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* enable signature verification (WIP)

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This commit is contained in:
djcb
2012-08-30 12:53:52 +03:00
parent ed516d54d7
commit adc23614a1
7 changed files with 130 additions and 610 deletions
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396
lib/mu-msg-crypto.c
View File

@ -125,25 +125,6 @@ get_gpg_crypto_context (MuMsgOptions opts, GError **err)
return cctx;
}
/* static GMimeCryptoContext* */
/* get_pkcs7_crypto_context (MuMsgOptions opts, GError **err) */
/* { */
/* GMimeCryptoContext *cctx; */
/* cctx = g_mime_pkcs7_context_new (password_requester); */
/* if (!cctx) { */
/* mu_util_g_set_error (err, MU_ERROR, */
/* "failed to get PKCS7 crypto context"); */
/* return NULL; */
/* } */
/* g_mime_pkcs7_context_set_always_trust */
/* (GMIME_PKCS7_CONTEXT(cctx), FALSE); */
/* return cctx; */
/* } */
static GMimeCryptoContext*
get_crypto_context (MuMsgOptions opts, MuMsgPartPasswordFunc password_func,
@ -152,14 +133,11 @@ get_crypto_context (MuMsgOptions opts, MuMsgPartPasswordFunc password_func,
CallbackData *cbdata;
GMimeCryptoContext *cctx;
/* if (opts & MU_MSG_OPTION_USE_PKCS7) */
/* cctx = get_pkcs7_crypto_context (opts, err); */
/* else */
cctx = get_gpg_crypto_context (opts, err);
/* use gobject to pass data to the callback func */
cbdata = g_new0 (CallbackData, 1);
cbdata->pw_func = password_func;
cbdata->pw_func = password_func ? password_func : dummy_password_func;
cbdata->user_data = user_data;
g_object_set_data_full (G_OBJECT(cctx), CALLBACK_DATA,
@ -168,239 +146,26 @@ get_crypto_context (MuMsgOptions opts, MuMsgPartPasswordFunc password_func,
}
const char*
get_pubkey_algo_name (GMimePubKeyAlgo algo)
{
switch (algo) {
case GMIME_PUBKEY_ALGO_DEFAULT:
return "default";
case GMIME_PUBKEY_ALGO_RSA:
return "RSA";
case GMIME_PUBKEY_ALGO_RSA_E:
return "RSA (encryption only)";
case GMIME_PUBKEY_ALGO_RSA_S:
return "RSA (signing only)";
case GMIME_PUBKEY_ALGO_ELG_E:
return "ElGamal (encryption only)";
case GMIME_PUBKEY_ALGO_DSA:
return "DSA";
case GMIME_PUBKEY_ALGO_ELG:
return "ElGamal";
default:
return "unknown algorithm";
}
}
const gchar*
get_digestkey_algo_name (GMimeDigestAlgo algo)
{
switch (algo) {
case GMIME_DIGEST_ALGO_DEFAULT:
return "default";
case GMIME_DIGEST_ALGO_MD5:
return "MD5";
case GMIME_DIGEST_ALGO_SHA1:
return "SHA-1";
case GMIME_DIGEST_ALGO_RIPEMD160:
return "RIPEMD160";
case GMIME_DIGEST_ALGO_MD2:
return "MD2";
case GMIME_DIGEST_ALGO_TIGER192:
return "TIGER-192";
case GMIME_DIGEST_ALGO_HAVAL5160:
return "HAVAL-5-160";
case GMIME_DIGEST_ALGO_SHA256:
return "SHA-256";
case GMIME_DIGEST_ALGO_SHA384:
return "SHA-384";
case GMIME_DIGEST_ALGO_SHA512:
return "SHA-512";
case GMIME_DIGEST_ALGO_SHA224:
return "SHA-224";
case GMIME_DIGEST_ALGO_MD4:
return "MD4";
default:
return "unknown algorithm";
}
}
static void
harvest_certificate_info (GMimeSignature *sig, MuMsgPartSigInfo *siginfo)
{
GMimeCertificate *cert;
cert = g_mime_signature_get_certificate (sig);
if (!cert)
return; /* nothing to harvest */
siginfo->_cert = cert;
siginfo->issuer_serial = g_mime_certificate_get_issuer_serial (cert);
siginfo->issuer_name = g_mime_certificate_get_issuer_name (cert);
siginfo->fingerprint = g_mime_certificate_get_fingerprint (cert);
siginfo->key_id = g_mime_certificate_get_key_id (cert);
siginfo->email = g_mime_certificate_get_email (cert);
siginfo->name = g_mime_certificate_get_name (cert);
siginfo->pubkey_algo = get_pubkey_algo_name
(g_mime_certificate_get_pubkey_algo (cert));
siginfo->digest_algo = get_digestkey_algo_name
(g_mime_certificate_get_digest_algo (cert));
}
static MuMsgPartSigInfo*
sig_info_new (GMimeSignature *sig)
{
MuMsgPartSigInfo *siginfo;
MuMsgPartSigStatus status;
switch (g_mime_signature_get_status (sig)) {
case GMIME_SIGNATURE_STATUS_GOOD:
status = MU_MSG_PART_SIG_STATUS_GOOD; break;
case GMIME_SIGNATURE_STATUS_BAD:
status = MU_MSG_PART_SIG_STATUS_BAD; break;
default:
status = MU_MSG_PART_SIG_STATUS_ERROR; break;
}
if (status != MU_MSG_PART_SIG_STATUS_GOOD) {
GMimeSignatureError sigerr;
sigerr = g_mime_signature_get_errors (sig);
if (sigerr & GMIME_SIGNATURE_ERROR_EXPSIG)
status |= MU_MSG_PART_SIG_STATUS_EXPSIG;
if (sigerr & GMIME_SIGNATURE_ERROR_NO_PUBKEY)
status |= MU_MSG_PART_SIG_STATUS_NO_PUBKEY;
if (sigerr & GMIME_SIGNATURE_ERROR_EXPKEYSIG)
status |= MU_MSG_PART_SIG_STATUS_EXPKEYSIG;
if (sigerr & GMIME_SIGNATURE_ERROR_REVKEYSIG)
status |= MU_MSG_PART_SIG_STATUS_REVKEYSIG;
if (sigerr & GMIME_SIGNATURE_ERROR_UNSUPP_ALGO)
status |= MU_MSG_PART_SIG_STATUS_UNSUPP_ALGO;
}
siginfo = g_new0 (MuMsgPartSigInfo, 1);
siginfo->status = status;
siginfo->created = g_mime_signature_get_created (sig);
siginfo->expires = g_mime_signature_get_expires (sig);
harvest_certificate_info (sig, siginfo);
return siginfo;
}
static void
sig_info_destroy (MuMsgPartSigInfo *siginfo)
{
if (!siginfo)
return;
if (G_IS_OBJECT(siginfo->_cert))
g_object_unref (siginfo->_cert);
g_free (siginfo);
}
/* we create a fake siginfo when things go wrong */
static GSList*
error_sig_infos (void)
{
MuMsgPartSigInfo *sig_info;
sig_info = g_new0 (MuMsgPartSigInfo, 1);
sig_info->status = MU_MSG_PART_SIG_STATUS_FAIL;
return g_slist_prepend (NULL, sig_info);
}
GSList*
mu_msg_mime_sig_infos (GMimeMultipartSigned *sigmpart, MuMsgOptions opts,
GError **err)
static MuMsgPartSigStatus
get_verdict (GMimeSignatureList *sigs)
{
int i;
GMimeSignatureList *sigs;
GMimeCryptoContext *cctx;
GSList *siginfos;
if (!GMIME_IS_MULTIPART_SIGNED (sigmpart)) {
mu_util_g_set_error (err, MU_ERROR_IN_PARAMETERS,
"not a multipart/signed part");
return NULL; /* error */
}
/* dummy is good, since we don't need a password when checking
* signatures */
cctx = get_crypto_context (opts, dummy_password_func, NULL, err);
if (!cctx) /* return a fake siginfos with the error */
return error_sig_infos (); /* error */
sigs = g_mime_multipart_signed_verify (sigmpart, cctx, err);
g_object_unref (cctx);
if (!sigs)
return NULL; /* error */
for (i = 0, siginfos = NULL; i != g_mime_signature_list_length (sigs); ++i) {
MuMsgPartSigInfo *siginfo;
siginfo = sig_info_new
(g_mime_signature_list_get_signature (sigs, i));
siginfos = g_slist_prepend (siginfos, siginfo);
}
return siginfos;
}
void
mu_msg_part_free_sig_infos (GSList *siginfos)
{
g_slist_foreach (siginfos,
(GFunc)sig_info_destroy, NULL);
g_slist_free (siginfos);
}
/*
* - if there's any signature with MU_MSG_PART_SIG_STATUS_(ERROR|FAIL),
* the verdict is MU_MSG_PART_SIG_STATUS_ERROR
* - if not, if there's any signature with MU_MSG_PART_SIG_STATUS_BAD
* the verdict is MU_MSG_PART_SIG_STATUS_BAD
* - if not, if there's any signature with MU_MSG_PART_SIG_STATUS_GOOD
* the verdict is MU_MSG_PART_SIG_STATUS_GOOD
* - if not, the verdic is MU_MSG_PART_SIG_STATUS_UNKNOWN
*/
MuMsgPartSigStatus
mu_msg_part_sig_infos_verdict (GSList *sig_infos)
{
GSList *cur;
MuMsgPartSigStatus status;
status = MU_MSG_PART_SIG_STATUS_UNKNOWN;
status = MU_MSG_PART_SIG_STATUS_GOOD; /* let's start positive! */
for (cur = sig_infos; cur; cur = g_slist_next (cur)) {
MuMsgPartSigInfo *siginfo;
siginfo = (MuMsgPartSigInfo*)cur->data;
for (i = 0; i != g_mime_signature_list_length (sigs); ++i) {
/* if there's an error/failure, the verdict is error */
if (siginfo->status & MU_MSG_PART_SIG_STATUS_ERROR ||
siginfo->status & MU_MSG_PART_SIG_STATUS_FAIL)
return MU_MSG_PART_SIG_STATUS_ERROR;
GMimeSignature *msig;
GMimeSignatureStatus sigstat;
msig = g_mime_signature_list_get_signature (sigs, i);
sigstat = g_mime_signature_get_status (msig);
if (siginfo->status & MU_MSG_PART_SIG_STATUS_BAD)
status = MU_MSG_PART_SIG_STATUS_BAD;
if ((siginfo->status & MU_MSG_PART_SIG_STATUS_GOOD) &&
status == MU_MSG_PART_SIG_STATUS_UNKNOWN)
status = MU_MSG_PART_SIG_STATUS_GOOD;
switch (sigstat) {
case GMIME_SIGNATURE_STATUS_GOOD: continue;
case GMIME_SIGNATURE_STATUS_ERROR: return MU_MSG_PART_SIG_STATUS_ERROR;
case GMIME_SIGNATURE_STATUS_BAD: return MU_MSG_PART_SIG_STATUS_BAD;
}
}
return status;
@ -408,122 +173,41 @@ mu_msg_part_sig_infos_verdict (GSList *sig_infos)
const char*
mu_msg_part_sig_status_to_string (MuMsgPartSigStatus status)
MuMsgPartSigStatus
mu_msg_crypto_verify_part (GMimeMultipartSigned *sig, MuMsgOptions opts,
GError **err)
{
switch (status) {
case MU_MSG_PART_SIG_STATUS_UNKNOWN:
return "no signed part found";
case MU_MSG_PART_SIG_STATUS_GOOD:
return "good";
case MU_MSG_PART_SIG_STATUS_BAD:
return "bad signature";
case MU_MSG_PART_SIG_STATUS_ERROR:
return "error verifying signature";
case MU_MSG_PART_SIG_STATUS_FAIL:
return "crypto failed";
case MU_MSG_PART_SIG_STATUS_EXPSIG:
return "signature is expired";
case MU_MSG_PART_SIG_STATUS_NO_PUBKEY:
return "no public key found";
case MU_MSG_PART_SIG_STATUS_EXPKEYSIG:
return "expired public key";
case MU_MSG_PART_SIG_STATUS_REVKEYSIG:
return "revoked public key";
case MU_MSG_PART_SIG_STATUS_UNSUPP_ALGO:
return "unsupported algorithm";
default:
g_warning ("%s: invalid status %d",
__FUNCTION__, status);
return "invalid status";
}
}
MuMsgPartSigStatus sigstat;
GMimeCryptoContext *ctx;
GMimeSignatureList *sigs;
g_return_val_if_fail (GMIME_IS_MULTIPART_SIGNED(sig),
MU_MSG_PART_SIG_STATUS_FAIL);
char*
mu_msg_part_sig_statuses_to_string (MuMsgPartSigStatus status)
{
unsigned u;
GString *gstr;
MuMsgPartSigStatus statuses[] = {
MU_MSG_PART_SIG_STATUS_UNKNOWN,
MU_MSG_PART_SIG_STATUS_GOOD,
MU_MSG_PART_SIG_STATUS_BAD,
MU_MSG_PART_SIG_STATUS_ERROR,
MU_MSG_PART_SIG_STATUS_FAIL,
MU_MSG_PART_SIG_STATUS_EXPSIG,
MU_MSG_PART_SIG_STATUS_NO_PUBKEY,
MU_MSG_PART_SIG_STATUS_EXPKEYSIG,
MU_MSG_PART_SIG_STATUS_REVKEYSIG,
MU_MSG_PART_SIG_STATUS_UNSUPP_ALGO
};
if (status == MU_MSG_PART_SIG_STATUS_UNKNOWN)
return g_strdup
(mu_msg_part_sig_status_to_string (status));
gstr = g_string_sized_new (128);
for (u = 0; u != G_N_ELEMENTS(statuses); ++u) {
const gchar *statstr;
if (!(status & statuses[u]))
continue;
statstr = mu_msg_part_sig_status_to_string (statuses[u]);
if (gstr->len != 0)
gstr = g_string_append (gstr, ", ");
gstr = g_string_append (gstr, statstr);
ctx = get_crypto_context (opts, NULL, NULL, err);
if (!ctx) {
mu_util_g_set_error (err, MU_ERROR_CRYPTO,
"failed to get crypto context");
return MU_MSG_PART_SIG_STATUS_FAIL;
}
return g_string_free (gstr, FALSE);
sigs = g_mime_multipart_signed_verify (sig, ctx, err);
g_object_unref (ctx);
if (!sigs) {
if (err && !*err)
mu_util_g_set_error (err, MU_ERROR_CRYPTO,
"verification failed");
return MU_MSG_PART_SIG_STATUS_FAIL;
}
sigstat = get_verdict (sigs);
g_mime_signature_list_clear (sigs);
return sigstat;
}
char*
mu_msg_part_sig_info_to_string (MuMsgPartSigInfo *info)
{
GString *gstr;
gchar *statuses;
g_return_val_if_fail (info, NULL);
gstr = g_string_sized_new (128);
statuses = mu_msg_part_sig_statuses_to_string (info->status);
g_string_append_printf (gstr, "status: %s", statuses);
g_free (statuses);
if (info->status & MU_MSG_PART_SIG_STATUS_ERROR ||
info->status & MU_MSG_PART_SIG_STATUS_FAIL)
return g_string_free (gstr, FALSE);
g_string_append_printf (gstr, "; algorithms (P/D) (%s, %s)",
info->pubkey_algo, info->digest_algo);
g_string_append_printf (gstr, "; created: %s, expires: %s",
mu_date_str_s ("%c", info->created),
mu_date_str_s ("%c", info->expires));
if (info->name || info->email)
g_string_append_printf (gstr, "; who:%s %s",
info->name ? info-> name : "",
info->email ? info->email : "");
if (info->issuer_name && info->issuer_serial)
g_string_append_printf (gstr, "; issuer: %s (%s)",
info->issuer_name,
info->issuer_serial);
if (info->fingerprint)
g_string_append_printf (gstr, "; fingerprint: %s",
info->fingerprint);
return g_string_free (gstr, FALSE);
}
GMimeObject* /* this is declared in mu-msg-priv.h */
mu_msg_crypto_decrypt_part (GMimeMultipartEncrypted *enc, MuMsgOptions opts,

98
lib/mu-msg-crypto.h
View File

@ -25,104 +25,6 @@
#include <glib.h>
#include <mu-msg.h>
/* the signature status */
enum _MuMsgPartSigStatus {
MU_MSG_PART_SIG_STATUS_UNKNOWN = 0,
MU_MSG_PART_SIG_STATUS_GOOD = 1 << 0,
MU_MSG_PART_SIG_STATUS_BAD = 1 << 1,
MU_MSG_PART_SIG_STATUS_ERROR = 1 << 2,
/* status when crypto does not work */
MU_MSG_PART_SIG_STATUS_FAIL = 1 << 3,
MU_MSG_PART_SIG_STATUS_EXPSIG = 1 << 4, /* expired sig */
MU_MSG_PART_SIG_STATUS_NO_PUBKEY = 1 << 5, /* no public key */
MU_MSG_PART_SIG_STATUS_EXPKEYSIG = 1 << 6, /* key expired */
MU_MSG_PART_SIG_STATUS_REVKEYSIG = 1 << 7, /* revoked key */
MU_MSG_PART_SIG_STATUS_UNSUPP_ALGO = 1 << 8 /* unsupp'd algo */
};
typedef enum _MuMsgPartSigStatus MuMsgPartSigStatus;
struct _MuMsgPartSigInfo {
time_t created; /* creation time */
time_t expires; /* expiration time */
MuMsgPartSigStatus status; /* status of the signature */
const char *issuer_serial; /* issuer's serial #*/
const char *issuer_name; /* issuer name */
const char *fingerprint; /* fingerprint */
const char *key_id; /* key id */
const char *email;
const char *name;
const char *pubkey_algo; /* public key algorithm */
const char *digest_algo; /* digest algorithm */
const char *errmsg; /* errmsg when status ==
* MU_MSG_PART_SIG_STATUS_FAIL */
/* don't touch */
gpointer _cert;
};
typedef struct _MuMsgPartSigInfo MuMsgPartSigInfo;
/**
* get a human-readable string describing @param status; note, status
* must match a _single_ status.
*
* @param status
*
* @return a constant string describing status
*/
const char* mu_msg_part_sig_status_to_string (MuMsgPartSigStatus status);
/**
* summarize the signature checks to one status:
*
* - if there's any signature with MU_MSG_PART_SIG_STATUS_(ERROR|FAIL),
* the verdict is MU_MSG_PART_SIG_STATUS_ERROR
* - if not, if there's any signature with MU_MSG_PART_SIG_STATUS_BAD
* the verdict is MU_MSG_PART_SIG_STATUS_BAD
* - if not, if there's any signature with MU_MSG_PART_SIG_STATUS_GOOD
* the verdict is MU_MSG_PART_SIG_STATUS_GOOD
* - if not, the verdic is MU_MSG_PART_SIG_STATUS_UNKNOWN
*
* @param sig_infos
*
* @return the status
*/
MuMsgPartSigStatus mu_msg_part_sig_infos_verdict (GSList *sig_infos);
/**
* convert the bitwise-OR'ed statuses to a string
*
* @param statuses bitwise-OR'ed statuses
*
* @return newly allocated string (g_free)
*/
char* mu_msg_part_sig_statuses_to_string (MuMsgPartSigStatus statuses)
G_GNUC_MALLOC G_GNUC_WARN_UNUSED_RESULT;
/**
* get a human readable-description of siginfo
*
* @param info a MuMsgPartSigInfo ptr
*
* @return a newly allocated string (g_free)
*/
char* mu_msg_part_sig_info_to_string (MuMsgPartSigInfo *info)
G_GNUC_MALLOC G_GNUC_WARN_UNUSED_RESULT;
/**
* free the list of MuMsgPartSigInfo structures
*
* @param siginfo
*/
void mu_msg_part_free_sig_infos (GSList *siginfos);
struct _MuMsgDecryptedPart;
typedef struct _MuMsgDecryptedPart MuMsgDecryptedPart;

115
lib/mu-msg-part.c
View File

@ -220,87 +220,6 @@ get_part_size (GMimePart *part)
}
/* #ifdef BUILD_CRYPTO */
/* static void */
/* check_signature_maybe (GMimeObject *parent, GMimeObject *mobj, MuMsgPart *pi, */
/* MuMsgOptions opts) */
/* { */
/* GMimeContentType *ctype; */
/* GError *err; */
/* gboolean pkcs7; */
/* if (!GMIME_IS_MULTIPART_SIGNED (parent)) */
/* return; */
/* ctype = g_mime_object_get_content_type (mobj); */
/* if (g_mime_content_type_is_type */
/* (ctype, "application", "pgp-signature")) */
/* pkcs7 = FALSE; */
/* else if (g_mime_content_type_is_type */
/* (ctype, "application", "x-pkcs7-signature")) */
/* pkcs7 = TRUE; */
/* else return; /\* don't know how to handle other kinds *\/ */
/* if (pkcs7) */
/* opts |= MU_MSG_OPTION_USE_PKCS7; /\* gpg is the default *\/ */
/* err = NULL; */
/* pi->sig_infos = mu_msg_mime_sig_infos */
/* (GMIME_MULTIPART_SIGNED (parent), opts, &err); */
/* if (err) { */
/* g_warning ("error verifying signature: %s", err->message); */
/* g_clear_error (&err); */
/* } */
/* } */
/* #endif /\*BUILD_CRYPTO*\/ */
/* static gboolean */
/* init_msg_part_from_mime_part (MuMsgOptions opts, GMimeObject *parent, */
/* GMimePart *part, MuMsgPart *pi) */
/* { */
/* const gchar *fname, *descr; */
/* GMimeContentType *ct; */
/* ct = g_mime_object_get_content_type ((GMimeObject*)part); */
/* if (GMIME_IS_CONTENT_TYPE(ct)) { */
/* pi->type = (char*)g_mime_content_type_get_media_type (ct); */
/* pi->subtype = (char*)g_mime_content_type_get_media_subtype (ct); */
/* } */
/* pi->disposition = (char*)g_mime_object_get_disposition */
/* ((GMimeObject*)part); */
/* fname = g_mime_part_get_filename (part); */
/* pi->file_name = fname ? mu_str_utf8ify (fname) : NULL; */
/* descr = g_mime_part_get_content_description (part); */
/* pi->description = descr ? mu_str_utf8ify (descr) : NULL; */
/* pi->size = get_part_size (part); */
/* pi->part_type = MU_MSG_PART_TYPE_LEAF; */
/* if (!pi->disposition || */
/* g_ascii_strcasecmp (pi->disposition, */
/* GMIME_DISPOSITION_INLINE) == 0) */
/* pi->part_type |= MU_MSG_PART_TYPE_INLINE; */
/* if (GMIME_IS_MULTIPART_SIGNED (parent)) */
/* pi->part_type |= MU_MSG_PART_TYPE_SIGNED; */
/* /\* if we have crypto support, check the signature if there is one *\/ */
/* #ifdef BUILD_CRYPTO */
/* if (opts & MU_MSG_OPTION_CHECK_SIGNATURES) */
/* check_signature_maybe (parent, (GMimeObject*)part, */
/* pi, opts); */
/* #endif /\*BUILD_CRYPTO*\/ */
/* return TRUE; */
/* } */
static void
cleanup_filename (char *fname)
{
@ -378,13 +297,28 @@ get_disposition (GMimeObject *mobj)
return MU_MSG_PART_TYPE_NONE;
}
#define SIG_STATUS "sig-status"
/* call 'func' with information about this MIME-part */
static gboolean
handle_signed_part (MuMsg *msg,
GMimeMultipartSigned *part, GMimeObject *parent,
MuMsgOptions opts, unsigned index,
MuMsgPartForeachFunc func, gpointer user_data)
check_signature (MuMsg *msg, GMimeMultipartSigned *part, MuMsgOptions opts)
{
/* the signature status */
MuMsgPartSigStatus sigstat;
GError *err;
err = NULL;
sigstat = mu_msg_crypto_verify_part (part, opts, &err);
if (err) {
g_warning ("error verifying signature: %s", err->message);
g_clear_error (&err);
}
/* tag this part with the signature status check */
g_object_set_data (G_OBJECT(part), SIG_STATUS,
GSIZE_TO_POINTER(sigstat));
return TRUE;
}
@ -414,6 +348,12 @@ handle_part (MuMsg *msg, GMimePart *part, GMimeObject *parent,
msgpart.part_type = MU_MSG_PART_TYPE_LEAF;
msgpart.part_type |= get_disposition ((GMimeObject*)part);
/* get the sig status from the parent */
msgpart.sig_status =
(MuMsgPartSigStatus)
GPOINTER_TO_SIZE(g_object_get_data (G_OBJECT(parent),
SIG_STATUS));
ct = g_mime_object_get_content_type ((GMimeObject*)part);
if (GMIME_IS_CONTENT_TYPE(ct)) {
msgpart.type = g_mime_content_type_get_media_type (ct);
@ -480,9 +420,8 @@ handle_mime_object (MuMsg *msg,
(msg, GMIME_MESSAGE_PART(mobj),
parent, opts, index, func, user_data);
else if (GMIME_IS_MULTIPART_SIGNED (mobj))
return handle_signed_part
(msg, GMIME_MULTIPART_SIGNED (mobj),
parent, opts, index, func, user_data);
return check_signature
(msg, GMIME_MULTIPART_SIGNED (mobj), opts);
else if (GMIME_IS_MULTIPART_ENCRYPTED (mobj))
return handle_encrypted_part
(msg, GMIME_MULTIPART_ENCRYPTED (mobj),

17
lib/mu-msg-part.h
View File

@ -52,6 +52,18 @@ enum _MuMsgPartType {
typedef enum _MuMsgPartType MuMsgPartType;
/* the signature status */
enum _MuMsgPartSigStatus {
MU_MSG_PART_SIG_STATUS_UNSIGNED = 0,
MU_MSG_PART_SIG_STATUS_GOOD,
MU_MSG_PART_SIG_STATUS_BAD,
MU_MSG_PART_SIG_STATUS_ERROR,
MU_MSG_PART_SIG_STATUS_FAIL
};
typedef enum _MuMsgPartSigStatus MuMsgPartSigStatus;
struct _MuMsgPart {
/* index of this message part */
@ -69,10 +81,9 @@ struct _MuMsgPart {
gpointer data; /* opaque data */
MuMsgPartType part_type;
MuMsgPartType part_type;
MuMsgPartSigStatus sig_status;
/* crypto stuff */
GSList *sig_infos; /* list of MuMsgPartSig */
};
typedef struct _MuMsgPart MuMsgPart;

28
lib/mu-msg-priv.h
View File

@ -108,19 +108,6 @@ void mu_mime_message_foreach (GMimeMessage *msg, gboolean decrypt,
gpointer user_data);
#ifdef BUILD_CRYPTO
/**
* get signature information for the mime part
*
* @param part a multipart/sigde part
* @param opts options for the signature verification (we only use the
* crypto-related options in opts)
* @param err receives error info
*
* @return a list of MuMsgPartSig, or NULL
*/
GSList* mu_msg_mime_sig_infos (GMimeMultipartSigned *sigmpart,
MuMsgOptions opts, GError **err);
/**
* callback function to retrieve a password from the user
*
@ -134,6 +121,21 @@ GSList* mu_msg_mime_sig_infos (GMimeMultipartSigned *sigmpart,
typedef char* (*MuMsgPartPasswordFunc) (const char *user_id, const char *prompt_ctx,
gboolean reprompt, gpointer user_data);
/**
* verify the signature of a signed message part
*
* @param sig a signed message part
* @param opts message options
* @param err receive error information
*
* @return the verification status, or MU_MSG_PART_SIG_STATUS_FAIL in
* case of some internal error
*/
MuMsgPartSigStatus mu_msg_crypto_verify_part (GMimeMultipartSigned *sig, MuMsgOptions opts,
GError **err);
/**
* decrypt the given encrypted mime multipart
*

8
lib/mu-msg-sexp.c
View File

@ -263,10 +263,12 @@ elvis (const char *s1, const char *s2)
}
static const char*
sig_verdict (GSList *sig_infos)
sig_verdict (MuMsgPart *mpart)
{
#ifdef BUILD_CRYPTO
switch (mu_msg_part_sig_infos_verdict (sig_infos)) {
MuMsgPartSigStatus sigstat;
switch (mpart->sig_status) {
case MU_MSG_PART_SIG_STATUS_GOOD:
return ":signature good";
case MU_MSG_PART_SIG_STATUS_BAD:
@ -338,7 +340,7 @@ each_part (MuMsg *msg, MuMsgPart *part, PartInfo *pinfo)
parttype,
mu_msg_part_maybe_attachment (part) ? "t" : "nil",
(int)part->size,
sig_verdict (part->sig_infos));
sig_verdict (part));
g_free (pinfo->parts);
pinfo->parts = tmp;