gecko-dev/lib/libpwcac/pwcacapi.c
1998-06-26 23:55:37 +00:00

921 lines
18 KiB
C

/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 2 -*-
*
* The contents of this file are subject to the Netscape Public License
* Version 1.0 (the "NPL"); you may not use this file except in
* compliance with the NPL. You may obtain a copy of the NPL at
* http://www.mozilla.org/NPL/
*
* Software distributed under the NPL is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the NPL
* for the specific language governing rights and limitations under the
* NPL.
*
* The Initial Developer of this code under the NPL is Netscape
* Communications Corporation. Portions created by Netscape are
* Copyright (C) 1998 Netscape Communications Corporation. All Rights
* Reserved.
*/
/* backend glue code to do password caching
* Accepts password queries and does lookups in a secure database
*
* Written by Lou Montulli Jan 98
*/
#include "xp.h"
#include "prlog.h"
#include "mcom_db.h"
#include "pwcacapi.h"
#ifdef XP_MAC
#include <errno.h>
#endif
DB *pw_database=NULL;
XP_List *pc_interpret_funcs=NULL;
struct _PCNameValuePair {
char *name;
char *value;
};
struct _PCNameValueArray {
int32 cur_ptr;
int32 size;
int32 first_empty;
PCNameValuePair *pairs;
};
typedef struct {
char *module;
PCDataInterpretFunc *func;
} PCInterpretModuleAssoc;
PUBLIC void
PC_Shutdown()
{
if(pw_database)
{
(*pw_database->close)(pw_database);
pw_database = NULL;
}
}
PRIVATE int
pc_open_database(void)
{
char* filename = "passcac.db";
static Bool have_tried_open=FALSE;
if(!pw_database)
{
HASHINFO hash_info = {
4 * 1024,
0,
0,
#ifdef WIN16
60 * 1024,
#else
96 * 1024,
#endif
0,
0};
/* @@@ add .db to the end of the files
*/
pw_database = dbopen(filename,
O_RDWR | O_CREAT,
0600,
DB_HASH,
&hash_info);
if(!have_tried_open && !pw_database)
{
XP_StatStruct stat_entry;
have_tried_open = TRUE; /* only do this once */
PR_LogPrint("Could not open cache database -- errno: %d",errno);
/* if the file is zero length remove it
*/
if(XP_Stat("", &stat_entry, xpCacheFAT) != -1)
{
if(stat_entry.st_size <= 0)
{
XP_FileRemove("", xpCacheFAT);
}
}
/* try it again */
if (filename) {
pw_database = dbopen(filename,
O_RDWR | O_CREAT,
0600,
DB_HASH,
0);
}
else
pw_database = NULL;
}
}
/* return non-zero if the pw_database pointer is
* non-zero
*/
return((int) pw_database);
}
PRIVATE char *
pc_gen_key(char *module, char *module_key)
{
char *combo=NULL;
StrAllocCopy(combo, module);
StrAllocCat(combo, "\t");
StrAllocCat(combo, module_key);
return combo;
}
PRIVATE void
pc_separate_key(char *key, char **module, char **module_key)
{
char *tab;
*module = NULL;
*module_key = NULL;
if(!key)
return;
tab = XP_STRCHR(key, '\t');
if(!tab)
return;
*tab = '\0';
*module = XP_STRDUP(key);
*module_key = XP_STRDUP(tab+1);
*tab = '\t';
}
PRIVATE PCInterpretModuleAssoc *
pc_find_interpret_func(char *module)
{
XP_List *list_ptr = pc_interpret_funcs;
PCInterpretModuleAssoc *assoc;
if(!module)
return NULL;
while((assoc = (PCInterpretModuleAssoc *) XP_ListNextObject(list_ptr)) != NULL)
{
if(!XP_STRCMP(module, assoc->module))
return assoc;
}
return NULL;
}
/* returns 0 on success -1 on error */
PUBLIC int
PC_RegisterDataInterpretFunc(char *module, PCDataInterpretFunc *func)
{
PCInterpretModuleAssoc *assoc;
if(!pc_interpret_funcs)
{
pc_interpret_funcs = XP_ListNew();
if(!pc_interpret_funcs)
return -1;
}
if((assoc = pc_find_interpret_func(module)) != NULL)
{
assoc->func = func;
return 0;
}
assoc = XP_NEW(PCInterpretModuleAssoc);
if(!assoc)
return -1;
assoc->module = XP_STRDUP(module);
assoc->func = func;
if(!assoc->module)
{
XP_FREE(assoc);
return -1;
}
XP_ListAddObject(pc_interpret_funcs, assoc);
return 0;
}
PRIVATE void
pc_lookup_module_info(char *key,
char *data, int32 data_size,
char *type_buffer, int type_buffer_size,
char *url_buffer, int url_buffer_size,
char *username_buffer, int username_buffer_size,
char *password_buffer, int password_buffer_size)
{
char *module, *module_key;
PCInterpretModuleAssoc *assoc;
*type_buffer = '\0';
*url_buffer = '\0';
*username_buffer = '\0';
*password_buffer = '\0';
pc_separate_key(key, &module, &module_key);
if(!module || !module_key)
{
XP_FREEIF(module);
XP_FREEIF(module_key);
return;
}
/* lookup an explain function from the modules list and use it to interpret the data */
/* @@@@ */
if(0 == (assoc = pc_find_interpret_func(module)))
{
/* cant find one */
return;
}
(*assoc->func)(module,
module_key,
data, data_size,
type_buffer, type_buffer_size,
url_buffer, url_buffer_size,
username_buffer, username_buffer_size,
password_buffer, password_buffer_size);
}
/*, returns status
*/
PUBLIC int
PC_DisplayPasswordCacheAsHTML(URL_Struct *URL_s,
FO_Present_Types format_out,
MWContext *context)
{
DBT key, data;
int status = 1;
NET_StreamClass *stream;
char tmp_buffer[512];
char type_buffer[256];
char url_buffer[512];
char username_buffer[256];
char password_buffer[256];
format_out = CLEAR_CACHE_BIT(format_out);
StrAllocCopy(URL_s->content_type, TEXT_HTML);
stream = NET_StreamBuilder(format_out,
URL_s,
context);
if(!stream)
{
return MK_UNABLE_TO_CONVERT;
}
/* define a macro to push a string up the stream
* and handle errors
*/
#define PUT_PART(part) \
status = (*stream->put_block)(stream, \
part ? part : "Unknown", \
part ? XP_STRLEN(part) : 7); \
if(status < 0) \
goto END;
if(!pc_open_database())
{
XP_STRCPY(tmp_buffer, "The password database is currently unopenable");
PUT_PART(tmp_buffer);
goto END;
}
if(0 != (*pw_database->seq)(pw_database, &key, &data, R_FIRST))
{
XP_STRCPY(tmp_buffer, "The password database is currently empty");
PUT_PART(tmp_buffer);
goto END;
}
do {
pc_lookup_module_info(key.data,
data.data, data.size,
type_buffer, sizeof(type_buffer),
url_buffer, sizeof(url_buffer),
username_buffer, sizeof(username_buffer),
password_buffer, sizeof(password_buffer));
PUT_PART("Protocol: ");
PUT_PART(type_buffer);
PUT_PART("<br>\nURL: ");
PUT_PART(url_buffer);
PUT_PART("<br>\nUsername: ");
PUT_PART(username_buffer);
PUT_PART("<br>\nPassword: ");
PUT_PART(password_buffer);
PUT_PART("\n<HR>\n");
} while (0 == (*pw_database->seq)(pw_database, &key, &data, R_NEXT));
END:
if(status < 0)
(*stream->abort)(stream, status);
else
(*stream->complete)(stream);
return status;
}
PUBLIC int
PC_PromptUsernameAndPassword(MWContext *context,
char *prompt,
char **username,
char **password,
XP_Bool *remember,
XP_Bool is_secure)
{
*remember = TRUE;
*remember = FALSE;
return FE_PromptUsernameAndPassword(context, prompt, username, password);
}
PUBLIC char *
PC_PromptPassword(MWContext *context,
char *prompt,
XP_Bool *remember,
XP_Bool is_secure)
{
*remember = TRUE;
*remember = FALSE;
return FE_PromptPassword(context, prompt);
}
PUBLIC char *
PC_Prompt(MWContext *context,
char *prompt,
char *deflt,
XP_Bool *remember,
XP_Bool is_secure)
{
*remember = TRUE;
*remember = FALSE;
return FE_Prompt(context, prompt, deflt);
}
PUBLIC void
PC_FreeNameValueArray(PCNameValueArray *array)
{
int index;
if(array)
{
if(array->pairs)
{
for(index=0; index < array->first_empty; index++)
{
XP_FREEIF(array->pairs[index].name);
XP_FREEIF(array->pairs[index].value);
}
XP_FREE(array->pairs);
}
XP_FREE(array);
}
}
#define MIN_ARRAY_SIZE 4
#define GROW_ARRAY_BY 4
PRIVATE PCNameValueArray *
pc_new_namevaluearray(int init_size)
{
PCNameValueArray *array = XP_NEW_ZAP(PCNameValueArray);
if(!array)
return NULL;
array->pairs = (PCNameValuePair*)XP_CALLOC(init_size, sizeof(PCNameValuePair));
array->size = init_size;
array->first_empty = 0;
array->cur_ptr = 0;
if(!array->pairs)
{
PC_FreeNameValueArray(array);
return NULL;
}
return array;
}
PUBLIC PCNameValueArray *
PC_NewNameValueArray()
{
return pc_new_namevaluearray(MIN_ARRAY_SIZE);
}
PUBLIC uint32
PC_ArraySize(PCNameValueArray *array)
{
return(array->first_empty);
}
/* returns value for a given name
*/
char *
PC_FindInNameValueArray(PCNameValueArray *array, char *name)
{
int i;
for(i=0; i<array->first_empty; i++)
{
if(!XP_STRCMP(array->pairs[i].name, name))
return XP_STRDUP(array->pairs[i].value);
}
return NULL;
}
PUBLIC int
PC_DeleteNameFromNameValueArray(PCNameValueArray *array, char *name)
{
int i;
if(!array)
return -1;
for(i=0; i<array->first_empty; i++)
{
if(!XP_STRCMP(array->pairs[i].name, name))
{
/* found it */
/* delete it */
XP_FREE(array->pairs[i].name);
XP_FREEIF(array->pairs[i].value);
/* move everything */
array->first_empty--;
if(array->first_empty > i+1)
XP_MEMCPY(&array->pairs[i], &array->pairs[i+1], (array->first_empty - (i+1)) * sizeof(PCNameValuePair));
return 0;
}
}
return -1;
}
/* enumerates the array. DO NOT free the name and value results
*
* set beggining to TRUE to start over at the beginning
*/
PUBLIC void
PC_EnumerateNameValueArray(PCNameValueArray *array, char **name, char **value, XP_Bool beginning)
{
*name = NULL;
*value = NULL;
if(!array)
return;
if(beginning)
{
array->cur_ptr = 0;
}
else if(array->cur_ptr >= array->first_empty)
{
return;
}
*name = array->pairs[array->cur_ptr].name;
*value = array->pairs[array->cur_ptr].value;
array->cur_ptr++;
return;
}
/* private ver. takes pre malloced name and value strings */
PRIVATE int
pc_add_to_namevaluearray(PCNameValueArray *array, char *name, char *value)
{
if(array)
{
if(array->first_empty >= array->size-1)
{
/* need to grow */
array->size += GROW_ARRAY_BY;
array->pairs = (PCNameValuePair *)XP_REALLOC(array->pairs, array->size * sizeof(PCNameValuePair));
}
if(!array->pairs)
{
array->size = 0;
return -1;
}
array->pairs[array->first_empty].name = name;
array->pairs[array->first_empty].value = value;
array->first_empty++;
if(!array->pairs[array->first_empty-1].name
|| !array->pairs[array->first_empty-1].value)
return -1;
return 0;
}
return -1;
}
/* adds to end of name value array
*
* Possible to add duplicate names with this
*/
PUBLIC int
PC_AddToNameValueArray(PCNameValueArray *array, char *name, char *value)
{
char *m_name = XP_STRDUP(name);
char *m_value = XP_STRDUP(value);
if(!m_name || !m_value)
{
XP_FREEIF(m_name);
XP_FREEIF(m_value);
return -1;
}
return pc_add_to_namevaluearray(array, name, value);
}
/* takes a key string as input and returns a char * pointer
* in data to the serialized data structure previously stored or NULL.
* len will be filled in to the length of the data string
*
* A module name is also passed in to guarentee that a key from
* another module is never returned by an accidental key match.
*/
PUBLIC void
PC_CheckForStoredPasswordData(char *module, char *key, char **data, int32 *len)
{
DBT k_key, k_data;
char *combo;
int status;
*len = 0;
*data = NULL;
if(!pc_open_database())
return;
if((combo = pc_gen_key(module, key)) == NULL)
return;
k_key.size = XP_STRLEN(combo);
k_key.data = combo;
status = (*pw_database->get)(pw_database, &k_key, &k_data, 0);
XP_FREE(combo);
if(status != 0)
return;
*data = k_data.data;
*len = k_data.size;
return;
}
/* returns 0 on success else -1
*/
PUBLIC int
PC_DeleteStoredPassword(char *module, char *key)
{
DBT k_key;
char *combo;
int status;
if(!pc_open_database())
return -1;
if((combo = pc_gen_key(module, key)) == NULL)
return -1;
k_key.size = XP_STRLEN(combo);
k_key.data = combo;
status = (*pw_database->del)(pw_database, &k_key, 0);
XP_FREE(combo);
if(status != 0)
return -1;
return 0;
}
/* takes a key string as input and returns a name value array
*
* A module name is also passed in to guarentee that a key from
* another module is never returned by an accidental key match.
*/
PUBLIC PCNameValueArray *
PC_CheckForStoredPasswordArray(char *module, char *key)
{
char *data;
int32 len;
PC_CheckForStoredPasswordData(module, key, &data, &len);
if(!data)
return NULL;
return PC_CharToNameValueArray(data, len);
}
/* stores a serialized data stream in the password database
* returns 0 on success
*/
PUBLIC int
PC_StoreSerializedPassword(char *module, char *key, char *data, int32 len)
{
char *combo;
DBT k_key, k_data;
int status;
if(!pc_open_database())
return 0;
if((combo = pc_gen_key(module, key)) == NULL)
return -1;
k_key.size = XP_STRLEN(combo)+1;
k_key.data = combo;
k_data.data = data;
k_data.size = len;
status = (*pw_database->put)(pw_database, &k_key, &k_data, 0);
XP_FREE(combo);
if(status != 0)
return -1;
status = (*pw_database->sync)(pw_database, 0);
return 0;
}
/* stores a name value array in the password database
* returns 0 on success
*/
PUBLIC int
PC_StorePasswordNameValueArray(char *module, char *key, PCNameValueArray *array)
{
char *data;
int32 len;
int status;
PC_SerializeNameValueArray(array, &data, &len);
if(!data)
return -1;
status = PC_StoreSerializedPassword(module, key, data, len);
XP_FREE(data);
return status;
}
#define SERIALIZER_VERSION_NUM 1
/* takes a name value array and serializes to a char string.
* string is returned in "data" with length "len"
*
* data will always be NULL on error
*/
PUBLIC void
PC_SerializeNameValueArray(PCNameValueArray *array, char **data, int32 *len)
{
int32 total_size, net_long;
char *cur_ptr;
char *name, *value;
*len = 0;
*data = NULL;
XP_ASSERT(array && array->pairs);
if(!array)
return;
total_size = sizeof(int32)*3; /* start with checksum + ver + array_size amount */
/* determine size of arrays */
PC_EnumerateNameValueArray(array, &name, &value, TRUE);
while(name)
{
total_size += sizeof(int32); /* size of name len */
total_size += XP_STRLEN(name)+1;
total_size += sizeof(int32); /* size of value len */
if(value)
total_size += XP_STRLEN(value)+1;
PC_EnumerateNameValueArray(array, &name, &value, FALSE);
}
/* malloc enough space */
*data = XP_ALLOC(sizeof(char) * total_size);
if(!*data)
return;
cur_ptr = *data;
net_long = PR_htonl(total_size);
XP_MEMCPY(cur_ptr, &net_long, sizeof(int32));
cur_ptr += sizeof(int32);
net_long = PR_htonl(SERIALIZER_VERSION_NUM);
XP_MEMCPY(cur_ptr, &net_long, sizeof(int32));
cur_ptr += sizeof(int32);
net_long = PR_htonl(PC_ArraySize(array));
XP_MEMCPY(cur_ptr, &net_long, sizeof(int32));
cur_ptr += sizeof(int32);
PC_EnumerateNameValueArray(array, &name, &value, TRUE);
while(name)
{
net_long = PR_htonl((name ? XP_STRLEN(name)+1 : 0));
XP_MEMCPY(cur_ptr, &net_long, sizeof(int32));
cur_ptr += sizeof(int32);
net_long = PR_ntohl(net_long); /* convert back to true len */
if(net_long)
XP_MEMCPY((void *)cur_ptr, name, net_long);
cur_ptr += net_long;
net_long = PR_htonl((value ? XP_STRLEN(value)+1 : 0));
XP_MEMCPY(cur_ptr, &net_long, sizeof(int32));
cur_ptr += sizeof(int32);
net_long = PR_ntohl(net_long); /* convert back to true len */
if(net_long)
XP_MEMCPY((void *)cur_ptr, value, net_long);
cur_ptr += net_long;
PC_EnumerateNameValueArray(array, &name, &value, FALSE);
}
*len = total_size;
return;
}
/* returns a PCNameValueArray from serialized char data.
*
* returns NULL on error
*/
PUBLIC PCNameValueArray *
PC_CharToNameValueArray(char *data, int32 len)
{
int32 host_long, str_len, len_read, array_size, index;
char *cur_ptr;
char *name, *value;
PCNameValueArray *array;
/* must be at least 12 bytes, len and ver and array_size */
XP_ASSERT(len >= 12);
if(len < 12)
return NULL;
cur_ptr = data;
/* read first 4 bytes as checksum */
XP_MEMCPY(&host_long, cur_ptr, 4);
host_long = PR_ntohl(host_long);
cur_ptr += sizeof(int32);
len_read = sizeof(int32);
if(host_long != len)
{
XP_ASSERT(0); /* this one might happen on db error */
return NULL; /* failed checksum */
}
/* read next 4 bytes as ver */
XP_MEMCPY(&host_long, cur_ptr, 4);
host_long = PR_ntohl(host_long);
cur_ptr += sizeof(int32);
len_read += sizeof(int32);
if(host_long != SERIALIZER_VERSION_NUM)
{
XP_ASSERT(0);
return NULL; /* failed ver check */
}
/* read next 4 bytes as array_size */
XP_MEMCPY(&array_size, cur_ptr, 4);
array_size = PR_ntohl(array_size);
cur_ptr += sizeof(int32);
len_read += sizeof(int32);
/* malloc arrays */
array = pc_new_namevaluearray(array_size);
if(!array)
return NULL;
index = 0;
while(len_read < len)
{
/* next 4 bytes is length of name string */
XP_MEMCPY(&str_len, cur_ptr, 4);
str_len = PR_ntohl(str_len);
cur_ptr += sizeof(int32);
len_read += sizeof(int32);
if(len_read + str_len > len)
goto error_out;
name = XP_ALLOC(str_len * sizeof(char));
if(!name)
goto error_out;
XP_MEMCPY(name, cur_ptr, str_len);
len_read += str_len;
cur_ptr += str_len;
if(len_read >= len)
goto error_out;
/* next 4 bytes is length of value string */
XP_MEMCPY(&str_len, cur_ptr, 4);
str_len = PR_ntohl(str_len);
cur_ptr += sizeof(int32);
len_read += sizeof(int32);
if(len_read + str_len > len)
goto error_out;
value = XP_ALLOC(str_len * sizeof(char));
if(!value)
goto error_out;
XP_MEMCPY(value, cur_ptr, str_len);
len_read += str_len;
cur_ptr += str_len;
pc_add_to_namevaluearray(array, name, value);
index++;
}
XP_ASSERT(len_read == len);
return array;
error_out:
XP_ASSERT(0);
PC_FreeNameValueArray(array);
return NULL;
}