2001-11-15 Marcus Brinkmann <marcus@g10code.de>

* verify.c (_gpgme_release_verify_result): Rename RES to RESULT.
	Rename R2 to NEXT_RESULT.
	(intersect_stati): Rename RES to RESULT.
	(gpgme_get_sig_status): Likewise.  Do not check return_type, but
	the member verify of result.
	(gpgme_get_sig_key): Likewise.

	* sign.c (_gpgme_release_sign_result): Rename RES to RESULT.  If
	RESULT is zero, return.
	(sign_status_handler, command_handler): Do not check return_type,
	but the member sign of result.
	(gpgme_op_sign): Likewise.  Drop assertion.

	* encrypt.c (_gpgme_release_encrypt_result): Rename RES to RESULT.
	If RESULT is zero, return.
	(encrypt_status_handler): Do not check return_type, but the member
	encrypt of result.
	(gpgme_op_encrypt): Likewise.  Drop assertion.

	* decrypt.c (_gpgme_release_decrypt_result): Rename RES to RESULT.
	(create_result_struct): Do not set result_type.
	(command_handler, decrypt_status_handler): Do not check
	return_type, but the member decrypt of result.
	(gpgme_op_decrypt): Likewise.  Drop assertion.

	* context.h (enum ResultType): Removed.
	(struct gpgme_context_s): Remove member result_type.
	(struct result): Replaces union result.
	* gpgme.c: Include string.h.
	(_gpgme_release_result): Release all members of c->result, which
	is now a struct.  Zero out all members of the struct afterwards.
This commit is contained in:
Marcus Brinkmann 2001-11-15 21:32:09 +00:00
parent 49a25a82e2
commit 9144124a61
7 changed files with 236 additions and 242 deletions

View File

@ -1,3 +1,37 @@
2001-11-15 Marcus Brinkmann <marcus@g10code.de>
* verify.c (_gpgme_release_verify_result): Rename RES to RESULT.
Rename R2 to NEXT_RESULT.
(intersect_stati): Rename RES to RESULT.
(gpgme_get_sig_status): Likewise. Do not check return_type, but
the member verify of result.
(gpgme_get_sig_key): Likewise.
* sign.c (_gpgme_release_sign_result): Rename RES to RESULT. If
RESULT is zero, return.
(sign_status_handler, command_handler): Do not check return_type,
but the member sign of result.
(gpgme_op_sign): Likewise. Drop assertion.
* encrypt.c (_gpgme_release_encrypt_result): Rename RES to RESULT.
If RESULT is zero, return.
(encrypt_status_handler): Do not check return_type, but the member
encrypt of result.
(gpgme_op_encrypt): Likewise. Drop assertion.
* decrypt.c (_gpgme_release_decrypt_result): Rename RES to RESULT.
(create_result_struct): Do not set result_type.
(command_handler, decrypt_status_handler): Do not check
return_type, but the member decrypt of result.
(gpgme_op_decrypt): Likewise. Drop assertion.
* context.h (enum ResultType): Removed.
(struct gpgme_context_s): Remove member result_type.
(struct result): Replaces union result.
* gpgme.c: Include string.h.
(_gpgme_release_result): Release all members of c->result, which
is now a struct. Zero out all members of the struct afterwards.
2001-11-11 Marcus Brinkmann <marcus@g10code.de>
* rungpg.c (_gpgme_gpg_release): Release GPG->cmd.cb_data.

View File

@ -26,15 +26,6 @@
#include "types.h"
#include "rungpg.h" /* for GpgObject */
typedef enum {
RESULT_TYPE_NONE = 0,
RESULT_TYPE_VERIFY,
RESULT_TYPE_DECRYPT,
RESULT_TYPE_SIGN,
RESULT_TYPE_ENCRYPT
} ResultType;
struct key_queue_item_s {
struct key_queue_item_s *next;
GpgmeKey key;
@ -71,8 +62,7 @@ struct gpgme_context_s {
int signers_size; /* size of the following array */
GpgmeKey *signers;
ResultType result_type;
union {
struct {
VerifyResult verify;
DecryptResult decrypt;
SignResult sign;

View File

@ -29,8 +29,8 @@
#include "context.h"
#include "ops.h"
struct decrypt_result_s {
struct decrypt_result_s
{
int no_passphrase;
int okay;
int failed;
@ -40,42 +40,39 @@ struct decrypt_result_s {
int bad_passphrase;
};
void
_gpgme_release_decrypt_result ( DecryptResult res )
_gpgme_release_decrypt_result (DecryptResult result)
{
if (!res )
if (!result)
return;
xfree (res->passphrase_info);
xfree (res->userid_hint);
xfree (res);
xfree (result->passphrase_info);
xfree (result->userid_hint);
xfree (result);
}
static GpgmeError
create_result_struct ( GpgmeCtx ctx )
create_result_struct (GpgmeCtx ctx)
{
assert ( !ctx->result.decrypt );
ctx->result.decrypt = xtrycalloc ( 1, sizeof *ctx->result.decrypt );
if ( !ctx->result.decrypt ) {
assert (!ctx->result.decrypt);
ctx->result.decrypt = xtrycalloc (1, sizeof *ctx->result.decrypt);
if (!ctx->result.decrypt)
return mk_error (Out_Of_Core);
}
ctx->result_type = RESULT_TYPE_DECRYPT;
return 0;
}
static void
decrypt_status_handler ( GpgmeCtx ctx, GpgStatusCode code, char *args )
decrypt_status_handler (GpgmeCtx ctx, GpgStatusCode code, char *args)
{
if ( ctx->out_of_core )
return;
if ( ctx->result_type == RESULT_TYPE_NONE ) {
if ( create_result_struct ( ctx ) ) {
if (! ctx->result.decrypt)
{
if (create_result_struct (ctx))
{
ctx->out_of_core = 1;
return;
}
}
assert ( ctx->result_type == RESULT_TYPE_DECRYPT );
switch (code) {
case STATUS_EOF:
@ -124,14 +121,16 @@ decrypt_status_handler ( GpgmeCtx ctx, GpgStatusCode code, char *args )
static const char *
command_handler ( void *opaque, GpgStatusCode code, const char *key )
command_handler (void *opaque, GpgStatusCode code, const char *key)
{
GpgmeCtx c = opaque;
if ( c->result_type == RESULT_TYPE_NONE ) {
if ( create_result_struct ( c ) ) {
if (! c->result.decrypt)
{
if (create_result_struct (c))
{
c->out_of_core = 1;
return NULL;
return;
}
}
@ -258,21 +257,21 @@ gpgme_op_decrypt_start ( GpgmeCtx c,
* Return value: 0 on success or an errorcode.
**/
GpgmeError
gpgme_op_decrypt ( GpgmeCtx c,
GpgmeData in, GpgmeData out )
gpgme_op_decrypt (GpgmeCtx c, GpgmeData in, GpgmeData out)
{
GpgmeError err = gpgme_op_decrypt_start ( c, in, out );
if ( !err ) {
GpgmeError err = gpgme_op_decrypt_start (c, in, out);
if (!err)
{
gpgme_wait (c, 1);
if ( c->result_type != RESULT_TYPE_DECRYPT )
if (!c->result.decrypt)
err = mk_error (General_Error);
else if ( c->out_of_core )
else if (c->out_of_core)
err = mk_error (Out_Of_Core);
else {
assert ( c->result.decrypt );
if ( c->result.decrypt->no_passphrase )
else
{
if (c->result.decrypt->no_passphrase)
err = mk_error (No_Passphrase);
else if ( c->result.decrypt->failed )
else if (c->result.decrypt->failed)
err = mk_error (Decryption_Failed);
else if (!c->result.decrypt->okay)
err = mk_error (No_Data);
@ -281,12 +280,3 @@ gpgme_op_decrypt ( GpgmeCtx c,
}
return err;
}

View File

@ -36,22 +36,21 @@
return; /* oops */ \
} while (0)
struct encrypt_result_s {
struct encrypt_result_s
{
int no_recipients;
GpgmeData xmlinfo;
};
void
_gpgme_release_encrypt_result (EncryptResult res)
_gpgme_release_encrypt_result (EncryptResult result)
{
gpgme_data_release (res->xmlinfo);
xfree (res);
if (!result)
return;
gpgme_data_release (result->xmlinfo);
xfree (result);
}
/*
* Parse the args and save the information
* in an XML structure.
@ -99,20 +98,19 @@ append_xml_encinfo (GpgmeData *rdh, char *args)
static void
encrypt_status_handler ( GpgmeCtx ctx, GpgStatusCode code, char *args )
encrypt_status_handler (GpgmeCtx ctx, GpgStatusCode code, char *args)
{
if ( ctx->out_of_core )
if (ctx->out_of_core)
return;
if ( ctx->result_type == RESULT_TYPE_NONE ) {
assert ( !ctx->result.encrypt );
ctx->result.encrypt = xtrycalloc ( 1, sizeof *ctx->result.encrypt );
if ( !ctx->result.encrypt ) {
if (!ctx->result.encrypt)
{
ctx->result.encrypt = xtrycalloc (1, sizeof *ctx->result.encrypt);
if (!ctx->result.encrypt)
{
ctx->out_of_core = 1;
return;
}
ctx->result_type = RESULT_TYPE_ENCRYPT;
}
assert ( ctx->result_type == RESULT_TYPE_ENCRYPT );
switch (code) {
case STATUS_EOF:
@ -230,12 +228,11 @@ gpgme_op_encrypt ( GpgmeCtx c, GpgmeRecipients recp,
int err = gpgme_op_encrypt_start ( c, recp, in, out );
if ( !err ) {
gpgme_wait (c, 1);
if ( c->result_type != RESULT_TYPE_ENCRYPT )
if (!c->result.encrypt)
err = mk_error (General_Error);
else if ( c->out_of_core )
else if (c->out_of_core)
err = mk_error (Out_Of_Core);
else {
assert ( c->result.encrypt );
if (c->result.encrypt->no_recipients)
err = mk_error (No_Recipients);
}

View File

@ -22,6 +22,7 @@
#include <config.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <assert.h>
#include "util.h"
@ -81,27 +82,13 @@ gpgme_release ( GpgmeCtx c )
void
_gpgme_release_result ( GpgmeCtx c )
_gpgme_release_result (GpgmeCtx c)
{
switch (c->result_type) {
case RESULT_TYPE_NONE:
break;
case RESULT_TYPE_VERIFY:
_gpgme_release_verify_result ( c->result.verify );
break;
case RESULT_TYPE_DECRYPT:
_gpgme_release_decrypt_result ( c->result.decrypt );
break;
case RESULT_TYPE_SIGN:
_gpgme_release_sign_result ( c->result.sign );
break;
case RESULT_TYPE_ENCRYPT:
_gpgme_release_encrypt_result ( c->result.encrypt );
break;
}
c->result.verify = NULL;
c->result_type = RESULT_TYPE_NONE;
_gpgme_release_verify_result (c->result.verify);
_gpgme_release_decrypt_result (c->result.decrypt);
_gpgme_release_sign_result (c->result.sign);
_gpgme_release_encrypt_result (c->result.encrypt);
memset (&c->result, 0, sizeof (c->result));
_gpgme_set_op_info (c, NULL);
}

View File

@ -36,10 +36,8 @@
return; /* oops */ \
} while (0)
struct sign_result_s {
struct sign_result_s
{
int no_passphrase;
int okay;
void *last_pw_handle;
@ -49,17 +47,17 @@ struct sign_result_s {
GpgmeData xmlinfo;
};
void
_gpgme_release_sign_result ( SignResult res )
_gpgme_release_sign_result (SignResult result)
{
gpgme_data_release (res->xmlinfo);
xfree (res->userid_hint);
xfree (res->passphrase_info);
xfree (res);
if (!result)
return;
gpgme_data_release (result->xmlinfo);
xfree (result->userid_hint);
xfree (result->passphrase_info);
xfree (result);
}
/* parse the args and save the information
* <type> <pubkey algo> <hash algo> <class> <timestamp> <key fpr>
* in an XML structure. With args of NULL the xml structure is closed.
@ -141,20 +139,19 @@ append_xml_siginfo (GpgmeData *rdh, char *args)
static void
sign_status_handler ( GpgmeCtx ctx, GpgStatusCode code, char *args )
sign_status_handler (GpgmeCtx ctx, GpgStatusCode code, char *args)
{
if ( ctx->out_of_core )
if (ctx->out_of_core)
return;
if ( ctx->result_type == RESULT_TYPE_NONE ) {
assert ( !ctx->result.sign );
ctx->result.sign = xtrycalloc ( 1, sizeof *ctx->result.sign );
if ( !ctx->result.sign ) {
if (!ctx->result.sign)
{
ctx->result.sign = xtrycalloc (1, sizeof *ctx->result.sign);
if (!ctx->result.sign)
{
ctx->out_of_core = 1;
return;
}
ctx->result_type = RESULT_TYPE_SIGN;
}
assert ( ctx->result_type == RESULT_TYPE_SIGN );
switch (code) {
case STATUS_EOF:
@ -207,14 +204,14 @@ command_handler ( void *opaque, GpgStatusCode code, const char *key )
{
GpgmeCtx c = opaque;
if ( c->result_type == RESULT_TYPE_NONE ) {
assert ( !c->result.sign );
c->result.sign = xtrycalloc ( 1, sizeof *c->result.sign );
if ( !c->result.sign ) {
if (!c->result.sign)
{
c->result.sign = xtrycalloc (1, sizeof *c->result.sign);
if (!c->result.sign)
{
c->out_of_core = 1;
return NULL;
}
c->result_type = RESULT_TYPE_SIGN;
}
if ( !code ) {
@ -373,22 +370,20 @@ gpgme_op_sign_start ( GpgmeCtx c, GpgmeData in, GpgmeData out,
* Return value: 0 on success or an error code.
**/
GpgmeError
gpgme_op_sign ( GpgmeCtx c, GpgmeData in, GpgmeData out, GpgmeSigMode mode )
gpgme_op_sign (GpgmeCtx c, GpgmeData in, GpgmeData out, GpgmeSigMode mode)
{
GpgmeError err = gpgme_op_sign_start ( c, in, out, mode );
if ( !err ) {
gpgme_wait (c, 1);
if ( c->result_type != RESULT_TYPE_SIGN )
if (!c->result.sign)
err = mk_error (General_Error);
else if ( c->out_of_core )
else if (c->out_of_core)
err = mk_error (Out_Of_Core);
else {
assert ( c->result.sign );
if ( c->result.sign->no_passphrase )
if (c->result.sign->no_passphrase)
err = mk_error (No_Passphrase);
else if (!c->result.sign->okay)
err = mk_error (No_Data); /* Hmmm: choose a better error? */
}
c->pending = 0;
}

View File

@ -30,29 +30,32 @@
#include "ops.h"
#include "key.h"
struct verify_result_s {
struct verify_result_s
{
struct verify_result_s *next;
GpgmeSigStat status;
GpgmeData notation; /* we store an XML fragment here */
int collecting; /* private to finish_sig() */
int notation_in_data; /* private to add_notation() */
char fpr[41]; /* fingerprint of a good signature or keyid of a bad one*/
ulong timestamp; /* signature creation time */
GpgmeData notation; /* We store an XML fragment here. */
int collecting; /* Private to finish_sig(). */
int notation_in_data; /* Private to add_notation(). */
char fpr[41]; /* Fingerprint of a good signature or keyid of
a bad one. */
ulong timestamp; /* Signature creation time. */
};
void
_gpgme_release_verify_result ( VerifyResult res )
_gpgme_release_verify_result (VerifyResult result)
{
while (res) {
VerifyResult r2 = res->next;
gpgme_data_release ( res->notation );
xfree (res);
res = r2;
while (result)
{
VerifyResult next_result = result->next;
gpgme_data_release (result->notation);
xfree (result);
result = next_result;
}
}
/* fixme: check that we are adding this to the correct signature */
/* FIXME: Check that we are adding this to the correct signature. */
static void
add_notation ( GpgmeCtx ctx, GpgStatusCode code, const char *data )
{
@ -133,16 +136,15 @@ verify_status_handler ( GpgmeCtx ctx, GpgStatusCode code, char *args )
if ( ctx->out_of_core )
return;
if ( ctx->result_type == RESULT_TYPE_NONE ) {
assert ( !ctx->result.verify );
ctx->result.verify = xtrycalloc ( 1, sizeof *ctx->result.verify );
if ( !ctx->result.verify ) {
if (!ctx->result.verify)
{
ctx->result.verify = xtrycalloc (1, sizeof *ctx->result.verify);
if (!ctx->result.verify)
{
ctx->out_of_core = 1;
return;
}
ctx->result_type = RESULT_TYPE_VERIFY;
}
assert ( ctx->result_type == RESULT_TYPE_VERIFY );
if (code == STATUS_GOODSIG
|| code == STATUS_BADSIG || code == STATUS_ERRSIG) {
@ -293,12 +295,13 @@ gpgme_op_verify_start ( GpgmeCtx c, GpgmeData sig, GpgmeData text )
* Figure out a common status value for all signatures
*/
static GpgmeSigStat
intersect_stati ( VerifyResult res )
intersect_stati (VerifyResult result)
{
GpgmeSigStat status = res->status;
GpgmeSigStat status = result->status;
for (res=res->next; res; res = res->next) {
if (status != res->status )
for (result = result->next; result; result = result->next)
{
if (status != result->status)
return GPGME_SIG_STAT_DIFF;
}
return status;
@ -344,13 +347,12 @@ gpgme_op_verify ( GpgmeCtx c, GpgmeData sig, GpgmeData text,
rc = gpgme_op_verify_start ( c, sig, text );
if ( !rc ) {
gpgme_wait (c, 1);
if ( c->result_type != RESULT_TYPE_VERIFY )
if (!c->result.verify)
rc = mk_error (General_Error);
else if ( c->out_of_core )
else if (c->out_of_core)
rc = mk_error (Out_Of_Core);
else {
assert ( c->result.verify );
/* fixme: Put all notation data into one XML fragment */
/* FIXME: Put all notation data into one XML fragment. */
if ( c->result.verify->notation ) {
GpgmeData dh = c->result.verify->notation;
@ -384,23 +386,24 @@ gpgme_op_verify ( GpgmeCtx c, GpgmeData sig, GpgmeData text,
**/
const char *
gpgme_get_sig_status (GpgmeCtx c, int idx,
GpgmeSigStat *r_stat, time_t *r_created )
GpgmeSigStat *r_stat, time_t *r_created)
{
VerifyResult res;
VerifyResult result;
if (!c || c->pending || c->result_type != RESULT_TYPE_VERIFY )
return NULL; /* No results yet or verification error */
if (!c || c->pending || !c->result.verify)
return NULL; /* No results yet or verification error. */
for (res = c->result.verify; res && idx>0 ; res = res->next, idx--)
for (result = c->result.verify;
result && idx > 0; result = result->next, idx--)
;
if (!res)
return NULL; /* No more signatures */
if (!result)
return NULL; /* No more signatures. */
if (r_stat)
*r_stat = res->status;
*r_stat = result->status;
if (r_created)
*r_created = res->timestamp;
return res->fpr;
*r_created = result->timestamp;
return result->fpr;
}
@ -418,40 +421,38 @@ gpgme_get_sig_status (GpgmeCtx c, int idx,
GpgmeError
gpgme_get_sig_key (GpgmeCtx c, int idx, GpgmeKey *r_key)
{
VerifyResult res;
VerifyResult result;
GpgmeError err = 0;
if (!c || !r_key)
return mk_error (Invalid_Value);
if (c->pending || c->result_type != RESULT_TYPE_VERIFY )
if (c->pending || !c->result.verify)
return mk_error (Busy);
for (res = c->result.verify; res && idx>0 ; res = res->next, idx--)
for (result = c->result.verify;
result && idx > 0; result = result->next, idx--)
;
if (!res)
if (!result)
return mk_error (EOF);
if (strlen(res->fpr) < 16) /* we have at least an key ID */
if (strlen(result->fpr) < 16) /* We have at least a key ID. */
return mk_error (Invalid_Key);
*r_key = _gpgme_key_cache_get (res->fpr);
if (!*r_key) {
*r_key = _gpgme_key_cache_get (result->fpr);
if (!*r_key)
{
GpgmeCtx listctx;
/* Fixme: This can be optimized by keeping
* an internal context used for such key listings */
if ( (err=gpgme_new (&listctx)) )
/* Fixme: This can be optimized by keeping an internal context
used for such key listings. */
err = gpgme_new (&listctx);
if (err)
return err;
gpgme_set_keylist_mode( listctx, c->keylist_mode );
if ( !(err=gpgme_op_keylist_start (listctx, res->fpr, 0 )) )
err=gpgme_op_keylist_next ( listctx, r_key );
gpgme_set_keylist_mode (listctx, c->keylist_mode);
err = gpgme_op_keylist_start (listctx, result->fpr, 0);
if (!err)
err = gpgme_op_keylist_next (listctx, r_key);
gpgme_release (listctx);
}
return err;
}