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# include "ssb.db.h"
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# include "log.h"
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# include "mem.h"
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# include "ssb.h"
# include "trace.h"
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# include "util.js.h"
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# include "ow-crypt.h"
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# include "sodium/crypto_hash_sha256.h"
# include "sodium/crypto_sign.h"
# include "sqlite3.h"
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# include "uv.h"
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# include <stdlib.h>
# include <string.h>
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# include <unistd.h>
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typedef struct _message_store_t message_store_t ;
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static void _tf_ssb_db_store_message_after_work ( tf_ssb_t * ssb , int status , void * user_data ) ;
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static void _tf_ssb_db_exec ( sqlite3 * db , const char * statement )
{
char * error = NULL ;
int result = sqlite3_exec ( db , statement , NULL , NULL , & error ) ;
if ( result ! = SQLITE_OK )
{
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tf_printf ( " Error running '%s': %s. \n " , statement , error ? error : sqlite3_errmsg ( db ) ) ;
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abort ( ) ;
}
}
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static bool _tf_ssb_db_has_rows ( sqlite3 * db , const char * query )
{
bool found = false ;
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
{
int result = SQLITE_OK ;
while ( ( result = sqlite3_step ( statement ) ) = = SQLITE_ROW )
{
found = true ;
}
if ( result ! = SQLITE_DONE )
{
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tf_printf ( " %s \n " , sqlite3_errmsg ( db ) ) ;
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abort ( ) ;
}
sqlite3_finalize ( statement ) ;
}
else
{
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tf_printf ( " %s \n " , sqlite3_errmsg ( db ) ) ;
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abort ( ) ;
}
return found ;
}
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static void _tf_ssb_db_init_internal ( sqlite3 * db )
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{
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sqlite3_extended_result_codes ( db , 1 ) ;
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_tf_ssb_db_exec ( db , " PRAGMA journal_mode = WAL " ) ;
_tf_ssb_db_exec ( db , " PRAGMA synchronous = NORMAL " ) ;
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}
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void tf_ssb_db_init_reader ( sqlite3 * db )
{
_tf_ssb_db_init_internal ( db ) ;
}
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void tf_ssb_db_init ( tf_ssb_t * ssb )
{
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sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
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_tf_ssb_db_init_internal ( db ) ;
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sqlite3_stmt * statement = NULL ;
int auto_vacuum = 0 ;
if ( sqlite3_prepare ( db , " PRAGMA auto_vacuum " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
auto_vacuum = sqlite3_column_int ( statement , 0 ) ;
}
sqlite3_finalize ( statement ) ;
}
if ( auto_vacuum ! = 1 /* FULL */ )
{
tf_printf ( " Enabling auto-vacuum and performing full vacuum. \n " ) ;
_tf_ssb_db_exec ( db , " PRAGMA auto_vacuum = FULL " ) ;
_tf_ssb_db_exec ( db , " VACUUM main " ) ;
tf_printf ( " All clean. \n " ) ;
}
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_tf_ssb_db_exec ( db ,
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" CREATE TABLE IF NOT EXISTS messages ( "
" author TEXT, "
" id TEXT PRIMARY KEY, "
" sequence INTEGER, "
" timestamp REAL, "
" previous TEXT, "
" hash TEXT, "
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" content BLOB, "
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" signature TEXT, "
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" flags INTEGER, "
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" UNIQUE(author, sequence) "
" ) " ) ;
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if ( _tf_ssb_db_has_rows ( db , " SELECT name FROM pragma_table_info('messages') WHERE name = 'content' AND type == 'TEXT' " ) )
{
tf_printf ( " converting to JSONB \n " ) ;
_tf_ssb_db_exec ( db , " DROP TRIGGER IF EXISTS messages_ai_refs " ) ;
_tf_ssb_db_exec ( db , " DROP TRIGGER IF EXISTS messages_ad_refs " ) ;
_tf_ssb_db_exec ( db , " DROP TRIGGER IF EXISTS messages_ai " ) ;
_tf_ssb_db_exec ( db , " DROP TRIGGER IF EXISTS messages_ad " ) ;
_tf_ssb_db_exec ( db , " DROP TABLE IF EXISTS messages_fts " ) ;
_tf_ssb_db_exec ( db , " BEGIN TRANSACTION " ) ;
_tf_ssb_db_exec ( db , " ALTER TABLE messages ADD COLUMN contentb BLOB " ) ;
_tf_ssb_db_exec ( db , " UPDATE messages SET contentb = jsonb(content) " ) ;
_tf_ssb_db_exec ( db , " ALTER TABLE messages DROP COLUMN content " ) ;
_tf_ssb_db_exec ( db , " ALTER TABLE messages RENAME COLUMN contentb TO content " ) ;
_tf_ssb_db_exec ( db , " COMMIT TRANSACTION " ) ;
}
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if ( _tf_ssb_db_has_rows ( db , " SELECT name FROM pragma_table_info('messages') WHERE name = 'sequence_before_author' " ) )
{
tf_printf ( " Renaming sequence_before_author -> flags. \n " ) ;
_tf_ssb_db_exec ( db , " ALTER TABLE messages RENAME COLUMN sequence_before_author TO flags " ) ;
}
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_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS messages_author_id_index ON messages (author, id) " ) ;
_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS messages_author_sequence_index ON messages (author, sequence) " ) ;
_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS messages_author_timestamp_index ON messages (author, timestamp) " ) ;
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_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS messages_timestamp_index ON messages (timestamp) " ) ;
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_tf_ssb_db_exec ( db ,
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" CREATE TABLE IF NOT EXISTS blobs ( "
" id TEXT PRIMARY KEY, "
" content BLOB, "
" created INTEGER "
" ) " ) ;
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_tf_ssb_db_exec ( db , " DROP TABLE IF EXISTS blob_wants " ) ;
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_tf_ssb_db_exec ( db ,
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" CREATE TABLE IF NOT EXISTS properties ( "
" id TEXT, "
" key TEXT, "
" value TEXT, "
" UNIQUE(id, key) "
" ) " ) ;
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_tf_ssb_db_exec ( db ,
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" CREATE TABLE IF NOT EXISTS connections ( "
" host TEXT, "
" port INTEGER, "
" key TEXT, "
" last_attempt INTEGER, "
" last_success INTEGER, "
" UNIQUE(host, port, key) "
" ) " ) ;
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_tf_ssb_db_exec ( db ,
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" CREATE TABLE IF NOT EXISTS identities ( "
" user TEXT, "
" public_key TEXT UNIQUE, "
" private_key TEXT UNIQUE "
" ) " ) ;
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_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS identities_user ON identities (user, public_key) " ) ;
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_tf_ssb_db_exec ( db , " DELETE FROM identities WHERE user = ':auth' " ) ;
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bool populate_fts = false ;
if ( ! _tf_ssb_db_has_rows ( db , " PRAGMA table_list('messages_fts') " ) )
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{
_tf_ssb_db_exec ( db , " CREATE VIRTUAL TABLE IF NOT EXISTS messages_fts USING fts5(content, content=messages, content_rowid=rowid) " ) ;
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populate_fts = true ;
}
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if ( ! populate_fts & & /* HACK */ false )
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{
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tf_printf ( " Checking FTS5 integrity... \n " ) ;
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if ( sqlite3_exec ( db , " INSERT INTO messages_fts(messages_fts, rank) VALUES ('integrity-check', 0) " , NULL , NULL , NULL ) = = SQLITE_CORRUPT_VTAB )
{
populate_fts = true ;
}
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tf_printf ( " Done. \n " ) ;
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}
if ( populate_fts )
{
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tf_printf ( " Populating full-text search... \n " ) ;
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_tf_ssb_db_exec ( db , " INSERT INTO messages_fts (rowid, content) SELECT rowid, json(content) FROM messages " ) ;
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tf_printf ( " Done. \n " ) ;
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}
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_tf_ssb_db_exec (
db , " CREATE TRIGGER IF NOT EXISTS messages_ai AFTER INSERT ON messages BEGIN INSERT INTO messages_fts(rowid, content) VALUES (new.rowid, json(new.content)); END " ) ;
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_tf_ssb_db_exec ( db ,
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" CREATE TRIGGER IF NOT EXISTS messages_ad AFTER DELETE ON messages BEGIN INSERT INTO messages_fts(messages_fts, rowid, content) VALUES ('delete', old.rowid, "
" old.content); END " ) ;
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if ( ! _tf_ssb_db_has_rows ( db , " PRAGMA table_list('messages_refs') " ) )
{
_tf_ssb_db_exec ( db ,
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" CREATE TABLE IF NOT EXISTS messages_refs ( "
" message TEXT, "
" ref TEXT, "
" UNIQUE(message, ref) "
" ) " ) ;
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tf_printf ( " Populating messages_refs... \n " ) ;
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_tf_ssb_db_exec ( db ,
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" INSERT INTO messages_refs(message, ref) "
" SELECT messages.id, j.value FROM messages, json_tree(messages.content) as j WHERE "
" j.value LIKE '&%.sha256' OR "
" j.value LIKE '%%%.sha256' OR "
" j.value LIKE '@%.ed25519' "
" ON CONFLICT DO NOTHING " ) ;
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tf_printf ( " Done. \n " ) ;
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}
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_tf_ssb_db_exec ( db , " DROP TRIGGER IF EXISTS messages_ai_refs " ) ;
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_tf_ssb_db_exec ( db ,
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" CREATE TRIGGER IF NOT EXISTS messages_ai_refs AFTER INSERT ON messages BEGIN "
" INSERT INTO messages_refs(message, ref) "
" SELECT DISTINCT new.id, j.value FROM json_tree(new.content) as j WHERE "
" j.value LIKE '&%.sha256' OR "
" j.value LIKE '%%%.sha256' OR "
" j.value LIKE '@%.ed25519' "
" ON CONFLICT DO NOTHING; END " ) ;
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_tf_ssb_db_exec ( db , " DROP TRIGGER IF EXISTS messages_ad_refs " ) ;
_tf_ssb_db_exec ( db , " CREATE TRIGGER IF NOT EXISTS messages_ad_refs AFTER DELETE ON messages BEGIN DELETE FROM messages_refs WHERE messages_refs.message = old.id; END " ) ;
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_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS messages_refs_message_idx ON messages_refs (message) " ) ;
_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS messages_refs_ref_idx ON messages_refs (ref) " ) ;
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_tf_ssb_db_exec ( db , " DROP VIEW IF EXISTS blob_wants_view " ) ;
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_tf_ssb_db_exec ( db ,
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" CREATE VIEW IF NOT EXISTS blob_wants_view (id, timestamp) AS "
" SELECT messages_refs.ref AS id, messages.timestamp AS timestamp "
" FROM messages_refs "
" JOIN messages ON messages.id = messages_refs.message "
" LEFT OUTER JOIN blobs ON messages_refs.ref = blobs.id "
" WHERE blobs.id IS NULL "
" AND LENGTH(messages_refs.ref) = 52 "
" AND messages_refs.ref LIKE '&%.sha256' " ) ;
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bool need_add_flags = true ;
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bool need_convert_timestamp_to_real = false ;
if ( sqlite3_prepare ( db , " PRAGMA table_info(messages) " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
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int result = SQLITE_OK ;
while ( ( result = sqlite3_step ( statement ) ) = = SQLITE_ROW )
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{
const char * name = ( const char * ) sqlite3_column_text ( statement , 1 ) ;
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const char * type = ( const char * ) sqlite3_column_text ( statement , 2 ) ;
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if ( name & & type & & strcmp ( name , " timestamp " ) = = 0 & & strcmp ( type , " INTEGER " ) = = 0 )
{
need_convert_timestamp_to_real = true ;
}
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if ( name & & strcmp ( name , " flags " ) = = 0 )
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{
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need_add_flags = false ;
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}
}
sqlite3_finalize ( statement ) ;
}
if ( need_convert_timestamp_to_real )
{
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tf_printf ( " Converting timestamp column from INTEGER to REAL. \n " ) ;
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_tf_ssb_db_exec ( db , " BEGIN TRANSACTION " ) ;
_tf_ssb_db_exec ( db , " DROP INDEX IF EXISTS messages_author_timestamp_index " ) ;
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_tf_ssb_db_exec ( db , " ALTER TABLE messages ADD COLUMN timestamp_real REAL " ) ;
_tf_ssb_db_exec ( db , " UPDATE messages SET timestamp_real = timestamp " ) ;
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_tf_ssb_db_exec ( db , " ALTER TABLE messages DROP COLUMN timestamp " ) ;
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_tf_ssb_db_exec ( db , " ALTER TABLE messages RENAME COLUMN timestamp_real TO timestamp " ) ;
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_tf_ssb_db_exec ( db , " CREATE INDEX IF NOT EXISTS messages_author_timestamp_index ON messages (author, timestamp) " ) ;
_tf_ssb_db_exec ( db , " COMMIT TRANSACTION " ) ;
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}
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if ( need_add_flags )
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{
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tf_printf ( " Adding flags column. \n " ) ;
_tf_ssb_db_exec ( db , " ALTER TABLE messages ADD COLUMN flags INTEGER " ) ;
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}
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tf_ssb_release_db_writer ( ssb , db ) ;
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}
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static bool _tf_ssb_db_previous_message_exists ( sqlite3 * db , const char * author , int64_t sequence , const char * previous )
{
bool exists = false ;
if ( sequence = = 1 )
{
exists = true ;
}
else
{
sqlite3_stmt * statement ;
if ( sqlite3_prepare ( db , " SELECT COUNT(*) FROM messages WHERE author = ?1 AND sequence = ?2 AND id = ?3 " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
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if ( sqlite3_bind_text ( statement , 1 , author , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_int64 ( statement , 2 , sequence - 1 ) = = SQLITE_OK & &
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sqlite3_bind_text ( statement , 3 , previous , - 1 , NULL ) = = SQLITE_OK & & sqlite3_step ( statement ) = = SQLITE_ROW )
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{
exists = sqlite3_column_int ( statement , 0 ) ! = 0 ;
}
sqlite3_finalize ( statement ) ;
}
}
return exists ;
}
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static int64_t _tf_ssb_db_store_message_raw ( tf_ssb_t * ssb , const char * id , const char * previous , const char * author , int64_t sequence , double timestamp , const char * content ,
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size_t content_len , const char * signature , int flags )
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{
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sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
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int64_t last_row_id = - 1 ;
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if ( _tf_ssb_db_previous_message_exists ( db , author , sequence , previous ) )
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{
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const char * query = " INSERT INTO messages (id, previous, author, sequence, timestamp, content, hash, signature, flags) VALUES (?, ?, ?, ?, ?, jsonb(?), "
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" ?, ?, ?) ON CONFLICT DO NOTHING " ;
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sqlite3_stmt * statement ;
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if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK & &
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( previous ? sqlite3_bind_text ( statement , 2 , previous , - 1 , NULL ) : sqlite3_bind_null ( statement , 2 ) ) = = SQLITE_OK & &
sqlite3_bind_text ( statement , 3 , author , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_int64 ( statement , 4 , sequence ) = = SQLITE_OK & &
sqlite3_bind_double ( statement , 5 , timestamp ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 6 , content , content_len , NULL ) = = SQLITE_OK & &
sqlite3_bind_text ( statement , 7 , " sha256 " , 6 , NULL ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 8 , signature , - 1 , NULL ) = = SQLITE_OK & &
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sqlite3_bind_int ( statement , 9 , flags ) = = SQLITE_OK )
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{
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int r = sqlite3_step ( statement ) ;
if ( r ! = SQLITE_DONE )
{
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tf_printf ( " _tf_ssb_db_store_message_raw: %s \n " , sqlite3_errmsg ( db ) ) ;
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}
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if ( r = = SQLITE_DONE & & sqlite3_changes ( db ) ! = 0 )
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{
last_row_id = sqlite3_last_insert_rowid ( db ) ;
}
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}
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else
{
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tf_printf ( " bind failed \n " ) ;
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}
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sqlite3_finalize ( statement ) ;
}
else
{
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tf_printf ( " %s: prepare failed: %s \n " , __FUNCTION__ , sqlite3_errmsg ( db ) ) ;
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}
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}
else
{
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tf_printf ( " %p: Previous message doesn't exist for author=%s sequence=% " PRId64 " previous=%s. \n " , db , author , sequence , previous ) ;
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}
tf_ssb_release_db_writer ( ssb , db ) ;
return last_row_id ;
}
static char * _tf_ssb_db_get_message_blob_wants ( tf_ssb_t * ssb , int64_t rowid )
{
sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
sqlite3_stmt * statement ;
char * result = NULL ;
size_t size = 0 ;
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if ( sqlite3_prepare ( db ,
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" SELECT DISTINCT json.value FROM messages, json_tree(messages.content) AS json LEFT OUTER JOIN blobs ON json.value = blobs.id WHERE messages.rowid = ?1 AND "
" json.value LIKE '&%%.sha256' AND length(json.value) = ?2 AND blobs.content IS NULL " ,
- 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_int64 ( statement , 1 , rowid ) = = SQLITE_OK & & sqlite3_bind_int ( statement , 2 , k_blob_id_len - 1 ) = = SQLITE_OK )
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{
int r = SQLITE_OK ;
while ( ( r = sqlite3_step ( statement ) ) = = SQLITE_ROW )
{
int id_size = sqlite3_column_bytes ( statement , 0 ) ;
const uint8_t * id = sqlite3_column_text ( statement , 0 ) ;
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result = tf_resize_vec ( result , size + id_size + 1 ) ;
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memcpy ( result + size , id , id_size + 1 ) ;
size + = id_size + 1 ;
}
if ( r ! = SQLITE_DONE )
{
tf_printf ( " %s \n " , sqlite3_errmsg ( db ) ) ;
}
}
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else
{
tf_printf ( " bind failed: %s \n " , sqlite3_errmsg ( db ) ) ;
}
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sqlite3_finalize ( statement ) ;
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}
else
{
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tf_printf ( " %s: prepare failed: %s \n " , __FUNCTION__ , sqlite3_errmsg ( db ) ) ;
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}
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result = tf_realloc ( result , size + 1 ) ;
result [ size ] = ' \0 ' ;
tf_ssb_release_db_reader ( ssb , db ) ;
return result ;
}
typedef struct _message_store_t
{
char id [ k_id_base64_len ] ;
char signature [ 512 ] ;
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int flags ;
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char previous [ k_id_base64_len ] ;
char author [ k_id_base64_len ] ;
int64_t sequence ;
double timestamp ;
const char * content ;
size_t length ;
bool out_stored ;
char * out_blob_wants ;
tf_ssb_db_store_message_callback_t * callback ;
void * user_data ;
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message_store_t * next ;
} message_store_t ;
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static void _tf_ssb_db_store_message_work ( tf_ssb_t * ssb , void * user_data )
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{
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message_store_t * store = user_data ;
int64_t last_row_id = _tf_ssb_db_store_message_raw (
ssb , store - > id , * store - > previous ? store - > previous : NULL , store - > author , store - > sequence , store - > timestamp , store - > content , store - > length , store - > signature , store - > flags ) ;
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if ( last_row_id ! = - 1 )
{
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store - > out_stored = true ;
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store - > out_blob_wants = _tf_ssb_db_get_message_blob_wants ( ssb , last_row_id ) ;
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}
}
static void _wake_up_queue ( tf_ssb_t * ssb , tf_ssb_store_queue_t * queue )
{
if ( ! queue - > running )
{
message_store_t * next = queue - > head ;
if ( next )
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{
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queue - > head = next - > next ;
if ( queue - > tail = = next )
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{
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queue - > tail = NULL ;
}
next - > next = NULL ;
queue - > running = true ;
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tf_ssb_run_work ( ssb , _tf_ssb_db_store_message_work , _tf_ssb_db_store_message_after_work , next ) ;
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}
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}
}
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static void _tf_ssb_db_store_message_after_work ( tf_ssb_t * ssb , int status , void * user_data )
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{
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message_store_t * store = user_data ;
tf_trace_t * trace = tf_ssb_get_trace ( ssb ) ;
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if ( store - > out_stored )
{
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tf_trace_begin ( trace , " notify_message_added " ) ;
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JSContext * context = tf_ssb_get_context ( ssb ) ;
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JSValue formatted =
tf_ssb_format_message ( context , store - > previous , store - > author , store - > sequence , store - > timestamp , " sha256 " , store - > content , store - > signature , store - > flags ) ;
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JSValue message = JS_NewObject ( context ) ;
JS_SetPropertyStr ( context , message , " key " , JS_NewString ( context , store - > id ) ) ;
JS_SetPropertyStr ( context , message , " value " , formatted ) ;
char timestamp_string [ 256 ] ;
snprintf ( timestamp_string , sizeof ( timestamp_string ) , " %f " , store - > timestamp ) ;
JS_SetPropertyStr ( context , message , " timestamp " , JS_NewString ( context , timestamp_string ) ) ;
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tf_ssb_notify_message_added ( ssb , store - > id , message ) ;
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JS_FreeValue ( context , message ) ;
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tf_trace_end ( trace ) ;
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}
if ( store - > out_blob_wants )
{
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tf_trace_begin ( trace , " notify_blob_wants_added " ) ;
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for ( char * p = store - > out_blob_wants ; * p ; p = p + strlen ( p ) )
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{
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tf_ssb_notify_blob_want_added ( ssb , p ) ;
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}
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tf_free ( store - > out_blob_wants ) ;
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tf_trace_end ( trace ) ;
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}
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JSContext * context = tf_ssb_get_context ( ssb ) ;
if ( store - > callback )
{
store - > callback ( store - > id , store - > out_stored , store - > user_data ) ;
}
JS_FreeCString ( context , store - > content ) ;
tf_ssb_store_queue_t * queue = tf_ssb_get_store_queue ( ssb ) ;
queue - > running = false ;
_wake_up_queue ( ssb , queue ) ;
tf_free ( store ) ;
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}
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void tf_ssb_db_store_message (
tf_ssb_t * ssb , JSContext * context , const char * id , JSValue val , const char * signature , int flags , tf_ssb_db_store_message_callback_t * callback , void * user_data )
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{
JSValue previousval = JS_GetPropertyStr ( context , val , " previous " ) ;
const char * previous = JS_IsNull ( previousval ) ? NULL : JS_ToCString ( context , previousval ) ;
JS_FreeValue ( context , previousval ) ;
JSValue authorval = JS_GetPropertyStr ( context , val , " author " ) ;
const char * author = JS_ToCString ( context , authorval ) ;
JS_FreeValue ( context , authorval ) ;
int64_t sequence = - 1 ;
JSValue sequenceval = JS_GetPropertyStr ( context , val , " sequence " ) ;
JS_ToInt64 ( context , & sequence , sequenceval ) ;
JS_FreeValue ( context , sequenceval ) ;
double timestamp = - 1.0 ;
JSValue timestampval = JS_GetPropertyStr ( context , val , " timestamp " ) ;
JS_ToFloat64 ( context , & timestamp , timestampval ) ;
JS_FreeValue ( context , timestampval ) ;
JSValue contentval = JS_GetPropertyStr ( context , val , " content " ) ;
JSValue content = JS_JSONStringify ( context , contentval , JS_NULL , JS_NULL ) ;
size_t content_len ;
const char * contentstr = JS_ToCStringLen ( context , & content_len , content ) ;
JS_FreeValue ( context , content ) ;
JS_FreeValue ( context , contentval ) ;
message_store_t * store = tf_malloc ( sizeof ( message_store_t ) ) ;
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* store = ( message_store_t ) {
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. sequence = sequence ,
. timestamp = timestamp ,
. content = contentstr ,
. length = content_len ,
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. flags = flags ,
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. callback = callback ,
. user_data = user_data ,
} ;
snprintf ( store - > id , sizeof ( store - > id ) , " %s " , id ) ;
snprintf ( store - > previous , sizeof ( store - > previous ) , " %s " , previous ? previous : " " ) ;
snprintf ( store - > author , sizeof ( store - > author ) , " %s " , author ) ;
snprintf ( store - > signature , sizeof ( store - > signature ) , " %s " , signature ) ;
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JS_FreeCString ( context , author ) ;
JS_FreeCString ( context , previous ) ;
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tf_ssb_store_queue_t * queue = tf_ssb_get_store_queue ( ssb ) ;
if ( queue - > tail )
{
message_store_t * tail = queue - > tail ;
tail - > next = store ;
queue - > tail = store ;
}
else
{
queue - > head = store ;
queue - > tail = store ;
}
_wake_up_queue ( ssb , queue ) ;
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}
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bool tf_ssb_db_message_content_get ( tf_ssb_t * ssb , const char * id , uint8_t * * out_blob , size_t * out_size )
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{
bool result = false ;
sqlite3_stmt * statement ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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const char * query = " SELECT json(content) FROM messages WHERE id = ? " ;
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if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK & & sqlite3_step ( statement ) = = SQLITE_ROW )
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{
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const uint8_t * blob = sqlite3_column_blob ( statement , 0 ) ;
int size = sqlite3_column_bytes ( statement , 0 ) ;
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if ( out_blob )
{
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* out_blob = tf_malloc ( size + 1 ) ;
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memcpy ( * out_blob , blob , size ) ;
( * out_blob ) [ size ] = ' \0 ' ;
}
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if ( out_size )
{
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* out_size = size ;
}
result = true ;
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_reader ( ssb , db ) ;
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return result ;
}
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bool tf_ssb_db_blob_has ( tf_ssb_t * ssb , const char * id )
{
bool result = false ;
sqlite3_stmt * statement ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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const char * query = " SELECT COUNT(*) FROM blobs WHERE id = ?1 " ;
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if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK & & sqlite3_step ( statement ) = = SQLITE_ROW )
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{
result = sqlite3_column_int64 ( statement , 0 ) ! = 0 ;
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_reader ( ssb , db ) ;
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return result ;
}
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bool tf_ssb_db_blob_get ( tf_ssb_t * ssb , const char * id , uint8_t * * out_blob , size_t * out_size )
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{
bool result = false ;
sqlite3_stmt * statement ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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const char * query = " SELECT content FROM blobs WHERE id = ?1 " ;
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if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK & & sqlite3_step ( statement ) = = SQLITE_ROW )
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{
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const uint8_t * blob = sqlite3_column_blob ( statement , 0 ) ;
int size = sqlite3_column_bytes ( statement , 0 ) ;
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if ( out_blob )
{
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* out_blob = tf_malloc ( size + 1 ) ;
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if ( size )
{
memcpy ( * out_blob , blob , size ) ;
}
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( * out_blob ) [ size ] = ' \0 ' ;
}
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if ( out_size )
{
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* out_size = size ;
}
result = true ;
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_reader ( ssb , db ) ;
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return result ;
}
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typedef struct _blob_get_async_t
{
tf_ssb_t * ssb ;
char id [ k_blob_id_len ] ;
tf_ssb_db_blob_get_callback_t * callback ;
void * user_data ;
bool out_found ;
uint8_t * out_data ;
size_t out_size ;
} blob_get_async_t ;
static void _tf_ssb_db_blob_get_async_work ( tf_ssb_t * ssb , void * user_data )
{
blob_get_async_t * async = user_data ;
async - > out_found = tf_ssb_db_blob_get ( ssb , async - > id , & async - > out_data , & async - > out_size ) ;
}
static void _tf_ssb_db_blob_get_async_after_work ( tf_ssb_t * ssb , int status , void * user_data )
{
blob_get_async_t * async = user_data ;
async - > callback ( async - > out_found , async - > out_data , async - > out_size , async - > user_data ) ;
tf_free ( async - > out_data ) ;
tf_free ( async ) ;
}
void tf_ssb_db_blob_get_async ( tf_ssb_t * ssb , const char * id , tf_ssb_db_blob_get_callback_t * callback , void * user_data )
{
blob_get_async_t * async = tf_malloc ( sizeof ( blob_get_async_t ) ) ;
* async = ( blob_get_async_t ) {
. ssb = ssb ,
. callback = callback ,
. user_data = user_data ,
} ;
snprintf ( async - > id , sizeof ( async - > id ) , " %s " , id ) ;
tf_ssb_run_work ( ssb , _tf_ssb_db_blob_get_async_work , _tf_ssb_db_blob_get_async_after_work , async ) ;
}
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typedef struct _blob_store_work_t
{
const uint8_t * blob ;
size_t size ;
char id [ k_blob_id_len ] ;
bool is_new ;
tf_ssb_db_blob_store_callback_t * callback ;
void * user_data ;
} blob_store_work_t ;
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static void _tf_ssb_db_blob_store_work ( tf_ssb_t * ssb , void * user_data )
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{
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blob_store_work_t * blob_work = user_data ;
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if ( ! tf_ssb_is_shutting_down ( ssb ) )
{
tf_ssb_db_blob_store ( ssb , blob_work - > blob , blob_work - > size , blob_work - > id , sizeof ( blob_work - > id ) , & blob_work - > is_new ) ;
}
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}
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static void _tf_ssb_db_blob_store_after_work ( tf_ssb_t * ssb , int status , void * user_data )
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{
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blob_store_work_t * blob_work = user_data ;
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if ( status = = 0 & & * blob_work - > id )
{
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tf_ssb_notify_blob_stored ( ssb , blob_work - > id ) ;
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}
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if ( status ! = 0 )
{
tf_printf ( " tf_ssb_db_blob_store_async -> uv_queue_work failed asynchronously: %s \n " , uv_strerror ( status ) ) ;
}
if ( blob_work - > callback )
{
blob_work - > callback ( status = = 0 ? blob_work - > id : NULL , blob_work - > is_new , blob_work - > user_data ) ;
}
tf_free ( blob_work ) ;
}
void tf_ssb_db_blob_store_async ( tf_ssb_t * ssb , const uint8_t * blob , size_t size , tf_ssb_db_blob_store_callback_t * callback , void * user_data )
{
blob_store_work_t * work = tf_malloc ( sizeof ( blob_store_work_t ) ) ;
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* work = ( blob_store_work_t ) {
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. blob = blob ,
. size = size ,
. callback = callback ,
. user_data = user_data ,
} ;
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tf_ssb_run_work ( ssb , _tf_ssb_db_blob_store_work , _tf_ssb_db_blob_store_after_work , work ) ;
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}
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bool tf_ssb_db_blob_store ( tf_ssb_t * ssb , const uint8_t * blob , size_t size , char * out_id , size_t out_id_size , bool * out_new )
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{
bool result = false ;
uint8_t hash [ crypto_hash_sha256_BYTES ] ;
crypto_hash_sha256 ( hash , blob , size ) ;
char hash64 [ 256 ] ;
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tf_base64_encode ( hash , sizeof ( hash ) , hash64 , sizeof ( hash64 ) ) ;
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char id [ 512 ] ;
snprintf ( id , sizeof ( id ) , " &%s.sha256 " , hash64 ) ;
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int rows = 0 ;
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sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
sqlite3_stmt * statement ;
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if ( sqlite3_prepare ( db , " INSERT INTO blobs (id, content, created) VALUES (?1, ?2, CAST(strftime('%s') AS INTEGER)) ON CONFLICT DO NOTHING " , - 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_blob ( statement , 2 , blob , size , NULL ) = = SQLITE_OK )
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{
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result = sqlite3_step ( statement ) = = SQLITE_DONE ;
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rows = sqlite3_changes ( db ) ;
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}
else
{
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tf_printf ( " bind failed: %s \n " , sqlite3_errmsg ( db ) ) ;
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}
sqlite3_finalize ( statement ) ;
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}
else
{
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tf_printf ( " %s: prepare failed: %s \n " , __FUNCTION__ , sqlite3_errmsg ( db ) ) ;
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}
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tf_ssb_release_db_writer ( ssb , db ) ;
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if ( rows )
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{
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if ( ! out_new )
{
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tf_printf ( " blob stored %s %zd => %d \n " , id , size , result ) ;
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}
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}
2021-10-31 17:15:18 -04:00
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if ( result & & out_id )
{
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snprintf ( out_id , out_id_size , " %s " , id ) ;
}
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if ( out_new )
{
* out_new = rows ! = 0 ;
}
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return result ;
}
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bool tf_ssb_db_get_message_by_author_and_sequence ( tf_ssb_t * ssb , const char * author , int64_t sequence , char * out_message_id , size_t out_message_id_size , char * out_previous ,
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size_t out_previous_size , double * out_timestamp , char * * out_content , char * out_hash , size_t out_hash_size , char * out_signature , size_t out_signature_size , int * out_flags )
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{
bool found = false ;
sqlite3_stmt * statement ;
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const char * query = " SELECT id, previous, timestamp, json(content), hash, signature, flags FROM messages WHERE author = ?1 AND sequence = ?2 " ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_text ( statement , 1 , author , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_int64 ( statement , 2 , sequence ) = = SQLITE_OK & & sqlite3_step ( statement ) = = SQLITE_ROW )
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{
if ( out_message_id )
{
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snprintf ( out_message_id , out_message_id_size , " %s " , ( const char * ) sqlite3_column_text ( statement , 0 ) ) ;
}
if ( out_previous )
{
if ( sqlite3_column_type ( statement , 1 ) = = SQLITE_NULL )
{
if ( out_previous_size )
{
* out_previous = ' \0 ' ;
}
}
else
{
snprintf ( out_previous , out_previous_size , " %s " , ( const char * ) sqlite3_column_text ( statement , 1 ) ) ;
}
}
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if ( out_timestamp )
{
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* out_timestamp = sqlite3_column_double ( statement , 2 ) ;
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}
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if ( out_content )
{
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* out_content = tf_strdup ( ( const char * ) sqlite3_column_text ( statement , 3 ) ) ;
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}
if ( out_hash )
{
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snprintf ( out_hash , out_hash_size , " %s " , ( const char * ) sqlite3_column_text ( statement , 4 ) ) ;
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}
if ( out_signature )
{
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snprintf ( out_signature , out_signature_size , " %s " , ( const char * ) sqlite3_column_text ( statement , 5 ) ) ;
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}
if ( out_flags )
{
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* out_flags = sqlite3_column_int ( statement , 6 ) ;
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}
found = true ;
}
sqlite3_finalize ( statement ) ;
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}
else
{
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tf_printf ( " %s: prepare failed: %s \n " , __FUNCTION__ , sqlite3_errmsg ( db ) ) ;
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}
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tf_ssb_release_db_reader ( ssb , db ) ;
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return found ;
}
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bool tf_ssb_db_get_latest_message_by_author ( tf_ssb_t * ssb , const char * author , int64_t * out_sequence , char * out_message_id , size_t out_message_id_size )
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{
bool found = false ;
sqlite3_stmt * statement ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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const char * query = " SELECT id, sequence FROM messages WHERE author = ?1 AND sequence = (SELECT MAX(sequence) FROM messages WHERE author = ?1) " ;
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if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
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{
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if ( sqlite3_bind_text ( statement , 1 , author , - 1 , NULL ) = = SQLITE_OK & & sqlite3_step ( statement ) = = SQLITE_ROW )
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{
if ( out_sequence )
{
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* out_sequence = sqlite3_column_int64 ( statement , 1 ) ;
}
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if ( out_message_id )
{
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strncpy ( out_message_id , ( const char * ) sqlite3_column_text ( statement , 0 ) , out_message_id_size - 1 ) ;
}
found = true ;
}
sqlite3_finalize ( statement ) ;
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}
else
{
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tf_printf ( " %s: prepare failed: %s \n " , __FUNCTION__ , sqlite3_errmsg ( db ) ) ;
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}
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tf_ssb_release_db_reader ( ssb , db ) ;
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return found ;
}
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static JSValue _tf_ssb_sqlite_bind_json ( JSContext * context , sqlite3 * db , sqlite3_stmt * statement , JSValue binds )
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{
if ( JS_IsUndefined ( binds ) )
{
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return JS_UNDEFINED ;
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}
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if ( ! JS_IsArray ( context , binds ) )
{
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return JS_ThrowTypeError ( context , " Expected bind parameters to be an array. " ) ;
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}
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JSValue result = JS_UNDEFINED ;
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int32_t length = tf_util_get_length ( context , binds ) ;
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for ( int i = 0 ; i < length & & JS_IsUndefined ( result ) ; i + + )
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{
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JSValue value = JS_GetPropertyUint32 ( context , binds , i ) ;
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if ( JS_IsNumber ( value ) )
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{
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int64_t number = 0 ;
JS_ToInt64 ( context , & number , value ) ;
if ( sqlite3_bind_int64 ( statement , i + 1 , number ) ! = SQLITE_OK )
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{
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result = JS_ThrowInternalError ( context , " Failed to bind: %s. " , sqlite3_errmsg ( db ) ) ;
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}
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}
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else if ( JS_IsBool ( value ) )
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{
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if ( sqlite3_bind_int ( statement , i + 1 , JS_ToBool ( context , value ) ? 1 : 0 ) ! = SQLITE_OK )
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{
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result = JS_ThrowInternalError ( context , " Failed to bind: %s. " , sqlite3_errmsg ( db ) ) ;
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}
}
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else if ( JS_IsNull ( value ) )
{
if ( sqlite3_bind_null ( statement , i + 1 ) ! = SQLITE_OK )
{
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result = JS_ThrowInternalError ( context , " Failed to bind: %s. " , sqlite3_errmsg ( db ) ) ;
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}
}
else
{
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size_t str_len = 0 ;
const char * str = JS_ToCStringLen ( context , & str_len , value ) ;
if ( str )
{
if ( sqlite3_bind_text ( statement , i + 1 , str , str_len , SQLITE_TRANSIENT ) ! = SQLITE_OK )
{
result = JS_ThrowInternalError ( context , " Failed to bind: %s. " , sqlite3_errmsg ( db ) ) ;
}
JS_FreeCString ( context , str ) ;
}
else
{
result = JS_ThrowInternalError ( context , " Could not convert bind argument %d to string. " , i ) ;
}
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}
JS_FreeValue ( context , value ) ;
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}
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return result ;
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}
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static JSValue _tf_ssb_sqlite_row_to_json ( JSContext * context , sqlite3_stmt * row )
{
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JSValue result = JS_NewObject ( context ) ;
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for ( int i = 0 ; i < sqlite3_column_count ( row ) ; i + + )
{
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const char * name = sqlite3_column_name ( row , i ) ;
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switch ( sqlite3_column_type ( row , i ) )
{
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case SQLITE_INTEGER :
JS_SetPropertyStr ( context , result , name , JS_NewInt64 ( context , sqlite3_column_int64 ( row , i ) ) ) ;
break ;
case SQLITE_FLOAT :
JS_SetPropertyStr ( context , result , name , JS_NewFloat64 ( context , sqlite3_column_double ( row , i ) ) ) ;
break ;
case SQLITE_TEXT :
JS_SetPropertyStr ( context , result , name , JS_NewStringLen ( context , ( const char * ) sqlite3_column_text ( row , i ) , sqlite3_column_bytes ( row , i ) ) ) ;
break ;
case SQLITE_BLOB :
JS_SetPropertyStr ( context , result , name , JS_NewArrayBufferCopy ( context , sqlite3_column_blob ( row , i ) , sqlite3_column_bytes ( row , i ) ) ) ;
break ;
case SQLITE_NULL :
JS_SetPropertyStr ( context , result , name , JS_NULL ) ;
break ;
}
}
return result ;
}
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int tf_ssb_sqlite_authorizer ( void * user_data , int action_code , const char * arg0 , const char * arg1 , const char * arg2 , const char * arg3 )
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{
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int result = SQLITE_DENY ;
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switch ( action_code )
{
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case SQLITE_SELECT :
case SQLITE_FUNCTION :
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result = SQLITE_OK ;
break ;
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case SQLITE_READ :
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result = ( strcmp ( arg0 , " blob_wants_view " ) = = 0 | | strcmp ( arg0 , " json_each " ) = = 0 | | strcmp ( arg0 , " json_tree " ) = = 0 | | strcmp ( arg0 , " messages " ) = = 0 | |
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strcmp ( arg0 , " messages_fts " ) = = 0 | | strcmp ( arg0 , " messages_fts_idx " ) = = 0 | | strcmp ( arg0 , " messages_fts_config " ) = = 0 | | strcmp ( arg0 , " messages_refs " ) = = 0 | |
strcmp ( arg0 , " messages_refs_message_idx " ) = = 0 | | strcmp ( arg0 , " messages_refs_ref_idx " ) = = 0 | | strcmp ( arg0 , " sqlite_master " ) = = 0 | | false )
? SQLITE_OK
: SQLITE_DENY ;
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break ;
2022-09-10 13:56:54 -04:00
case SQLITE_PRAGMA :
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result = strcmp ( arg0 , " data_version " ) = = 0 ? SQLITE_OK : SQLITE_DENY ;
break ;
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case SQLITE_UPDATE :
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result = strcmp ( arg0 , " sqlite_master " ) = = 0 ? SQLITE_OK : SQLITE_DENY ;
break ;
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}
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if ( result ! = SQLITE_OK )
{
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tf_printf ( " Denying sqlite access to %d %s %s %s %s \n " , action_code , arg0 , arg1 , arg2 , arg3 ) ;
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fflush ( stdout ) ;
}
return result ;
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}
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JSValue tf_ssb_db_visit_query ( tf_ssb_t * ssb , const char * query , const JSValue binds , void ( * callback ) ( JSValue row , void * user_data ) , void * user_data )
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{
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JSValue result = JS_UNDEFINED ;
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sqlite3 * db = tf_ssb_acquire_db_reader_restricted ( ssb ) ;
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JSContext * context = tf_ssb_get_context ( ssb ) ;
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sqlite3_stmt * statement ;
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if ( sqlite3_prepare ( db , query , - 1 , & statement , NULL ) = = SQLITE_OK )
{
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JSValue bind_result = _tf_ssb_sqlite_bind_json ( context , db , statement , binds ) ;
if ( JS_IsUndefined ( bind_result ) )
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{
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int r = SQLITE_OK ;
while ( ( r = sqlite3_step ( statement ) ) = = SQLITE_ROW )
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{
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JSValue row = _tf_ssb_sqlite_row_to_json ( context , statement ) ;
tf_trace_t * trace = tf_ssb_get_trace ( ssb ) ;
tf_trace_begin ( trace , " callback " ) ;
callback ( row , user_data ) ;
tf_trace_end ( trace ) ;
JS_FreeValue ( context , row ) ;
}
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if ( r ! = SQLITE_DONE )
{
result = JS_ThrowInternalError ( context , " SQL Error %s: running \" %s \" . " , sqlite3_errmsg ( db ) , query ) ;
}
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}
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else
{
result = bind_result ;
}
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sqlite3_finalize ( statement ) ;
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}
else
{
2022-04-17 20:24:00 -04:00
result = JS_ThrowInternalError ( context , " SQL Error %s: preparing \" %s \" . " , sqlite3_errmsg ( db ) , query ) ;
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}
2023-06-14 20:27:49 -04:00
tf_ssb_release_db_reader ( ssb , db ) ;
2022-04-17 20:24:00 -04:00
return result ;
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}
2022-02-09 22:58:33 -05:00
2024-03-13 19:40:09 -04:00
JSValue tf_ssb_format_message (
JSContext * context , const char * previous , const char * author , int64_t sequence , double timestamp , const char * hash , const char * content , const char * signature , int flags )
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{
JSValue value = JS_NewObject ( context ) ;
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JS_SetPropertyStr ( context , value , " previous " , ( previous & & * previous ) ? JS_NewString ( context , previous ) : JS_NULL ) ;
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if ( flags & k_tf_ssb_message_flag_sequence_before_author )
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{
JS_SetPropertyStr ( context , value , " sequence " , JS_NewInt64 ( context , sequence ) ) ;
JS_SetPropertyStr ( context , value , " author " , JS_NewString ( context , author ) ) ;
}
else
{
JS_SetPropertyStr ( context , value , " author " , JS_NewString ( context , author ) ) ;
JS_SetPropertyStr ( context , value , " sequence " , JS_NewInt64 ( context , sequence ) ) ;
}
2022-02-11 20:44:11 -05:00
JS_SetPropertyStr ( context , value , " timestamp " , JS_NewFloat64 ( context , timestamp ) ) ;
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JS_SetPropertyStr ( context , value , " hash " , JS_NewString ( context , hash ) ) ;
JS_SetPropertyStr ( context , value , " content " , JS_ParseJSON ( context , content , strlen ( content ) , NULL ) ) ;
JS_SetPropertyStr ( context , value , " signature " , JS_NewString ( context , signature ) ) ;
return value ;
}
2022-07-13 21:01:14 -04:00
int tf_ssb_db_identity_get_count_for_user ( tf_ssb_t * ssb , const char * user )
{
int count = 0 ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " SELECT COUNT(*) FROM identities WHERE user = ? " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , user , - 1 , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
count = sqlite3_column_int ( statement , 0 ) ;
}
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_reader ( ssb , db ) ;
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return count ;
}
2022-10-14 08:27:34 -04:00
bool tf_ssb_db_identity_create ( tf_ssb_t * ssb , const char * user , uint8_t * out_public_key , uint8_t * out_private_key )
{
int count = tf_ssb_db_identity_get_count_for_user ( ssb , user ) ;
if ( count < 16 )
{
char public [ 512 ] ;
char private [ 512 ] ;
tf_ssb_generate_keys_buffer ( public , sizeof ( public ) , private , sizeof ( private ) ) ;
if ( tf_ssb_db_identity_add ( ssb , user , public , private ) )
{
2024-04-01 12:53:00 -04:00
if ( out_public_key )
{
tf_ssb_id_str_to_bin ( out_public_key , public ) ;
}
if ( out_private_key )
{
tf_ssb_id_str_to_bin ( out_private_key , private ) ;
}
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return true ;
}
}
return false ;
}
2022-07-13 21:01:14 -04:00
bool tf_ssb_db_identity_add ( tf_ssb_t * ssb , const char * user , const char * public_key , const char * private_key )
{
bool added = false ;
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sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
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sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " INSERT INTO identities (user, public_key, private_key) VALUES (?, ?, ?) ON CONFLICT DO NOTHING " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
2024-02-15 18:35:01 -05:00
if ( sqlite3_bind_text ( statement , 1 , user , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 2 , public_key , - 1 , NULL ) = = SQLITE_OK & &
2024-02-17 14:22:02 -05:00
sqlite3_bind_text ( statement , 3 , private_key , - 1 , NULL ) = = SQLITE_OK )
2022-07-13 21:01:14 -04:00
{
2024-02-15 18:35:01 -05:00
added = sqlite3_step ( statement ) = = SQLITE_DONE & & sqlite3_changes ( db ) ! = 0 ;
2022-07-13 21:01:14 -04:00
if ( ! added )
{
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tf_printf ( " Unable to add identity: %s. \n " , sqlite3_errmsg ( db ) ) ;
2022-07-13 21:01:14 -04:00
}
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_writer ( ssb , db ) ;
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return added ;
}
2024-01-06 14:22:49 -05:00
bool tf_ssb_db_identity_delete ( tf_ssb_t * ssb , const char * user , const char * public_key )
{
bool removed = false ;
sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
sqlite3_stmt * statement = NULL ;
tf_printf ( " deleting [%s] [%s] \n " , user , public_key ) ;
if ( sqlite3_prepare ( db , " DELETE FROM identities WHERE user = ? AND public_key = ? " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
2024-02-15 18:35:01 -05:00
if ( sqlite3_bind_text ( statement , 1 , user , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 2 , public_key , - 1 , NULL ) = = SQLITE_OK )
2024-01-06 14:22:49 -05:00
{
2024-02-15 18:35:01 -05:00
removed = sqlite3_step ( statement ) = = SQLITE_DONE & & sqlite3_changes ( db ) ! = 0 ;
2024-01-06 14:22:49 -05:00
if ( ! removed )
{
tf_printf ( " Unable to delete identity: %s. \n " , sqlite3_errmsg ( db ) ) ;
}
}
sqlite3_finalize ( statement ) ;
}
tf_ssb_release_db_writer ( ssb , db ) ;
return removed ;
}
2022-07-13 21:01:14 -04:00
void tf_ssb_db_identity_visit ( tf_ssb_t * ssb , const char * user , void ( * callback ) ( const char * identity , void * user_data ) , void * user_data )
{
2023-06-14 20:27:49 -04:00
sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " SELECT public_key FROM identities WHERE user = ? ORDER BY public_key " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , user , - 1 , NULL ) = = SQLITE_OK )
{
while ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
callback ( ( const char * ) sqlite3_column_text ( statement , 0 ) , user_data ) ;
}
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_reader ( ssb , db ) ;
2022-07-13 21:01:14 -04:00
}
2022-07-31 15:01:08 -04:00
void tf_ssb_db_identity_visit_all ( tf_ssb_t * ssb , void ( * callback ) ( const char * identity , void * user_data ) , void * user_data )
{
2023-06-14 20:27:49 -04:00
sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
2022-07-31 15:01:08 -04:00
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " SELECT public_key FROM identities ORDER BY public_key " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
while ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
callback ( ( const char * ) sqlite3_column_text ( statement , 0 ) , user_data ) ;
}
sqlite3_finalize ( statement ) ;
}
2023-06-14 20:27:49 -04:00
tf_ssb_release_db_reader ( ssb , db ) ;
2022-07-31 15:01:08 -04:00
}
2022-07-13 21:01:14 -04:00
bool tf_ssb_db_identity_get_private_key ( tf_ssb_t * ssb , const char * user , const char * public_key , uint8_t * out_private_key , size_t private_key_size )
{
bool success = false ;
2023-10-20 10:37:24 -04:00
if ( out_private_key )
{
memset ( out_private_key , 0 , private_key_size ) ;
}
2023-06-14 20:27:49 -04:00
sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " SELECT private_key FROM identities WHERE user = ? AND public_key = ? " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , user , - 1 , NULL ) = = SQLITE_OK & &
2024-02-17 14:22:02 -05:00
sqlite3_bind_text ( statement , 2 , ( public_key & & * public_key = = ' @ ' ) ? public_key + 1 : public_key , - 1 , NULL ) = = SQLITE_OK )
2022-07-13 21:01:14 -04:00
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
2023-02-13 22:15:24 -05:00
const char * key = ( const char * ) sqlite3_column_text ( statement , 0 ) ;
2023-10-20 10:37:24 -04:00
if ( out_private_key & & private_key_size )
{
int r = tf_base64_decode ( key , sqlite3_column_bytes ( statement , 0 ) - strlen ( " .ed25519 " ) , out_private_key , private_key_size ) ;
success = r > 0 ;
}
else
{
success = true ;
}
2022-07-13 21:01:14 -04:00
}
}
2024-04-02 20:11:36 -04:00
else
{
tf_printf ( " Bind failed: %s. \n " , sqlite3_errmsg ( db ) ) ;
}
2022-07-13 21:01:14 -04:00
sqlite3_finalize ( statement ) ;
}
2024-04-02 20:11:36 -04:00
else
{
tf_printf ( " Prepare failed: %s. \n " , sqlite3_errmsg ( db ) ) ;
}
2023-06-14 20:27:49 -04:00
tf_ssb_release_db_reader ( ssb , db ) ;
2022-07-13 21:01:14 -04:00
return success ;
}
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typedef struct _following_t following_t ;
typedef struct _following_t
{
char id [ k_id_base64_len ] ;
following_t * * following ;
following_t * * blocking ;
int following_count ;
int blocking_count ;
int depth ;
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int ref_count ;
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int block_ref_count ;
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bool populated ;
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} following_t ;
static int _following_compare ( const void * a , const void * b )
{
const char * ida = a ;
const following_t * const * followingb = b ;
return strcmp ( ida , ( * followingb ) - > id ) ;
}
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static bool _has_following_entry ( const char * id , following_t * * list , int count )
{
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return count ? bsearch ( id , list , count , sizeof ( following_t * ) , _following_compare ) ! = 0 : false ;
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}
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static bool _add_following_entry ( following_t * * * list , int * count , following_t * add )
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{
int index = tf_util_insert_index ( add - > id , * list , * count , sizeof ( following_t * ) , _following_compare ) ;
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if ( index > = * count | | strcmp ( add - > id , ( * list ) [ index ] - > id ) ! = 0 )
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{
* list = tf_resize_vec ( * list , sizeof ( * * list ) * ( * count + 1 ) ) ;
if ( * count - index )
{
memmove ( * list + index + 1 , * list + index , sizeof ( following_t * ) * ( * count - index ) ) ;
}
( * list ) [ index ] = add ;
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( * count ) + + ;
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return true ;
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}
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return false ;
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}
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static bool _remove_following_entry ( following_t * * * list , int * count , following_t * remove )
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{
int index = tf_util_insert_index ( remove - > id , * list , * count , sizeof ( following_t * ) , _following_compare ) ;
if ( index < * count & & strcmp ( remove - > id , ( * list ) [ index ] - > id ) = = 0 )
{
if ( * count - index > 1 )
{
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memmove ( * list + index , * list + index + 1 , sizeof ( following_t * ) * ( * count - index - 1 ) ) ;
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}
* list = tf_resize_vec ( * list , sizeof ( * * list ) * ( * count - 1 ) ) ;
( * count ) - - ;
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return true ;
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}
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return false ;
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}
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typedef struct _block_node_t block_node_t ;
typedef struct _block_node_t
{
following_t * entry ;
block_node_t * parent ;
} block_node_t ;
static bool _is_blocked_by_active_blocks ( const char * id , const block_node_t * blocks )
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{
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for ( const block_node_t * b = blocks ; b ; b = b - > parent )
{
if ( _has_following_entry ( id , b - > entry - > blocking , b - > entry - > blocking_count ) )
{
return true ;
}
}
return false ;
}
static following_t * _make_following_node ( const char * id , following_t * * * following , int * following_count , block_node_t * blocks )
{
if ( _is_blocked_by_active_blocks ( id , blocks ) )
{
return NULL ;
}
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int index = tf_util_insert_index ( id , * following , * following_count , sizeof ( following_t * ) , _following_compare ) ;
following_t * entry = NULL ;
if ( index < * following_count & & strcmp ( id , ( * following ) [ index ] - > id ) = = 0 )
{
entry = ( * following ) [ index ] ;
}
else
{
* following = tf_resize_vec ( * following , sizeof ( * following ) * ( * following_count + 1 ) ) ;
if ( * following_count - index )
{
memmove ( * following + index + 1 , * following + index , sizeof ( following_t * ) * ( * following_count - index ) ) ;
}
entry = tf_malloc ( sizeof ( following_t ) ) ;
( * following ) [ index ] = entry ;
( * following_count ) + + ;
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memset ( entry , 0 , sizeof ( * entry ) ) ;
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entry - > depth = INT_MAX ;
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snprintf ( entry - > id , sizeof ( entry - > id ) , " %s " , id ) ;
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}
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return entry ;
}
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static void _populate_follows_and_blocks ( tf_ssb_t * ssb , following_t * entry , following_t * * * following , int * following_count , block_node_t * active_blocks )
{
sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db ,
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" SELECT json_extract(content, '$.contact') AS contact, json_extract(content, '$.following'), json_extract(content, '$.blocking') "
" FROM messages "
" WHERE contact IS NOT NULL AND author = ? AND json_extract(content, '$.type') = 'contact' "
" ORDER BY sequence " ,
- 1 , & statement , NULL ) = = SQLITE_OK )
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{
if ( sqlite3_bind_text ( statement , 1 , entry - > id , - 1 , NULL ) = = SQLITE_OK )
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{
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while ( sqlite3_step ( statement ) = = SQLITE_ROW )
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{
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const char * contact = ( const char * ) sqlite3_column_text ( statement , 0 ) ;
if ( sqlite3_column_type ( statement , 1 ) ! = SQLITE_NULL )
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{
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bool is_following = sqlite3_column_int ( statement , 1 ) ! = 0 ;
following_t * next = _make_following_node ( contact , following , following_count , active_blocks ) ;
if ( next )
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{
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if ( is_following )
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{
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if ( _add_following_entry ( & entry - > following , & entry - > following_count , next ) )
{
next - > ref_count + + ;
}
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}
else
{
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if ( _remove_following_entry ( & entry - > following , & entry - > following_count , next ) )
{
next - > ref_count - - ;
}
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}
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}
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}
if ( sqlite3_column_type ( statement , 2 ) ! = SQLITE_NULL )
{
bool is_blocking = sqlite3_column_int ( statement , 2 ) ! = 0 ;
following_t * next = _make_following_node ( contact , following , following_count , active_blocks ) ;
if ( next )
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{
if ( is_blocking )
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{
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if ( _add_following_entry ( & entry - > blocking , & entry - > blocking_count , next ) )
{
next - > block_ref_count + + ;
}
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}
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else
{
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if ( _remove_following_entry ( & entry - > blocking , & entry - > blocking_count , next ) )
{
next - > block_ref_count - - ;
}
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}
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}
}
}
}
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sqlite3_finalize ( statement ) ;
}
tf_ssb_release_db_reader ( ssb , db ) ;
}
static void _get_following ( tf_ssb_t * ssb , following_t * entry , following_t * * * following , int * following_count , int depth , int max_depth , block_node_t * active_blocks )
{
entry - > depth = tf_min ( depth , entry - > depth ) ;
if ( depth < max_depth & & ! entry - > populated & & ! _is_blocked_by_active_blocks ( entry - > id , active_blocks ) )
{
entry - > populated = true ;
_populate_follows_and_blocks ( ssb , entry , following , following_count , active_blocks ) ;
if ( depth < max_depth )
{
block_node_t blocks = { . entry = entry , . parent = active_blocks } ;
for ( int i = 0 ; i < entry - > following_count ; i + + )
{
if ( ! _has_following_entry ( entry - > following [ i ] - > id , entry - > blocking , entry - > blocking_count ) )
{
_get_following ( ssb , entry - > following [ i ] , following , following_count , depth + 1 , max_depth , & blocks ) ;
}
}
}
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}
}
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tf_ssb_following_t * tf_ssb_db_following_deep ( tf_ssb_t * ssb , const char * * ids , int count , int depth )
{
following_t * * following = NULL ;
int following_count = 0 ;
for ( int i = 0 ; i < count ; i + + )
{
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following_t * entry = _make_following_node ( ids [ i ] , & following , & following_count , NULL ) ;
_get_following ( ssb , entry , & following , & following_count , 0 , depth , NULL ) ;
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entry - > ref_count + + ;
}
int actual_following_count = 0 ;
for ( int i = 0 ; i < following_count ; i + + )
{
if ( following [ i ] - > ref_count > 0 )
{
actual_following_count + + ;
}
}
tf_ssb_following_t * result = tf_malloc ( sizeof ( tf_ssb_following_t ) * ( actual_following_count + 1 ) ) ;
memset ( result , 0 , sizeof ( tf_ssb_following_t ) * ( actual_following_count + 1 ) ) ;
int write_index = 0 ;
for ( int i = 0 ; i < following_count ; i + + )
{
if ( following [ i ] - > ref_count > 0 )
{
snprintf ( result [ write_index ] . id , sizeof ( result [ write_index ] . id ) , " %s " , following [ i ] - > id ) ;
result [ write_index ] . following_count = following [ i ] - > following_count ;
result [ write_index ] . blocking_count = following [ i ] - > blocking_count ;
result [ write_index ] . followed_by_count = following [ i ] - > ref_count ;
result [ write_index ] . blocked_by_count = following [ i ] - > block_ref_count ;
write_index + + ;
}
}
for ( int i = 0 ; i < following_count ; i + + )
{
tf_free ( following [ i ] - > following ) ;
tf_free ( following [ i ] - > blocking ) ;
tf_free ( following [ i ] ) ;
}
tf_free ( following ) ;
return result ;
}
const char * * tf_ssb_db_following_deep_ids ( tf_ssb_t * ssb , const char * * ids , int count , int depth )
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{
following_t * * following = NULL ;
int following_count = 0 ;
for ( int i = 0 ; i < count ; i + + )
{
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following_t * entry = _make_following_node ( ids [ i ] , & following , & following_count , NULL ) ;
_get_following ( ssb , entry , & following , & following_count , 0 , depth , NULL ) ;
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entry - > ref_count + + ;
}
int actual_following_count = 0 ;
for ( int i = 0 ; i < following_count ; i + + )
{
if ( following [ i ] - > ref_count > 0 )
{
actual_following_count + + ;
}
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}
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char * * result = tf_malloc ( sizeof ( char * ) * ( actual_following_count + 1 ) + k_id_base64_len * actual_following_count ) ;
char * result_ids = ( char * ) result + sizeof ( char * ) * ( actual_following_count + 1 ) ;
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int write_index = 0 ;
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for ( int i = 0 ; i < following_count ; i + + )
{
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if ( following [ i ] - > ref_count > 0 )
{
result [ write_index ] = result_ids + k_id_base64_len * write_index ;
snprintf ( result [ write_index ] , k_id_base64_len , " %s " , following [ i ] - > id ) ;
write_index + + ;
}
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}
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result [ actual_following_count ] = NULL ;
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for ( int i = 0 ; i < following_count ; i + + )
{
tf_free ( following [ i ] - > following ) ;
tf_free ( following [ i ] - > blocking ) ;
tf_free ( following [ i ] ) ;
}
tf_free ( following ) ;
return ( const char * * ) result ;
}
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typedef struct _identities_t
{
const char * * ids ;
int count ;
} identities_t ;
static void _add_identity ( const char * identity , void * user_data )
{
identities_t * identities = user_data ;
char full_id [ k_id_base64_len ] ;
snprintf ( full_id , sizeof ( full_id ) , " @%s " , identity ) ;
identities - > ids = tf_resize_vec ( identities - > ids , sizeof ( const char * ) * ( identities - > count + 1 ) ) ;
identities - > ids [ identities - > count + + ] = tf_strdup ( full_id ) ;
}
const char * * tf_ssb_db_get_all_visible_identities ( tf_ssb_t * ssb , int depth )
{
identities_t identities = { 0 } ;
tf_ssb_db_identity_visit_all ( ssb , _add_identity , & identities ) ;
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const char * * following = tf_ssb_db_following_deep_ids ( ssb , identities . ids , identities . count , depth ) ;
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for ( int i = 0 ; i < identities . count ; i + + )
{
tf_free ( ( void * ) identities . ids [ i ] ) ;
}
tf_free ( identities . ids ) ;
return following ;
}
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JSValue tf_ssb_db_get_message_by_id ( tf_ssb_t * ssb , const char * id , bool is_keys )
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{
JSValue result = JS_UNDEFINED ;
JSContext * context = tf_ssb_get_context ( ssb ) ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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sqlite3_stmt * statement ;
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if ( sqlite3_prepare ( db , " SELECT previous, author, id, sequence, timestamp, hash, json(content), signature, flags FROM messages WHERE id = ? " , - 1 , & statement , NULL ) = =
SQLITE_OK )
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{
if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
JSValue message = JS_UNDEFINED ;
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JSValue formatted = tf_ssb_format_message ( context , ( const char * ) sqlite3_column_text ( statement , 0 ) , ( const char * ) sqlite3_column_text ( statement , 1 ) ,
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sqlite3_column_int64 ( statement , 3 ) , sqlite3_column_double ( statement , 4 ) , ( const char * ) sqlite3_column_text ( statement , 5 ) ,
( const char * ) sqlite3_column_text ( statement , 6 ) , ( const char * ) sqlite3_column_text ( statement , 7 ) , sqlite3_column_int ( statement , 8 ) ) ;
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if ( is_keys )
{
message = JS_NewObject ( context ) ;
JS_SetPropertyStr ( context , message , " key " , JS_NewString ( context , ( const char * ) sqlite3_column_text ( statement , 2 ) ) ) ;
JS_SetPropertyStr ( context , message , " value " , formatted ) ;
JS_SetPropertyStr ( context , message , " timestamp " , JS_NewString ( context , ( const char * ) sqlite3_column_text ( statement , 4 ) ) ) ;
}
else
{
message = formatted ;
}
result = message ;
}
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_reader ( ssb , db ) ;
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return result ;
}
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tf_ssb_db_stored_connection_t * tf_ssb_db_get_stored_connections ( tf_ssb_t * ssb , int * out_count )
{
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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tf_ssb_db_stored_connection_t * result = NULL ;
int count = 0 ;
sqlite3_stmt * statement ;
if ( sqlite3_prepare ( db , " SELECT host, port, key FROM connections ORDER BY host, port, key " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
while ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
result = tf_resize_vec ( result , sizeof ( tf_ssb_db_stored_connection_t ) * ( count + 1 ) ) ;
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result [ count ] = ( tf_ssb_db_stored_connection_t ) {
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. port = sqlite3_column_int ( statement , 1 ) ,
} ;
snprintf ( result [ count ] . address , sizeof ( result [ count ] . address ) , " %s " , ( const char * ) sqlite3_column_text ( statement , 0 ) ) ;
snprintf ( result [ count ] . pubkey , sizeof ( result [ count ] . pubkey ) , " %s " , ( const char * ) sqlite3_column_text ( statement , 2 ) ) ;
count + + ;
}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_reader ( ssb , db ) ;
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* out_count = count ;
return result ;
}
void tf_ssb_db_forget_stored_connection ( tf_ssb_t * ssb , const char * address , int port , const char * pubkey )
{
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sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
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sqlite3_stmt * statement ;
if ( sqlite3_prepare ( db , " DELETE FROM connections WHERE host = ? AND port = ? AND key = ? " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
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if ( sqlite3_bind_text ( statement , 1 , address , - 1 , NULL ) ! = SQLITE_OK | | sqlite3_bind_int ( statement , 2 , port ) ! = SQLITE_OK | |
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sqlite3_bind_text ( statement , 3 , pubkey , - 1 , NULL ) ! = SQLITE_OK | | sqlite3_step ( statement ) ! = SQLITE_DONE )
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{
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tf_printf ( " Delete stored connection: %s. \n " , sqlite3_errmsg ( db ) ) ;
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}
sqlite3_finalize ( statement ) ;
}
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tf_ssb_release_db_writer ( ssb , db ) ;
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}
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bool tf_ssb_db_get_account_password_hash ( tf_ssb_t * ssb , const char * name , char * out_password , size_t password_size )
{
bool result = false ;
sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " SELECT value ->> '$.password' FROM properties WHERE id = 'auth' AND key = 'user:' || ? " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , name , - 1 , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
snprintf ( out_password , password_size , " %s " , ( const char * ) sqlite3_column_text ( statement , 0 ) ) ;
result = true ;
}
}
sqlite3_finalize ( statement ) ;
}
tf_ssb_release_db_reader ( ssb , db ) ;
return result ;
}
bool tf_ssb_db_set_account_password ( tf_ssb_t * ssb , const char * name , const char * password )
{
JSContext * context = tf_ssb_get_context ( ssb ) ;
bool result = false ;
static const int k_salt_length = 12 ;
char buffer [ 16 ] ;
size_t bytes = uv_random ( tf_ssb_get_loop ( ssb ) , & ( uv_random_t ) { 0 } , buffer , sizeof ( buffer ) , 0 , NULL ) = = 0 ? sizeof ( buffer ) : 0 ;
char output [ 7 + 22 + 1 ] ;
char * salt = crypt_gensalt_rn ( " $2b$ " , k_salt_length , buffer , bytes , output , sizeof ( output ) ) ;
char hash_output [ 7 + 22 + 31 + 1 ] ;
char * hash = crypt_rn ( password , salt , hash_output , sizeof ( hash_output ) ) ;
JSValue user_entry = JS_NewObject ( context ) ;
JS_SetPropertyStr ( context , user_entry , " password " , JS_NewString ( context , hash ) ) ;
JSValue user_json = JS_JSONStringify ( context , user_entry , JS_NULL , JS_NULL ) ;
size_t user_length = 0 ;
const char * user_string = JS_ToCStringLen ( context , & user_length , user_json ) ;
sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " INSERT OR REPLACE INTO properties (id, key, value) VALUES ('auth', 'user:' || ?, ?) " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , name , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 2 , user_string , user_length , NULL ) = = SQLITE_OK )
{
result = sqlite3_step ( statement ) = = SQLITE_DONE ;
}
sqlite3_finalize ( statement ) ;
}
tf_ssb_release_db_writer ( ssb , db ) ;
JS_FreeCString ( context , user_string ) ;
JS_FreeValue ( context , user_json ) ;
JS_FreeValue ( context , user_entry ) ;
return result ;
}
bool tf_ssb_db_register_account ( tf_ssb_t * ssb , const char * name , const char * password )
{
bool result = false ;
JSContext * context = tf_ssb_get_context ( ssb ) ;
JSValue users_array = JS_UNDEFINED ;
sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " SELECT value FROM properties WHERE id = 'auth' AND key = 'users' " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
users_array = JS_ParseJSON ( context , ( const char * ) sqlite3_column_text ( statement , 0 ) , sqlite3_column_bytes ( statement , 0 ) , NULL ) ;
}
sqlite3_finalize ( statement ) ;
}
if ( JS_IsUndefined ( users_array ) )
{
users_array = JS_NewArray ( context ) ;
}
int length = tf_util_get_length ( context , users_array ) ;
JS_SetPropertyUint32 ( context , users_array , length , JS_NewString ( context , name ) ) ;
JSValue json = JS_JSONStringify ( context , users_array , JS_NULL , JS_NULL ) ;
JS_FreeValue ( context , users_array ) ;
size_t value_length = 0 ;
const char * value = JS_ToCStringLen ( context , & value_length , json ) ;
if ( sqlite3_prepare ( db , " INSERT OR REPLACE INTO properties (id, key, value) VALUES ('auth', 'users', ?) " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , value , value_length , NULL ) = = SQLITE_OK )
{
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tf_printf ( " added user to properties \n " ) ;
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result = sqlite3_step ( statement ) = = SQLITE_DONE ;
}
sqlite3_finalize ( statement ) ;
}
JS_FreeCString ( context , value ) ;
JS_FreeValue ( context , json ) ;
tf_ssb_release_db_writer ( ssb , db ) ;
result = result & & tf_ssb_db_set_account_password ( ssb , name , password ) ;
return result ;
}
const char * tf_ssb_db_get_property ( tf_ssb_t * ssb , const char * id , const char * key )
{
char * result = NULL ;
sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " SELECT value FROM properties WHERE id = ? AND key = ? " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 2 , key , - 1 , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
size_t length = sqlite3_column_bytes ( statement , 0 ) ;
result = tf_malloc ( length + 1 ) ;
memcpy ( result , sqlite3_column_text ( statement , 0 ) , length ) ;
result [ length ] = ' \0 ' ;
}
}
sqlite3_finalize ( statement ) ;
}
tf_ssb_release_db_reader ( ssb , db ) ;
return result ;
}
bool tf_ssb_db_set_property ( tf_ssb_t * ssb , const char * id , const char * key , const char * value )
{
bool result = false ;
sqlite3 * db = tf_ssb_acquire_db_writer ( ssb ) ;
sqlite3_stmt * statement = NULL ;
if ( sqlite3_prepare ( db , " INSERT OR REPLACE INTO properties (id, key, value) VALUES (?, ?, ?) " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_bind_text ( statement , 1 , id , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 2 , key , - 1 , NULL ) = = SQLITE_OK & &
sqlite3_bind_text ( statement , 3 , value , - 1 , NULL ) = = SQLITE_OK )
{
result = sqlite3_step ( statement ) = = SQLITE_DONE ;
}
sqlite3_finalize ( statement ) ;
}
tf_ssb_release_db_writer ( ssb , db ) ;
return result ;
}
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bool tf_ssb_db_identity_get_active ( sqlite3 * db , const char * user , const char * package_owner , const char * package_name , char * out_identity , size_t out_identity_size )
{
sqlite3_stmt * statement = NULL ;
bool found = false ;
if ( sqlite3_prepare ( db , " SELECT value FROM properties WHERE id = ? AND key = 'id:' || ? || ':' || ? " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
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if ( sqlite3_bind_text ( statement , 1 , user , - 1 , NULL ) = = SQLITE_OK & & sqlite3_bind_text ( statement , 2 , package_owner , - 1 , NULL ) = = SQLITE_OK & &
sqlite3_bind_text ( statement , 3 , package_name , - 1 , NULL ) = = SQLITE_OK & & sqlite3_step ( statement ) = = SQLITE_ROW )
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{
snprintf ( out_identity , out_identity_size , " %s " , ( const char * ) sqlite3_column_text ( statement , 0 ) ) ;
found = true ;
}
sqlite3_finalize ( statement ) ;
}
return found ;
}
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typedef struct _resolve_index_t
{
const char * host ;
const char * path ;
void ( * callback ) ( const char * path , void * user_data ) ;
void * user_data ;
} resolve_index_t ;
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static void _tf_ssb_db_resolve_index_work ( tf_ssb_t * ssb , void * user_data )
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{
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resolve_index_t * request = user_data ;
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sqlite3 * db = tf_ssb_acquire_db_reader ( ssb ) ;
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sqlite3_stmt * statement ;
if ( sqlite3_prepare ( db , " SELECT json_extract(value, '$.index_map') FROM properties WHERE id = 'core' AND key = 'settings' " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
const char * index_map = ( const char * ) sqlite3_column_text ( statement , 0 ) ;
const char * start = index_map ;
while ( start )
{
const char * end = strchr ( start , ' \n ' ) ;
const char * equals = strchr ( start , ' = ' ) ;
if ( equals & & strncasecmp ( request - > host , start , equals - start ) = = 0 )
{
size_t value_length = end & & equals < end ? ( size_t ) ( end - ( equals + 1 ) ) : strlen ( equals + 1 ) ;
char * path = tf_malloc ( value_length + 1 ) ;
memcpy ( path , equals + 1 , value_length ) ;
path [ value_length ] = ' \0 ' ;
request - > path = path ;
break ;
}
start = end ? end + 1 : NULL ;
}
}
sqlite3_finalize ( statement ) ;
}
else
{
tf_printf ( " prepare failed: %s \n " , sqlite3_errmsg ( db ) ) ;
}
if ( ! request - > path )
{
if ( sqlite3_prepare ( db , " SELECT json_extract(value, '$.index') FROM properties WHERE id = 'core' AND key = 'settings' " , - 1 , & statement , NULL ) = = SQLITE_OK )
{
if ( sqlite3_step ( statement ) = = SQLITE_ROW )
{
request - > path = tf_strdup ( ( const char * ) sqlite3_column_text ( statement , 0 ) ) ;
}
sqlite3_finalize ( statement ) ;
}
else
{
tf_printf ( " prepare failed: %s \n " , sqlite3_errmsg ( db ) ) ;
}
}
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tf_ssb_release_db_reader ( ssb , db ) ;
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}
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static void _tf_ssb_db_resolve_index_after_work ( tf_ssb_t * ssb , int status , void * user_data )
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{
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resolve_index_t * request = user_data ;
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request - > callback ( request - > path , request - > user_data ) ;
tf_free ( ( void * ) request - > host ) ;
tf_free ( ( void * ) request - > path ) ;
tf_free ( request ) ;
}
void tf_ssb_db_resolve_index_async ( tf_ssb_t * ssb , const char * host , void ( * callback ) ( const char * path , void * user_data ) , void * user_data )
{
resolve_index_t * request = tf_malloc ( sizeof ( resolve_index_t ) ) ;
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* request = ( resolve_index_t ) {
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. host = tf_strdup ( host ) ,
. callback = callback ,
. user_data = user_data ,
} ;
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tf_ssb_run_work ( ssb , _tf_ssb_db_resolve_index_work , _tf_ssb_db_resolve_index_after_work , request ) ;
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}
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bool tf_ssb_db_verify ( tf_ssb_t * ssb , const char * id )
{
JSContext * context = tf_ssb_get_context ( ssb ) ;
bool verified = true ;
int64_t sequence = - 1 ;
if ( tf_ssb_db_get_latest_message_by_author ( ssb , id , & sequence , NULL , 0 ) )
{
for ( int64_t i = 1 ; i < = sequence ; i + + )
{
char message_id [ k_id_base64_len ] ;
char previous [ 256 ] ;
double timestamp ;
char * content = NULL ;
char hash [ 32 ] ;
char signature [ 256 ] ;
int flags = 0 ;
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if ( tf_ssb_db_get_message_by_author_and_sequence (
ssb , id , i , message_id , sizeof ( message_id ) , previous , sizeof ( previous ) , & timestamp , & content , hash , sizeof ( hash ) , signature , sizeof ( signature ) , & flags ) )
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{
JSValue message = tf_ssb_format_message ( context , previous , id , i , timestamp , hash , content , signature , flags ) ;
char calculated_id [ k_id_base64_len ] ;
char extracted_signature [ 256 ] ;
int calculated_flags = 0 ;
if ( ! tf_ssb_verify_and_strip_signature ( context , message , calculated_id , sizeof ( calculated_id ) , extracted_signature , sizeof ( extracted_signature ) , & calculated_flags ) )
{
tf_printf ( " author=%s sequence=% " PRId64 " verify failed. \n " , id , i ) ;
verified = false ;
}
if ( calculated_flags ! = flags )
{
tf_printf ( " author=%s sequence=% " PRId64 " flag mismatch %d => %d. \n " , id , i , flags , calculated_flags ) ;
verified = false ;
}
if ( strcmp ( message_id , calculated_id ) )
{
tf_printf ( " author=%s sequence=% " PRId64 " id mismatch %s => %s. \n " , id , i , message_id , calculated_id ) ;
verified = false ;
}
JS_FreeValue ( context , message ) ;
tf_free ( content ) ;
if ( ! verified )
{
break ;
}
}
else
{
tf_printf ( " Unable to find message with sequence=% " PRId64 " for author=%s. " , i , id ) ;
verified = false ;
break ;
}
}
}
else
{
tf_printf ( " Unable to get latest message for author '%s'. \n " , id ) ;
verified = false ;
}
return verified ;
}