// This file is part of BOINC.
// http://boinc.berkeley.edu
// Copyright (C) 2008 University of California
//
// BOINC is free software; you can redistribute it and/or modify it
// under the terms of the GNU Lesser General Public License
// as published by the Free Software Foundation,
// either version 3 of the License, or (at your option) any later version.
//
// BOINC is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
// See the GNU Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with BOINC. If not, see .
#ifndef _ASYNCRPC_H_
#define _ASYNCRPC_H_
#if defined(__GNUG__) && !defined(__APPLE__)
#pragma interface "AsyncRPC.cpp"
#endif
#ifndef __WXMAC__
#define BOINC_Condition wxCondition
#define BOINC_Mutex wxMutex
#else
// Adapted from wxMac-2.8.10
#include
class BOINC_Mutex
{
public:
BOINC_Mutex( wxMutexType mutexType = wxMUTEX_DEFAULT );
~BOINC_Mutex();
wxMutexError Lock();
wxMutexError TryLock();
wxMutexError Unlock();
bool IsOk() const
{ return m_isOk; }
private:
pthread_mutex_t m_mutex;
bool m_isOk;
// BOINC_Condition uses our m_mutex
friend class BOINC_Condition;
};
// Adapted from wxMac-2.8.10 but using native pthread_cond_*()
class BOINC_Condition
{
public:
BOINC_Condition(BOINC_Mutex& mutex);
~BOINC_Condition();
bool IsOk() const { return (m_BOINC_Mutex.IsOk() && mb_initOK); }
wxCondError Wait();
wxCondError WaitTimeout(unsigned long milliseconds);
void Signal();
void Broadcast();
private:
BOINC_Mutex& m_BOINC_Mutex;
pthread_cond_t m_cond;
bool mb_initOK;
DECLARE_NO_COPY_CLASS(BOINC_Condition)
};
#endif
class CMainDocument; // Forward declaration
enum RPC_SELECTOR {
RPC_AUTHORIZE = 1,
RPC_EXCHANGE_VERSIONS,
RPC_GET_STATE,
RPC_GET_RESULTS,
RPC_GET_FILE_TRANSFERS,
RPC_GET_SIMPLE_GUI_INFO1,
RPC_GET_SIMPLE_GUI_INFO2,
RPC_GET_PROJECT_STATUS1,
RPC_GET_PROJECT_STATUS2,
RPC_GET_ALL_PROJECTS_LIST, // 10
RPC_GET_DISK_USAGE,
RPC_SHOW_GRAPHICS,
RPC_PROJECT_OP,
RPC_SET_RUN_MODE,
RPC_SET_GPU_MODE,
RPC_SET_NETWORK_MODE,
RPC_GET_SCREENSAVER_TASKS,
RPC_RUN_BENCHMARKS,
RPC_SET_PROXY_SETTINGS,
RPC_GET_PROXY_SETTINGS,
RPC_GET_MESSAGES, // 20
RPC_FILE_TRANSFER_OP,
RPC_RESULT_OP,
RPC_GET_HOST_INFO,
RPC_QUIT,
RPC_ACCT_MGR_INFO,
RPC_GET_STATISTICS,
RPC_NETWORK_AVAILABLE,
RPC_GET_PROJECT_INIT_STATUS,
RPC_GET_PROJECT_CONFIG,
RPC_GET_PROJECT_CONFIG_POLL, // 30
RPC_LOOKUP_ACCOUNT,
RPC_LOOKUP_ACCOUNT_POLL,
RPC_CREATE_ACCOUNT,
RPC_CREATE_ACCOUNT_POLL,
RPC_PROJECT_ATTACH,
RPC_PROJECT_ATTACH_FROM_FILE,
RPC_PROJECT_ATTACH_POLL,
RPC_ACCT_MGR_RPC,
RPC_ACCT_MGR_RPC_POLL,
RPC_GET_NEWER_VERSION, // 40
RPC_READ_GLOBAL_PREFS_OVERRIDE,
RPC_READ_CC_CONFIG,
RPC_GET_CC_STATUS,
RPC_GET_GLOBAL_PREFS_FILE,
RPC_GET_GLOBAL_PREFS_WORKING,
RPC_GET_GLOBAL_PREFS_WORKING_STRUCT,
RPC_GET_GLOBAL_PREFS_OVERRIDE,
RPC_SET_GLOBAL_PREFS_OVERRIDE,
RPC_GET_GLOBAL_PREFS_OVERRIDE_STRUCT,
RPC_SET_GLOBAL_PREFS_OVERRIDE_STRUCT, // 50
RPC_SET_DEBTS,
RPC_GET_NOTICES,
NUM_RPC_SELECTORS
};
enum ASYNC_RPC_TYPE {
// Demand RPC: wait for completion before returning (usually
// a user-initiated request.)
RPC_TYPE_WAIT_FOR_COMPLETION = 1,
// Periodic RPC: post request on queue and return immediately
// (requested due to a timer interrupt.)
RPC_TYPE_ASYNC_NO_REFRESH,
// Periodic RPC as above, but on completion also process a
// wxEVT_FRAME_REFRESHVIEW event to refresh the display.
RPC_TYPE_ASYNC_WITH_REFRESH_AFTER,
// Periodic RPC as above, but on completion also process a
// wxEVT_FRAME_REFRESHVIEW event to refresh the display.
RPC_TYPE_ASYNC_WITH_REFRESH_EVENT_LOG_AFTER,
// Periodic RPC as above, but on completion also process a
// wxEVT_TASKBAR_REFRESH event to refresh the taskbar icon.
RPC_TYPE_ASYNC_WITH_UPDATE_TASKBAR_ICON_AFTER,
NUM_RPC_TYPES
};
// Pass the following structure to CMainDocument::RequestRPC()
// The members are as follows:
//
// arg1 is usually the buffer to read into
//
// exchangeBuf is the (optional) buffer to exchange with after
// completing the RPC, the buffer used by the Manager code.
// Pass NULL if you don't want the buffer exchanged.
//
// arg2, arg3, arg4 are additional arguments when needed by the
// RPC call; their usage varies for different RPC requests.
//
// rpcType is as described above
//
// completionTime is a pointer to a wxDateTime variable into which
// to write the completion time of the RPC. It may be NULL.
//
// resultPtr is a pointer to an int into which to write the result
// returned by the RPC call. It may be NULL.
//
// retval is for internal use by the async RPC logic; do not use.
//
// isActive is for internal use by the async RPC logic; do not use.
//
struct ASYNC_RPC_REQUEST {
RPC_SELECTOR which_rpc;
void *arg1;
void *exchangeBuf;
void *arg2;
void *arg3;
void *arg4;
ASYNC_RPC_TYPE rpcType;
wxDateTime *completionTime;
int *resultPtr;
int retval;
bool isActive;
ASYNC_RPC_REQUEST();
~ASYNC_RPC_REQUEST();
void clear();
bool isSameAs(ASYNC_RPC_REQUEST& otherRequest);
};
class AsyncRPC
{
public:
AsyncRPC(CMainDocument *pDoc);
~AsyncRPC();
int RPC_Wait(
RPC_SELECTOR which_rpc, void* arg1 = NULL, void*
arg2 = NULL, void* arg3 = NULL, void* arg4 = NULL,
bool hasPriority = false
);
// Manager must do all RPC data transfers through AsyncRPC calls, so
// this class must have methods corresponding to all RPC_CLIENT data
// transfer operations, but NOT init(), init_async(), close(), etc.
int authorize(const char* passwd)
{ return RPC_Wait(RPC_AUTHORIZE, (void*)passwd); }
int exchange_versions(VERSION_INFO& arg1)
{ return RPC_Wait(RPC_EXCHANGE_VERSIONS, (void*)&arg1); }
int get_state(CC_STATE& arg1)
{ return RPC_Wait(RPC_GET_STATE, (void*)&arg1); }
int get_results(RESULTS& arg1, bool& arg2)
{ return RPC_Wait(RPC_GET_RESULTS, (void*)&arg1, (void*)&arg2); }
int get_file_transfers(FILE_TRANSFERS& arg1)
{ return RPC_Wait(RPC_GET_FILE_TRANSFERS, (void*)&arg1); }
int get_simple_gui_info(SIMPLE_GUI_INFO& arg1)
{ return RPC_Wait(RPC_GET_SIMPLE_GUI_INFO1, (void*)&arg1); }
int get_simple_gui_info(PROJECTS& arg1, CC_STATE& ccbuf, RESULTS& rbuf)
{ return RPC_Wait(RPC_GET_SIMPLE_GUI_INFO2, (void*)&arg1, (void*)&ccbuf, (void*)&rbuf); }
int get_project_status(PROJECTS& arg1, CC_STATE& arg2)
{ return RPC_Wait(RPC_GET_PROJECT_STATUS1, (void*)&arg1, (void*)&arg2); }
int get_project_status(PROJECTS& arg1)
{ return RPC_Wait(RPC_GET_PROJECT_STATUS2, (void*)&arg1); }
int get_all_projects_list(ALL_PROJECTS_LIST& arg1)
{ return RPC_Wait(RPC_GET_ALL_PROJECTS_LIST, (void*)&arg1); }
int get_disk_usage(DISK_USAGE& arg1)
{ return RPC_Wait(RPC_GET_DISK_USAGE, (void*)&arg1); }
int show_graphics(
const char* project, const char* result_name, int graphics_mode, DISPLAY_INFO& di)
{ return RPC_Wait(RPC_SHOW_GRAPHICS, (void*)project, (void*)result_name, (void*)&graphics_mode, (void*)&di); }
int project_op(PROJECT& arg1, const char* op)
{ return RPC_Wait(RPC_PROJECT_OP, (void*)&arg1, (void*)op); }
int set_run_mode(int mode, double duration)
{ return RPC_Wait(RPC_SET_RUN_MODE, (void*)&mode, (void*)&duration); }
// if duration is zero, change is permanent.
// otherwise, after duration expires,
// restore last permanent mode
int set_gpu_mode(int mode, double duration)
{ return RPC_Wait(RPC_SET_GPU_MODE, (void*)&mode, (void*)&duration); }
int set_network_mode(int mode, double duration)
{ return RPC_Wait(RPC_SET_NETWORK_MODE, (void*)&mode, (void*)&duration); }
int get_screensaver_tasks(int& suspend_reason, RESULTS& rbuf)
{ return RPC_Wait(RPC_GET_SCREENSAVER_TASKS, (void*)&suspend_reason, (void*)&rbuf); }
int run_benchmarks()
{ return RPC_Wait(RPC_RUN_BENCHMARKS); }
int set_proxy_settings(GR_PROXY_INFO& arg1)
{ return RPC_Wait(RPC_SET_PROXY_SETTINGS, (void*)&arg1); }
int get_proxy_settings(GR_PROXY_INFO& arg1)
{ return RPC_Wait(RPC_GET_PROXY_SETTINGS, (void*)&arg1); }
int get_messages(int seqno, MESSAGES& arg1)
{ return RPC_Wait(RPC_GET_MESSAGES, (void*)&seqno, (void*)&arg1); }
int get_notices(int seqno, NOTICES& arg1)
{ return RPC_Wait(RPC_GET_NOTICES, (void*)&seqno, (void*)&arg1); }
int file_transfer_op(FILE_TRANSFER& arg1, const char* op)
{ return RPC_Wait(RPC_FILE_TRANSFER_OP, (void*)&arg1, (void*)op); }
int result_op(RESULT& arg1, const char* op)
{ return RPC_Wait(RPC_RESULT_OP, (void*)&arg1, (void*)op); }
int get_host_info(HOST_INFO& arg1)
{ return RPC_Wait(RPC_GET_HOST_INFO, (void*)&arg1); }
int quit()
{ return RPC_Wait(RPC_QUIT); }
int acct_mgr_info(ACCT_MGR_INFO& arg1)
{ return RPC_Wait(RPC_ACCT_MGR_INFO, (void*)&arg1); }
int get_statistics(PROJECTS& arg1)
{ return RPC_Wait(RPC_GET_STATISTICS, (void*)&arg1); }
int network_available()
{ return RPC_Wait(RPC_NETWORK_AVAILABLE); }
int get_project_init_status(PROJECT_INIT_STATUS& pis)
{ return RPC_Wait(RPC_GET_PROJECT_INIT_STATUS, (void*)&pis); }
// the following are asynch operations.
// Make the first call to start the op,
// call the second one periodically until it returns zero.
// TODO: do project update
//
int get_project_config(std::string url)
{ return RPC_Wait(RPC_GET_PROJECT_CONFIG, (void*)&url); }
int get_project_config_poll(PROJECT_CONFIG& arg1)
{ return RPC_Wait(RPC_GET_PROJECT_CONFIG_POLL, (void*)&arg1); }
int lookup_account(ACCOUNT_IN& arg1)
{ return RPC_Wait(RPC_LOOKUP_ACCOUNT, (void*)&arg1); }
int lookup_account_poll(ACCOUNT_OUT& arg1)
{ return RPC_Wait(RPC_LOOKUP_ACCOUNT_POLL, (void*)&arg1); }
int create_account(ACCOUNT_IN& arg1)
{ return RPC_Wait(RPC_CREATE_ACCOUNT, (void*)&arg1); }
int create_account_poll(ACCOUNT_OUT& arg1)
{ return RPC_Wait(RPC_CREATE_ACCOUNT_POLL, (void*)&arg1); }
int project_attach(
const char* url, const char* auth, const char* project_name
) { return RPC_Wait(RPC_PROJECT_ATTACH, (void*)url, (void*)auth, (void*)project_name); }
int project_attach_from_file()
{ return RPC_Wait(RPC_PROJECT_ATTACH_FROM_FILE); }
int project_attach_poll(PROJECT_ATTACH_REPLY& arg1)
{ return RPC_Wait(RPC_PROJECT_ATTACH_POLL, (void*)&arg1); }
int acct_mgr_rpc(
const char* url, const char* name, const char* passwd,
bool use_config_file=false
) { return RPC_Wait(RPC_ACCT_MGR_RPC, (void*)url, (void*)name, (void*)passwd, (void*)use_config_file); }
int acct_mgr_rpc_poll(ACCT_MGR_RPC_REPLY& arg1)
{ return RPC_Wait(RPC_ACCT_MGR_RPC_POLL, (void*)&arg1); }
int get_newer_version(std::string& arg1)
{ return RPC_Wait(RPC_GET_NEWER_VERSION, (void*)&arg1); }
int read_global_prefs_override()
{ return RPC_Wait(RPC_READ_GLOBAL_PREFS_OVERRIDE); }
int read_cc_config()
{ return RPC_Wait(RPC_READ_CC_CONFIG); }
int get_cc_status(CC_STATUS& arg1)
{ return RPC_Wait(RPC_GET_CC_STATUS, (void*)&arg1); }
int get_global_prefs_file(std::string& arg1)
{ return RPC_Wait(RPC_GET_GLOBAL_PREFS_FILE, (void*)&arg1); }
int get_global_prefs_working(std::string& arg1)
{ return RPC_Wait(RPC_GET_GLOBAL_PREFS_WORKING, (void*)&arg1); }
int get_global_prefs_working_struct(GLOBAL_PREFS& arg1, GLOBAL_PREFS_MASK& arg2)
{ return RPC_Wait(RPC_GET_GLOBAL_PREFS_WORKING_STRUCT, (void*)&arg1, (void*)&arg2); }
int get_global_prefs_override(std::string& arg1)
{ return RPC_Wait(RPC_GET_GLOBAL_PREFS_OVERRIDE, (void*)&arg1); }
int set_global_prefs_override(std::string& arg1)
{ return RPC_Wait(RPC_SET_GLOBAL_PREFS_OVERRIDE, (void*)&arg1); }
int get_global_prefs_override_struct(GLOBAL_PREFS& arg1, GLOBAL_PREFS_MASK& arg2)
{ return RPC_Wait(RPC_GET_GLOBAL_PREFS_OVERRIDE_STRUCT, (void*)&arg1, (void*)&arg2); }
int set_global_prefs_override_struct(GLOBAL_PREFS& arg1, GLOBAL_PREFS_MASK& arg2)
{ return RPC_Wait(RPC_SET_GLOBAL_PREFS_OVERRIDE_STRUCT, (void*)&arg1, (void*)&arg2); }
int set_debts(std::vector arg1)
{ return RPC_Wait(RPC_SET_DEBTS, (void*)&arg1); }
private:
CMainDocument* m_pDoc;
};
class RPCThread : public wxThread
{
public:
RPCThread(CMainDocument *pDoc,
BOINC_Mutex* pRPC_Thread_Mutex,
BOINC_Condition* pRPC_Thread_Condition,
BOINC_Mutex* pRPC_Request_Mutex,
BOINC_Condition* RPC_Request_Condition
);
virtual void *Entry();
private:
int ProcessRPCRequest();
CMainDocument* m_pDoc;
BOINC_Mutex* m_pRPC_Thread_Mutex;
BOINC_Condition* m_pRPC_Thread_Condition;
BOINC_Mutex* m_pRPC_Request_Mutex;
BOINC_Condition* m_pRPC_Request_Condition;
};
class AsyncRPCDlg : public wxDialog
{
DECLARE_DYNAMIC_CLASS( AsyncRPCDlg )
DECLARE_EVENT_TABLE()
public:
AsyncRPCDlg();
void OnRPCDlgTimer(wxTimerEvent &event);
void OnExit(wxCommandEvent& event);
};
class CRPCFinishedEvent : public wxEvent
{
public:
CRPCFinishedEvent(wxEventType evtType)
: wxEvent(-1, evtType)
{
SetEventObject(wxTheApp);
}
virtual wxEvent *Clone() const { return new CRPCFinishedEvent(*this); }
};
BEGIN_DECLARE_EVENT_TYPES()
DECLARE_EVENT_TYPE( wxEVT_RPC_FINISHED, -1 )
END_DECLARE_EVENT_TYPES()
#define EVT_RPC_FINISHED(fn) \
DECLARE_EVENT_TABLE_ENTRY(wxEVT_RPC_FINISHED, -1, -1, (wxObjectEventFunction) (wxEventFunction) &fn, NULL),
#endif // _ASYNCRPC_H_