGTH);
                g_strlcpy ((char*)aname->public_key_token, lower, MONO_PUBLIC_KEY_TOKEN_LENGTH);
                g_free (lower);
        }

        if (key && strncmp (key, "null", 4) != 0) {
                if (!parse_public_key (key, &pkey)) {
                        mono_assembly_name_free (aname);
                        return FALSE;
                }
                
                len = mono_metadata_decode_blob_size ((const gchar *) pkey, (const gchar **) &pkeyptr);
                // We also need to generate the key token
                mono_digest_get_public_token ((guchar*) tok, (guint8*) pkeyptr, len);
                encoded = encode_public_tok ((guchar*) tok, 8);
                g_strlcpy ((gchar*)aname->public_key_token, encoded, MONO_PUBLIC_KEY_TOKEN_LENGTH);
                g_free (encoded);

                if (save_public_key)
                        aname->public_key = (guint8*) pkey;
                else
                        g_free (pkey);
        }
        
        return TRUE;
}

static gboolean
parse_assembly_directory_name (const char *name, const char *dirname, MonoAssemblyName *aname)
{
        gchar **parts;
        gboolean res;
        
        parts = g_strsplit (dirname, "_", 3);
        if (!parts || !parts[0] || !parts[1] || !parts[2]) {
                g_strfreev (parts);
                return FALSE;
        }
        
        res = build_assembly_name (name, parts[0], parts[1], parts[2], NULL, aname, FALSE);
        g_strfreev (parts);
        return res;
}

gboolean
mono_assembly_name_parse_full (const char *name, MonoAssemblyName *aname, gboolean save_public_key, gboolean *is_version_defined)
{
        gchar *dllname;
        gchar *version = NULL;
        gchar *culture = NULL;
        gchar *token = NULL;
        gchar *key = NULL;
        gboolean res;
        gchar *value;
        gchar **parts;
        gchar **tmp;
        gboolean version_defined;

        if (!is_version_defined)
                is_version_defined = &version_defined;
        *is_version_defined = FALSE;
        
        parts = tmp = g_strsplit (name, ",", 4);
        if (!tmp || !*tmp) {
                g_strfreev (tmp);
                return FALSE;
        }

        dllname = g_strstrip (*tmp);
        
        tmp++;

        while (*tmp) {
                value = g_strstrip (*tmp);
                if (!g_ascii_strncasecmp (value, "Version=", 8)) {
                        *is_version_defined = TRUE;
                        version = g_strstrip (value + 8);
                        tmp++;
                        continue;
                }

                if (!g_ascii_strncasecmp (value, "Culture=", 8)) {
                        culture = g_strstrip (value + 8);
                        tmp++;
                        continue;
                }

                if (!g_ascii_strncasecmp (value, "PublicKeyToken=", 15)) {
                        token = g_strstrip (value + 15);
                        tmp++;
                        continue;
                }

                if (!g_ascii_strncasecmp (value, "PublicKey=", 10)) {
                        key = g_strstrip (value + 10);
                        tmp++;
                        continue;
                }
                
                g_strfreev (parts);
                return FALSE;
        }

        res = build_assembly_name (dllname, version, culture, token, key, aname, save_public_key);
        g_strfreev (parts);
        return res;
}

/**
* mono_assembly_name_parse:
* @name: name to parse
* @aname: the destination assembly name
* 
* Parses an assembly qualified type name and assigns the name,
* version, culture and token to the provided assembly name object.
*
* Returns: true if the name could be parsed.
*/
gboolean
mono_assembly_name_parse (const char *name, MonoAssemblyName *aname)
{
        return mono_assembly_name_parse_full (name, aname, FALSE, NULL);
}

static MonoAssembly*
probe_for_partial_name (const char *basepath, const char *fullname, MonoAssemblyName *aname, MonoImageOpenStatus *status)
{
        gchar *fullpath = NULL;
        GDir *dirhandle;
        const char* direntry;
        MonoAssemblyName gac_aname;
        gint major=-1, minor=0, build=0, revision=0;
        gboolean exact_version;
        
        dirhandle = g_dir_open (basepath, 0, NULL);
        if (!dirhandle)
                return NULL;
                
        exact_version = (aname->major | aname->minor | aname->build | aname->revision) != 0;

        while ((direntry = g_dir_read_name (dirhandle))) {
                gboolean match = TRUE;
                
                parse_assembly_directory_name (aname->name, direntry, &gac_aname);
                
                if (aname->culture != NULL && strcmp (aname->culture, gac_aname.culture) != 0)
                        match = FALSE;
                        
                if (match && strlen ((char*)aname->public_key_token) > 0 && 
                                strcmp ((char*)aname->public_key_token, (char*)gac_aname.public_key_token) != 0)
                        match = FALSE;
                
                if (match) {
                        if (exact_version) {
                                match = (aname->major == gac_aname.major && aname->minor == gac_aname.minor &&
                                                 aname->build == gac_aname.build && aname->revision == gac_aname.revision); 
                        }
                        else if (gac_aname.major < major)
                                match = FALSE;
                        else if (gac_aname.major == major) {
                                if (gac_aname.minor < minor)
                                        match = FALSE;
                                else if (gac_aname.minor == minor) {
                                        if (gac_aname.build < build)
                                                match = FALSE;
                                        else if (gac_aname.build == build && gac_aname.revision <= revision)
                                                match = FALSE; 
                                }
                        }
                }
                
                if (match) {
                        major = gac_aname.major;
                        minor = gac_aname.minor;
                        build = gac_aname.build;
                        revision = gac_aname.revision;
                        g_free (fullpath);
                        fullpath = g_build_path (G_DIR_SEPARATOR_S, basepath, direntry, fullname, NULL);
                }

                mono_assembly_name_free (&gac_aname);
        }
        
        g_dir_close (dirhandle);
        
        if (fullpath == NULL)
                return NULL;
        else {
                MonoAssembly *res = mono_assembly_open (fullpath, status);
                g_free (fullpath);
                return res;
        }
}

MonoAssembly*
mono_assembly_load_with_partial_name (const char *name, MonoImageOpenStatus *status)
{
        MonoAssembly *res;
        MonoAssemblyName *aname, base_name, maped_aname;
        gchar *fullname, *gacpath;
        gchar **paths;

        memset (&base_name, 0, sizeof (MonoAssemblyName));
        aname = &base_name;

        if (!mono_assembly_name_parse (name, aname))
                return NULL;

        /* 
         * If no specific version has been requested, make sure we load the
         * correct version for system assemblies.
         */ 
        if ((aname->major | aname->minor | aname->build | aname->revision) == 0)
                aname = mono_assembly_remap_version (aname, &maped_aname);
        
        res = mono_assembly_loaded (aname);
        if (res) {
                mono_assembly_name_free (aname);
                return res;
        }

        res = invoke_assembly_preload_hook (aname, assemblies_path);
        if (res) {
                res->in_gac = FALSE;
                mono_assembly_name_free (aname);
                return res;
        }

        fullname = g_strdup_printf ("%s.dll", aname->name);

        if (extra_gac_paths) {
                paths = extra_gac_paths;
                while (!res && *paths) {
                        gacpath = g_build_path (G_DIR_SEPARATOR_S, *paths, "lib", "mono", "gac", aname->name, NULL);
                        res = probe_for_partial_name (gacpath, fullname, aname, status);
                        g_free (gacpath);
                        paths++;
                }
        }

        if (res) {
                res->in_gac = TRUE;
                g_free (fullname);
                mono_assembly_name_free (aname);
                return res;
        }

        gacpath = g_build_path (G_DIR_SEPARATOR_S, mono_assembly_getrootdir (), "mono", "gac", aname->name, NULL);
        res = probe_for_partial_name (gacpath, fullname, aname, status);
        g_free (gacpath);

        if (res)
                res->in_gac = TRUE;

        g_free (fullname);
        mono_assembly_name_free (aname);

        return res;
}

static MonoImage*
mono_assembly_load_publisher_policy (MonoAssemblyName *aname)
{
        MonoImage *image;
        gchar *filename, *pname, *name, *culture, *version, *fullpath, *subpath;
        gchar **paths;
        gint32 len;

        if (strstr (aname->name, ".dll")) {
                len = strlen (aname->name) - 4;
                name = g_malloc (len);
                strncpy (name, aname->name, len);
        } else
                name = g_strdup (aname->name);
        
        if (aname->culture) {
                culture = g_strdup (aname->culture);
                g_strdown (culture);
        } else
                culture = g_strdup ("");
        
        pname = g_strdup_printf ("policy.%d.%d.%s", aname->major, aname->minor, name);
        version = g_strdup_printf ("0.0.0.0_%s_%s", culture, aname->public_key_token);
        g_free (name);
        g_free (culture);
        
        filename = g_strconcat (pname, ".dll", NULL);
        subpath = g_build_path (G_DIR_SEPARATOR_S, pname, version, filename, NULL);
        g_free (pname);
        g_free (version);
        g_free (filename);

        image = NULL;
        if (extra_gac_paths) {
                paths = extra_gac_paths;
                while (!image && *paths) {
                        fullpath = g_build_path (G_DIR_SEPARATOR_S, *paths,
                                        "lib", "mono", "gac", subpath, NULL);
                        image = mono_image_open (fullpath, NULL);
                        g_free (fullpath);
                        paths++;
                }
        }

        if (image) {
                g_free (subpath);
                return image;
        }

        fullpath = g_build_path (G_DIR_SEPARATOR_S, mono_assembly_getrootdir (), 
                        "mono", "gac", subpath, NULL);
        image = mono_image_open (fullpath, NULL);
        g_free (subpath);
        g_free (fullpath);
        
        return image;
}

static MonoAssemblyName*
mono_assembly_bind_version (MonoAssemblyBindingInfo *info, MonoAssemblyName *aname, MonoAssemblyName *dest_name)
{
        memcpy (dest_name, aname, sizeof (MonoAssemblyName));
        dest_name->major = info->new_version.major;
        dest_name->minor = info->new_version.minor;
        dest_name->build = info->new_version.build;
        dest_name->revision = info->new_version.revision;
        
        return dest_name;
}

/* LOCKING: Assumes that we are already locked */
static MonoAssemblyBindingInfo*
search_binding_loaded (MonoAssemblyName *aname)
{
        GSList *tmp;

        for (tmp = loaded_assembly_bindings; tmp; tmp = tmp->next) {
                MonoAssemblyBindingInfo *info = tmp->data;
                if (assembly_binding_maps_name (info, aname))
                        return info;
        }

        return NULL;
}

static MonoAssemblyName*
mono_assembly_apply_binding (MonoAssemblyName *aname, MonoAssemblyName *dest_name)
{
        MonoAssemblyBindingInfo *info, *info2;
        MonoImage *ppimage;

        if (aname->public_key_token [0] == 0)
                return aname;

        mono_loader_lock ();
        info = search_binding_loaded (aname);
        mono_loader_unlock ();
        if (info) {
                if (!check_policy_versions (info, aname))
                        return aname;
                
                mono_assembly_bind_version (info, aname, dest_name);
                return dest_name;
        }

        info = g_new0 (MonoAssemblyBindingInfo, 1);
        info->major = aname->major;
        info->minor = aname->minor;
        
        ppimage = mono_assembly_load_publisher_policy (aname);
        if (ppimage) {
                get_publisher_policy_info (ppimage, aname, info);
                mono_image_close (ppimage);
        }

        /* Define default error value if needed */
        if (!info->is_valid) {
                info->name = g_strdup (aname->name);
                info->culture = g_strdup (aname->culture);
                g_strlcpy ((char *)info->public_key_token, (const char *)aname->public_key_token, MONO_PUBLIC_KEY_TOKEN_LENGTH);
        }
        
        mono_loader_lock ();
        info2 = search_binding_loaded (aname);
        if (info2) {
                /* This binding was added by another thread 
                 * before us */
                mono_assembly_binding_info_free (info);
                g_free (info);
                
                info = info2;
        } else
                loaded_assembly_bindings = g_slist_prepend (loaded_assembly_bindings, info);
                
        mono_loader_unlock ();
        
        if (!info->is_valid || !check_policy_versions (info, aname))
                return aname;

        mono_assembly_bind_version (info, aname, dest_name);
        return dest_name;
}

/**
 * mono_assembly_load_from_gac
 *
 * @aname: The assembly name object
 */
static MonoAssembly*
mono_assembly_load_from_gac (MonoAssemblyName *aname,  gchar *filename, MonoImageOpenStatus *status, MonoBoolean refonly)
{
        MonoAssembly *result = NULL;
        gchar *name, *version, *culture, *fullpath, *subpath;
        gint32 len;
        gchar **paths;

        if (aname->public_key_token [0] == 0) {
                return NULL;
        }

        if (strstr (aname->name, ".dll")) {
                len = strlen (filename) - 4;
                name = g_malloc (len);
                strncpy (name, aname->name, len);
        } else {
                name = g_strdup (aname->name);
        }

        if (aname->culture) {
                culture = g_strdup (aname->culture);
                g_strdown (culture);
        } else {
                culture = g_strdup ("");
        }

        version = g_strdup_printf ("%d.%d.%d.%d_%s_%s", aname->major,
                        aname->minor, aname->build, aname->revision,
                        culture, aname->public_key_token);
        
        subpath = g_build_path (G_DIR_SEPARATOR_S, name, version, filename, NULL);
        g_free (name);
        g_free (version);
        g_free (culture);

        if (extra_gac_paths) {
                paths = extra_gac_paths;
                while (!result && *paths) {
                        fullpath = g_build_path (G_DIR_SEPARATOR_S, *paths, "lib", "mono", "gac", subpath, NULL);
                        result = mono_assembly_open_full (fullpath, status, refonly);
                        g_free (fullpath);
                        paths++;
                }
        }

        if (result) {
                result->in_gac = TRUE;
                g_free (subpath);
                return result;
        }

        fullpath = g_build_path (G_DIR_SEPARATOR_S, mono_assembly_getrootdir (),
                        "mono", "gac", subpath, NULL);
        result = mono_assembly_open_full (fullpath, status, refonly);
        g_free (fullpath);

        if (result)
                result->in_gac = TRUE;
        
        g_free (subpath);

        return result;
}


MonoAssembly*
mono_assembly_load_corlib (const MonoRuntimeInfo *runtime, MonoImageOpenStatus *status)
{
        char *corlib_file;

        if (corlib) {
                /* g_print ("corlib already loaded\n"); */
                return corlib;
        }
        
        if (assemblies_path) {
                corlib = load_in_path ("mscorlib.dll", (const char**)assemblies_path, status, FALSE);
                if (corlib)
                        return corlib;
        }

        /* Load corlib from mono/<version> */
        
        corlib_file = g_build_filename ("mono", runtime->framework_version, "mscorlib.dll", NULL);
        if (assemblies_path) {
                corlib = load_in_path (corlib_file, (const char**)assemblies_path, status, FALSE);
                if (corlib) {
                        g_free (corlib_file);
                        return corlib;
                }
        }
        corlib = load_in_path (corlib_file, default_path, status, FALSE);
        g_free (corlib_file);

        return corlib;
}

/**
 * mono_assembly_load_full:
 * @aname: A MonoAssemblyName with the assembly name to load.
 * @basedir: A directory to look up the assembly at.
 * @status: a pointer to a MonoImageOpenStatus to return the status of the load operation
 * @refonly: Whether this assembly is being opened in "reflection-only" mode.
 *
 * Loads the assembly referenced by @aname, if the value of @basedir is not NULL, it
 * attempts to load the assembly from that directory before probing the standard locations.
 *
 * If the assembly is being opened in reflection-only mode (@refonly set to TRUE) then no 
 * assembly binding takes place.
 *
 * Returns: the assembly referenced by @aname loaded or NULL on error.   On error the
 * value pointed by status is updated with an error code.
 */
MonoAssembly*
mono_assembly_load_full (MonoAssemblyName *aname, const char *basedir, MonoImageOpenStatus *status, gboolean refonly)
{
        MonoAssembly *result;
        char *fullpath, *filename;
        MonoAssemblyName maped_aname, maped_name_pp;
        int ext_index;
        const char *ext;
        int len;

        aname = mono_assembly_remap_version (aname, &maped_aname);
        
        /* Reflection only assemblies don't get assembly binding */
        if (!refonly)
                aname = mono_assembly_apply_binding (aname, &maped_name_pp);
        
        result = mono_assembly_loaded_full (aname, refonly);
        if (result)
                return result;

        result = refonly ? invoke_assembly_refonly_preload_hook (aname, assemblies_path) : invoke_assembly_preload_hook (aname, assemblies_path);
        if (result) {
                result->in_gac = FALSE;
                return result;
        }

        /* Currently we retrieve the loaded corlib for reflection 
         * only requests, like a common reflection only assembly 
         */
        if (strcmp (aname->name, "mscorlib") == 0 || strcmp (aname->name, "mscorlib.dll") == 0) {
                return mono_assembly_load_corlib (mono_get_runtime_info (), status);
        }

        len = strlen (aname->name);
        for (ext_index = 0; ext_index < 2; ext_index ++) {
                ext = ext_index == 0 ? ".dll" : ".exe";
                if (len > 4 && (!strcmp (aname->name + len - 4, ".dll") || !strcmp (aname->name + len - 4, ".exe"))) {
                        filename = g_strdup (aname->name);
                        /* Don't try appending .dll/.exe if it already has one of those extensions */
                        ext_index++;
                } else {
                        filename = g_strconcat (aname->name, ext, NULL);
                }

                result = mono_assembly_load_from_gac (aname, filename, status, refonly);
                if (result) {
                        g_free (filename);
                        return result;
                }

                if (basedir) {
                        fullpath = g_build_filename (basedir, filename, NULL);
                        result = mono_assembly_open_full (fullpath, status, refonly);
                        g_free (fullpath);
                        if (result) {
                                result->in_gac = FALSE;
                                g_free (filename);
                                return result;
                        }
                }

                result = load_in_path (filename, default_path, status, refonly);
                if (result)
                        result->in_gac = FALSE;
                g_free (filename);
                if (result)
                        return result;
        }

        /* Try a postload search hook */
        result = mono_assembly_invoke_search_hook_internal (aname, refonly, TRUE);

        return result;
}

/**
 * mono_assembly_load:
 * @aname: A MonoAssemblyName with the assembly name to load.
 * @basedir: A directory to look up the assembly at.
 * @status: a pointer to a MonoImageOpenStatus to return the status of the load operation
 *
 * Loads the assembly referenced by @aname, if the value of @basedir is not NULL, it
 * attempts to load the assembly from that directory before probing the standard locations.
 *
 * Returns: the assembly referenced by @aname loaded or NULL on error.   On error the
 * value pointed by status is updated with an error code.
 */
MonoAssembly*
mono_assembly_load (MonoAssemblyName *aname, const char *basedir, MonoImageOpenStatus *status)
{
        return mono_assembly_load_full (aname, basedir, status, FALSE);
}
        
MonoAssembly*
mono_assembly_loaded_full (MonoAssemblyName *aname, gboolean refonly)
{
        MonoAssembly *res;
        MonoAssemblyName maped_aname;

        aname = mono_assembly_remap_version (aname, &maped_aname);

        mono_assemblies_lock ();
        res = search_loaded (aname, refonly);
        mono_assemblies_unlock ();

        return res;
}

/**
 * mono_assembly_loaded:
 * @aname: an assembly to look for.
 *
 * Returns: NULL If the given @aname assembly has not been loaded, or a pointer to
 * a MonoAssembly that matches the MonoAssemblyName specified.
 */
MonoAssembly*
mono_assembly_loaded (MonoAssemblyName *aname)
{
        return mono_assembly_loaded_full (aname, FALSE);
}

/**
 * mono_assembly_close:
 * @assembly: the assembly to release.
 *
 * This method releases a reference to the @assembly.  The assembly is
 * only released when all the outstanding references to it are released.
 */
void
mono_assembly_close (MonoAssembly *assembly)
{
        GSList *tmp;
        g_return_if_fail (assembly != NULL);

        if (assembly == REFERENCE_MISSING)
                return;
        
        /* Might be 0 already */
        if (InterlockedDecrement (&assembly->ref_count) > 0)
                return;

        mono_trace (G_LOG_LEVEL_INFO, MONO_TRACE_ASSEMBLY, "Unloading assembly %s [%p].", assembly->aname.name, assembly);

        mono_assemblies_lock ();
        loaded_assemblies = g_list_remove (loaded_assemblies, assembly);
        mono_assemblies_unlock ();

        if (assembly->image->references) {
                int i;

                for (i = 0; assembly->image->references [i]; i++) {
                        if (assembly->image->references [i])
                                mono_assembly_close (assembly->image->references [i]);
                }

                g_free (assembly->image->references);
                assembly->image->references = NULL;
        }

        assembly->image->assembly = NULL;

        mono_image_close (assembly->image);

        for (tmp = assembly->friend_assembly_names; tmp; tmp = tmp->next) {
                MonoAssemblyName *fname = tmp->data;
                mono_assembly_name_free (fname);
                g_free (fname);
        }
        g_slist_free (assembly->friend_assembly_names);
        g_free (assembly->basedir);
        if (assembly->dynamic) {
                g_free ((char*)assembly->aname.culture);
        } else {
                g_free (assembly);
        }
}

MonoImage*
mono_assembly_load_module (MonoAssembly *assembly, guint32 idx)
{
        MonoImageOpenStatus status;
        MonoImage *module;

        module = mono_image_load_file_for_image (assembly->image, idx);
        if (module)
                mono_assembly_load_references (module, &status);

        return module;
}

void
mono_assembly_foreach (GFunc func, gpointer user_data)
{
        GList *copy;

        /*
         * We make a copy of the list to avoid calling the callback inside the 
         * lock, which could lead to deadlocks.
         */
        mono_assemblies_lock ();
        copy = g_list_copy (loaded_assemblies);
        mono_assemblies_unlock ();

        g_list_foreach (loaded_assemblies, func, user_data);

        g_list_free (copy);
}

/**
 * mono_assemblies_cleanup:
 *
 * Free all resources used by this module.
 */
void
mono_assemblies_cleanup (void)
{
        GSList *l;

        DeleteCriticalSection (&assemblies_mutex);

        g_hash_table_destroy (assemblies_loading);
        g_hash_table_destroy (assemblies_refonly_loading);

        for (l = loaded_assembly_bindings; l; l = l->next) {
                MonoAssemblyBindingInfo *info = l->data;

                mono_assembly_binding_info_free (info);
                g_free (info);
        }
        g_slist_free (loaded_assembly_bindings);

        free_assembly_load_hooks ();
        free_assembly_search_hooks ();
        free_assembly_preload_hooks ();
}

/*
 * Holds the assembly of the application, for
 * System.Diagnostics.Process::MainModule
 */
static MonoAssembly *main_assembly=NULL;

void
mono_assembly_set_main (MonoAssembly *assembly)
{
        main_assembly = assembly;
}

/**
 * mono_assembly_get_main:
 *
 * Returns: the assembly for the application, the first assembly that is loaded by the VM
 */
MonoAssembly *
mono_assembly_get_main (void)
{
        return (main_assembly);
}

/**
 * mono_assembly_get_image:
 * @assembly: The assembly to retrieve the image from
 *
 * Returns: the MonoImage associated with this assembly.
 */
MonoImage*
mono_assembly_get_image (MonoAssembly *assembly)
{
        return assembly->image;
}

void
mono_register_bundled_assemblies (const MonoBundledAssembly **assemblies)
{
        bundles = assemblies;
}