genode/repos/os/include/report_rom/rom_module.h

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/*
* \brief ROM module written by report service, read by ROM service
* \author Norman Feske
* \date 2014-01-11
*/
/*
* Copyright (C) 2014 Genode Labs GmbH
*
* This file is part of the Genode OS framework, which is distributed
* under the terms of the GNU General Public License version 2.
*/
#ifndef _INCLUDE__REPORT_ROM__ROM_MODULE_H_
#define _INCLUDE__REPORT_ROM__ROM_MODULE_H_
/* Genode includes */
#include <util/volatile_object.h>
#include <os/attached_ram_dataspace.h>
#include <os/session_policy.h>
namespace Rom {
using Genode::size_t;
using Genode::Lazy_volatile_object;
using Genode::Attached_ram_dataspace;
class Module;
class Readable_module;
class Registry;
class Writer;
class Reader;
class Buffer;
typedef Genode::List<Module> Module_list;
typedef Genode::List<Reader> Reader_list;
typedef Genode::List<Writer> Writer_list;
}
struct Rom::Writer : Writer_list::Element
{
virtual Genode::Session_label label() const = 0;
};
struct Rom::Reader : Reader_list::Element
{
virtual void notify_module_changed() = 0;
virtual void notify_module_invalidated() = 0;
};
struct Rom::Readable_module
{
/**
* Exception type
*/
class Buffer_too_small { };
/**
* Read content of ROM module
*
* Called by ROM service when a dataspace is obtained by the client.
*
* \throw Buffer_too_small
*/
virtual size_t read_content(Reader const &reader, char *dst,
size_t dst_len) const = 0;
virtual size_t size() const = 0;
};
/**
* A Rom::Module gets created as soon as either a ROM client or a Report client
* refers to it.
*
* XXX We never know which of both types of client is actually connected. How
* should pay for it? There are two choices: The backing store could be paid
* by the server, thereby exposing the server to possibe resource exhaustion
* triggered by a malicious client. Alternatively, we could make all clients of
* either kind of service pay that refer to the Rom::Module. In the worst case,
* however, if there are many client for a single report, the paid-for RAM
* quota will never be used. For now, we simply allocate the backing store from
* the server's quota.
*
* The Rom::Module gets destroyed when no client refers to it anymore.
*/
struct Rom::Module : Module_list::Element, Readable_module
{
public:
typedef Genode::String<200> Name;
struct Read_policy
{
/**
* Return true if the reader is allowed to read the module content
*/
virtual bool read_permitted(Module const &,
Writer const &, Reader const &) const = 0;
};
struct Write_policy
{
/**
* Return true of the writer is permitted to write content
*
* This policy hook can be used to implement dynamic policies
* as employed by the clipboard, which blocks reports from
* unfocused clients.
*/
virtual bool write_permitted(Module const &, Writer const &) const = 0;
};
private:
Name _name;
Read_policy const &_read_policy;
Write_policy const &_write_policy;
Reader_list mutable _readers;
Writer_list mutable _writers;
/**
* Origin of the content currently stored in the module
*/
Writer const *_last_writer = nullptr;
/**
* Dataspace used as backing store
*
* The buffer for the content is not allocated from the heap to
* allow for the immediate release of the underlying backing store when
* the module gets destructed.
*/
Lazy_volatile_object<Attached_ram_dataspace> _ds;
/**
* Content size, which may less than the capacilty of '_ds'.
*/
size_t _size = 0;
/********************************
** Interface used by registry **
********************************/
friend class Registry;
/**
* Constructor
*
* \param name module name
* \param read_policy policy hook function that is evaluated each
* time when the module content is obtained
* \param write_policy policy hook function that is evaluated each
* time when the module content is changed
*/
Module(Name const &name,
Read_policy const &read_policy,
Write_policy const &write_policy)
:
_name(name), _read_policy(read_policy), _write_policy(write_policy)
{ }
/*************************************************
** Interface to be used by the 'Registry' only **
*************************************************/
bool _reader_registered(Reader const &reader) const
{
for (Reader const *r = _readers.first(); r; r = r->next())
if (r == &reader)
return true;
return false;
}
void _register(Reader &reader) { _readers.insert(&reader); }
void _unregister(Reader &reader) { _readers.remove(&reader); }
void _register(Writer &writer)
{
_writers.insert(&writer);
}
void _unregister(Writer const &writer)
{
_writers.remove(&writer);
/* clear content if its origin disappears */
if (_last_writer == &writer) {
Genode::memset(_ds->local_addr<char>(), 0, _size);
_size = 0;
_last_writer = nullptr;
}
}
bool _has_name(Name const &name) const { return name == _name; }
bool _in_use() const
{
return _readers.first() || _writers.first();
}
unsigned _num_writers() const
{
unsigned cnt = 0;
for (Writer const *w = _writers.first(); w; w = w->next())
cnt++;
return cnt;
}
public:
/**
* Assign new content to the ROM module
*
* Called by report service when a new report comes in.
*/
void write_content(Writer const &writer, char const * const src, size_t const src_len)
{
if (!_write_policy.write_permitted(*this, writer))
return;
_size = 0;
_last_writer = &writer;
/*
* Realloc backing store if needed
*
* Take a terminating zero into account, which we append to each
* report. This way, we do not need to trust report clients to
* append a zero termination to textual reports.
*/
if (!_ds.constructed() || _ds->size() < (src_len + 1))
_ds.construct(Genode::env()->ram_session(), (src_len + 1));
/* copy content into backing store */
_size = src_len;
Genode::memcpy(_ds->local_addr<char>(), src, _size);
/* append zero termination */
_ds->local_addr<char>()[src_len] = 0;
/* notify ROM clients that access the module */
for (Reader *r = _readers.first(); r; r = r->next()) {
if (_read_policy.read_permitted(*this, *_last_writer, *r))
r->notify_module_changed();
else
r->notify_module_invalidated();
}
}
/**
* Readable_module interface
*/
size_t read_content(Reader const &reader, char *dst, size_t dst_len) const override
{
if (!_ds.constructed() || !_last_writer)
return 0;
if (!_read_policy.read_permitted(*this, *_last_writer, reader))
return 0;
if (dst_len < _size)
throw Buffer_too_small();
Genode::memcpy(dst, _ds->local_addr<char>(), _size);
return _size;
}
virtual size_t size() const override { return _size; }
Name name() const { return _name; }
};
#endif /* _INCLUDE__REPORT_ROM__ROM_MODULE_H_ */