/* * storage.h: interface defining functions for storage and recovery * of PuTTY's persistent data. */ #ifndef PUTTY_STORAGE_H #define PUTTY_STORAGE_H /* ---------------------------------------------------------------------- * Functions to save and restore PuTTY sessions. Note that this is * only the low-level code to do the reading and writing. The * higher-level code that translates an internal Conf structure into * a set of (key,value) pairs in their external storage format is * elsewhere, since it doesn't (mostly) change between platforms. */ /* * Write a saved session. The caller is expected to call * open_setting_w() to get a `void *' handle, then pass that to a * number of calls to write_setting_s() and write_setting_i(), and * then close it using close_settings_w(). At the end of this call * sequence the settings should have been written to the PuTTY * persistent storage area. * * A given key will be written at most once while saving a session. * Keys may be up to 255 characters long. String values have no length * limit. * * Any returned error message must be freed after use. */ settings_w *open_settings_w(const char *sessionname, char **errmsg); void write_setting_s(settings_w *handle, const char *key, const char *value); void write_setting_i(settings_w *handle, const char *key, int value); void write_setting_filename(settings_w *handle, const char *key, Filename *value); void write_setting_fontspec(settings_w *handle, const char *key, FontSpec *font); void close_settings_w(settings_w *handle); /* * Read a saved session. The caller is expected to call * open_setting_r() to get a `void *' handle, then pass that to a * number of calls to read_setting_s() and read_setting_i(), and * then close it using close_settings_r(). * * read_setting_s() returns a dynamically allocated string which the * caller must free. read_setting_filename() and * read_setting_fontspec() likewise return dynamically allocated * structures. * * If a particular string setting is not present in the session, * read_setting_s() can return NULL, in which case the caller * should invent a sensible default. If an integer setting is not * present, read_setting_i() returns its provided default. */ settings_r *open_settings_r(const char *sessionname); char *read_setting_s(settings_r *handle, const char *key); int read_setting_i(settings_r *handle, const char *key, int defvalue); Filename *read_setting_filename(settings_r *handle, const char *key); FontSpec *read_setting_fontspec(settings_r *handle, const char *key); void close_settings_r(settings_r *handle); /* * Delete a whole saved session. */ void del_settings(const char *sessionname); /* * Enumerate all saved sessions. */ settings_e *enum_settings_start(void); bool enum_settings_next(settings_e *handle, strbuf *out); void enum_settings_finish(settings_e *handle); /* ---------------------------------------------------------------------- * Functions to access PuTTY's host key database. */ /* * See if a host key matches the database entry. Return values can * be 0 (entry matches database), 1 (entry is absent in database), * or 2 (entry exists in database and is different). */ int verify_host_key(const char *hostname, int port, const char *keytype, const char *key); /* * Write a host key into the database, overwriting any previous * entry that might have been there. */ void store_host_key(const char *hostname, int port, const char *keytype, const char *key); /* ---------------------------------------------------------------------- * Functions to access PuTTY's random number seed file. */ typedef void (*noise_consumer_t) (void *data, int len); /* * Read PuTTY's random seed file and pass its contents to a noise * consumer function. */ void read_random_seed(noise_consumer_t consumer); /* * Write PuTTY's random seed file from a given chunk of noise. */ void write_random_seed(void *data, int len); /* ---------------------------------------------------------------------- * Cleanup function: remove all of PuTTY's persistent state. */ void cleanup_all(void); #endif