haiku/headers/private/media/DataExchange.h
Ingo Weinhold 758b1d0e05 Fixes that make Haiku build with gcc 4. Mainly out of the following
categories:
* Missing includes (like <stdlib.h> and <string.h>).
* Linking against $(TARGET_LIBSTDC++) instead of libstdc++.r4.so.
* Local variables shadowing parameters.
* Default parameters in function definitions (as opposed to function
  declarations).
* All C++ stuff (nothrow, map, set, vector, min, max,...) must be imported
  explicitly from the std:: namespace now.
* "new (sometype)[...]" must read "new sometype[...]", even if sometype is
  something like "const char *".
* __FUNCTION__ is no longer a string literal (but a string expression), i.e.
  'printf(__FUNCTION__ ": ...\n")' is invalid code.
* A type cast results in a non-lvalue. E.g. "(char *)buffer += bytes"
  is an invalid expression.
* "friend class SomeClass" only works when SomeClass is known before.
  Otherwise the an inner class with that name is considered as friend.
  gcc 4 is much pickier about scopes.
* gcc 4 is generally stricter with respect to type conversions in C.



git-svn-id: file:///srv/svn/repos/haiku/haiku/trunk@14878 a95241bf-73f2-0310-859d-f6bbb57e9c96
2005-11-12 23:27:14 +00:00

1016 lines
20 KiB
C++

/*
* Copyright 2002, Marcus Overhagen. All rights reserved.
* Distributed under the terms of the MIT License.
*/
#ifndef _DATA_EXCHANGE_H
#define _DATA_EXCHANGE_H
#include <string.h>
#include <MediaFormats.h>
#include <MediaNode.h>
#include <MediaAddOn.h>
#include <Messenger.h>
#include <Buffer.h>
#include <Entry.h>
namespace BPrivate {
namespace media {
namespace dataexchange {
struct reply_data;
struct request_data;
struct command_data;
// BMessage based data exchange with the media_server
status_t SendToServer(BMessage *msg);
status_t QueryServer(BMessage &request, BMessage &reply);
// Raw data based data exchange with the media_server
status_t SendToServer(int32 msgcode, command_data *msg, int size);
status_t QueryServer(int32 msgcode, request_data *request, int requestsize, reply_data *reply, int replysize);
// Raw data based data exchange with the media_addon_server
status_t SendToAddonServer(int32 msgcode, command_data *msg, int size);
status_t QueryAddonServer(int32 msgcode, request_data *request, int requestsize, reply_data *reply, int replysize);
// Raw data based data exchange with any (media node control-) port
status_t SendToPort(port_id sendport, int32 msgcode, command_data *msg, int size);
status_t QueryPort(port_id requestport, int32 msgcode, request_data *request, int requestsize, reply_data *reply, int replysize);
// The base struct used for all raw requests
struct request_data
{
port_id reply_port;
status_t SendReply(status_t result, reply_data *reply, int replysize) const;
};
// The base struct used for all raw replys
struct reply_data
{
status_t result;
};
// The base struct used for all raw commands (asynchronous, no answer)
struct command_data
{
// yes, it's empty ;)
};
}; // dataexchange
}; // media
}; // BPrivate
using namespace BPrivate::media::dataexchange;
// BMessage based server communication
enum {
// BMediaRoster notification service
MEDIA_SERVER_REQUEST_NOTIFICATIONS = 1000,
MEDIA_SERVER_CANCEL_NOTIFICATIONS,
MEDIA_SERVER_SEND_NOTIFICATIONS,
MEDIA_SERVER_GET_FORMATS,
MEDIA_SERVER_MAKE_FORMAT_FOR,
};
// Raw port based communication
enum {
ADDONSERVER_RESCAN_MEDIAADDON_FLAVORS = 0x50,
SERVER_MESSAGE_START = 0x100,
SERVER_REGISTER_APP,
SERVER_UNREGISTER_APP,
SERVER_GET_NODE,
SERVER_SET_NODE,
SERVER_PUBLISH_INPUTS,
SERVER_PUBLISH_OUTPUTS,
SERVER_NODE_ID_FOR,
SERVER_GET_LIVE_NODE_INFO,
SERVER_GET_LIVE_NODES,
SERVER_GET_NODE_FOR,
SERVER_RELEASE_NODE,
SERVER_REGISTER_NODE,
SERVER_UNREGISTER_NODE,
SERVER_GET_DORMANT_NODE_FOR,
SERVER_GET_INSTANCES_FOR,
SERVER_GET_SHARED_BUFFER_AREA,
SERVER_REGISTER_BUFFER,
SERVER_UNREGISTER_BUFFER,
SERVER_RESCAN_DEFAULTS,
SERVER_SET_NODE_CREATOR,
SERVER_CHANGE_ADDON_FLAVOR_INSTANCES_COUNT,
SERVER_REWINDTYPES,
SERVER_REWINDREFS,
SERVER_GETREFFOR,
SERVER_SETREFFOR,
SERVER_REMOVEREFFOR,
SERVER_REMOVEITEM,
SERVER_GET_FORMAT_FOR_DESCRIPTION,
SERVER_GET_DESCRIPTION_FOR_FORMAT,
SERVER_GET_READERS,
SERVER_GET_DECODER_FOR_FORMAT,
SERVER_MESSAGE_END,
NODE_MESSAGE_START = 0x200,
NODE_START,
NODE_STOP,
NODE_SEEK,
NODE_SET_RUN_MODE,
NODE_TIME_WARP,
NODE_PREROLL,
NODE_SET_TIMESOURCE,
NODE_GET_TIMESOURCE,
NODE_REQUEST_COMPLETED,
NODE_FINAL_RELEASE,
NODE_MESSAGE_END,
CONSUMER_MESSAGE_START = 0x300,
CONSUMER_GET_NEXT_INPUT,
CONSUMER_DISPOSE_INPUT_COOKIE,
CONSUMER_ACCEPT_FORMAT,
CONSUMER_CONNECTED,
CONSUMER_DISCONNECTED,
CONSUMER_BUFFER_RECEIVED,
CONSUMER_PRODUCER_DATA_STATUS,
CONSUMER_GET_LATENCY_FOR,
CONSUMER_FORMAT_CHANGED,
CONSUMER_SEEK_TAG_REQUESTED,
CONSUMER_MESSAGE_END,
PRODUCER_MESSAGE_START = 0x400,
PRODUCER_GET_NEXT_OUTPUT,
PRODUCER_DISPOSE_OUTPUT_COOKIE,
PRODUCER_FORMAT_PROPOSAL,
PRODUCER_PREPARE_TO_CONNECT,
PRODUCER_CONNECT,
PRODUCER_DISCONNECT,
PRODUCER_LATE_NOTICE_RECEIVED,
PRODUCER_LATENCY_CHANGED,
PRODUCER_ADDITIONAL_BUFFER_REQUESTED,
PRODUCER_VIDEO_CLIPPING_CHANGED,
PRODUCER_FORMAT_CHANGE_REQUESTED,
PRODUCER_SET_BUFFER_GROUP,
PRODUCER_GET_LATENCY,
PRODUCER_GET_INITIAL_LATENCY,
PRODUCER_FORMAT_SUGGESTION_REQUESTED,
PRODUCER_SET_PLAY_RATE,
PRODUCER_ENABLE_OUTPUT,
PRODUCER_SET_RUN_MODE_DELAY,
PRODUCER_MESSAGE_END,
FILEINTERFACE_MESSAGE_START = 0x500,
FILEINTERFACE_MESSAGE_END,
CONTROLLABLE_MESSAGE_START = 0x600,
CONTROLLABLE_GET_PARAMETER_WEB,
CONTROLLABLE_GET_PARAMETER_DATA,
CONTROLLABLE_SET_PARAMETER_DATA,
CONTROLLABLE_MESSAGE_END,
TIMESOURCE_MESSAGE_START = 0x700,
TIMESOURCE_OP, // datablock is a struct time_source_op_info
TIMESOURCE_ADD_SLAVE_NODE,
TIMESOURCE_REMOVE_SLAVE_NODE,
TIMESOURCE_GET_START_LATENCY,
TIMESOURCE_MESSAGE_END,
};
/* We can't send an entry_ref through a port to another team,
* but we can assign it to an xfer_entry_ref and send this one,
* when we receive it we can assign it to a normal entry_ref
*/
struct xfer_entry_ref
{
public:
xfer_entry_ref()
{
device = -1;
directory = -1;
name[0] = 0;
}
operator entry_ref() const
{
entry_ref ref(device, directory, name);
return ref;
}
void operator=(const entry_ref &ref)
{
device = ref.device;
directory = ref.directory;
if(ref.name)
strcpy(name, ref.name);
else
name[0] = 0;
}
private:
dev_t device;
ino_t directory;
char name[B_FILE_NAME_LENGTH]; // == 256 bytes
};
// used by SERVER_GET_NODE and SERVER_SET_NODE
enum node_type
{
VIDEO_INPUT,
AUDIO_INPUT,
VIDEO_OUTPUT,
AUDIO_MIXER,
AUDIO_OUTPUT,
AUDIO_OUTPUT_EX,
TIME_SOURCE,
SYSTEM_TIME_SOURCE
};
// used by SERVER_PUBLISH_INPUTS and SERVER_PUBLISH_OUTPUTS
enum
{
MAX_OUTPUTS = 8,
MAX_INPUTS = 8,
};
// used by SERVER_GET_LIVE_NODES
enum
{
MAX_LIVE_INFO = 16,
};
// used by SERVER_GET_INSTANCES_FOR
enum
{
MAX_NODE_ID = 4000,
};
// used by SERVER_GET_READERS
enum
{
MAX_READERS = 40,
};
struct addonserver_instantiate_dormant_node_request : public request_data
{
media_addon_id addonid;
int32 flavorid;
team_id creator_team;
};
struct addonserver_instantiate_dormant_node_reply : public reply_data
{
media_node node;
};
struct server_set_node_request : public request_data
{
node_type type;
bool use_node;
media_node node;
bool use_dni;
dormant_node_info dni;
bool use_input;
media_input input;
};
struct server_set_node_reply : public reply_data
{
};
struct server_get_node_request : public request_data
{
node_type type;
team_id team;
};
struct server_get_node_reply : public reply_data
{
media_node node;
// for AUDIO_OUTPUT_EX
char input_name[B_MEDIA_NAME_LENGTH];
int32 input_id;
};
struct producer_format_proposal_request : public request_data
{
media_source output;
media_format format;
};
struct producer_format_proposal_reply : public reply_data
{
media_format format;
};
struct producer_prepare_to_connect_request : public request_data
{
media_source source;
media_destination destination;
media_format format;
char name[B_MEDIA_NAME_LENGTH];
};
struct producer_prepare_to_connect_reply : public reply_data
{
media_format format;
media_source out_source;
char name[B_MEDIA_NAME_LENGTH];
};
struct producer_connect_request : public request_data
{
status_t error;
media_source source;
media_destination destination;
media_format format;
char name[B_MEDIA_NAME_LENGTH];
};
struct producer_connect_reply : public reply_data
{
char name[B_MEDIA_NAME_LENGTH];
};
struct producer_disconnect_request : public request_data
{
media_source source;
media_destination destination;
};
struct producer_disconnect_reply : public reply_data
{
};
struct producer_format_suggestion_requested_request : public request_data
{
media_type type;
int32 quality;
};
struct producer_format_suggestion_requested_reply : public reply_data
{
media_format format;
};
struct producer_set_play_rate_request : public request_data
{
int32 numer;
int32 denom;
};
struct producer_set_play_rate_reply : public reply_data
{
};
struct producer_get_initial_latency_request : public request_data
{
};
struct producer_get_initial_latency_reply : public reply_data
{
bigtime_t initial_latency;
uint32 flags;
};
struct producer_get_latency_request : public request_data
{
};
struct producer_get_latency_reply : public reply_data
{
bigtime_t latency;
};
struct producer_set_buffer_group_command : public command_data
{
media_source source;
media_destination destination;
void *user_data;
int32 change_tag;
int32 buffer_count;
media_buffer_id buffers[1];
};
struct producer_format_change_requested_command : public command_data
{
media_source source;
media_destination destination;
media_format format;
void *user_data;
int32 change_tag;
};
struct producer_video_clipping_changed_command : public command_data
{
media_source source;
media_destination destination;
media_video_display_info display;
void *user_data;
int32 change_tag;
int32 short_count;
int16 shorts[1];
};
struct producer_additional_buffer_requested_command : public command_data
{
media_source source;
media_buffer_id prev_buffer;
bigtime_t prev_time;
bool has_seek_tag;
media_seek_tag prev_tag;
};
struct producer_latency_changed_command : public command_data
{
media_source source;
media_destination destination;
bigtime_t latency;
uint32 flags;
};
struct producer_enable_output_command : public command_data
{
media_source source;
media_destination destination;
bool enabled;
void *user_data;
int32 change_tag;
};
struct producer_late_notice_received_command : public command_data
{
media_source source;
bigtime_t how_much;
bigtime_t performance_time;
};
struct producer_set_run_mode_delay_command : public command_data
{
BMediaNode::run_mode mode;
bigtime_t delay;
};
struct consumer_accept_format_request : public request_data
{
media_destination dest;
media_format format;
};
struct consumer_accept_format_reply : public reply_data
{
media_format format;
};
struct consumer_connected_request : public request_data
{
media_input input;
};
struct consumer_connected_reply : public reply_data
{
media_input input;
};
struct server_publish_inputs_request : public request_data
{
media_node node;
int32 count;
area_id area; // if count > MAX_INPUTS, inputs are in the area
// area is created in the library, and also deleted
// in the library after the reply has been received
media_input inputs[MAX_INPUTS];
};
struct server_publish_inputs_reply : public reply_data
{
};
struct server_publish_outputs_request : public request_data
{
media_node node;
int32 count;
area_id area; // if count > MAX_OUTPUTS, outputs are in the area
// area is created in the library, and also deleted
// in the library after the reply has been received
media_output outputs[MAX_OUTPUTS];
};
struct server_publish_outputs_reply : public reply_data
{
};
struct producer_get_next_output_request : public request_data
{
int32 cookie;
};
struct producer_get_next_output_reply : public reply_data
{
int32 cookie;
media_output output;
};
struct producer_dispose_output_cookie_request : public request_data
{
int32 cookie;
};
struct producer_dispose_output_cookie_reply : public reply_data
{
};
struct consumer_get_next_input_request : public request_data
{
int32 cookie;
};
struct consumer_get_next_input_reply : public reply_data
{
int32 cookie;
media_input input;
};
struct consumer_dispose_input_cookie_request : public request_data
{
int32 cookie;
};
struct consumer_dispose_input_cookie_reply : public reply_data
{
};
struct consumer_disconnected_request : public request_data
{
media_source source;
media_destination destination;
};
struct consumer_disconnected_reply : public reply_data
{
};
struct consumer_buffer_received_command : public command_data
{
media_buffer_id buffer;
media_header header;
};
struct consumer_producer_data_status_command : public command_data
{
media_destination for_whom;
int32 status;
bigtime_t at_performance_time;
};
struct consumer_get_latency_for_request : public request_data
{
media_destination for_whom;
};
struct consumer_get_latency_for_reply : public reply_data
{
bigtime_t latency;
media_node_id timesource;
};
struct consumer_format_changed_request : public request_data
{
media_source producer;
media_destination consumer;
int32 change_tag;
media_format format;
};
struct consumer_format_changed_reply : public reply_data
{
};
struct consumer_seek_tag_requested_request : public request_data
{
media_destination destination;
bigtime_t target_time;
uint32 flags;
};
struct consumer_seek_tag_requested_reply : public reply_data
{
media_seek_tag seek_tag;
bigtime_t tagged_time;
uint32 flags;
};
struct server_register_app_request : public request_data
{
team_id team;
BMessenger messenger;
};
struct server_register_app_reply : public reply_data
{
};
struct server_unregister_app_request : public request_data
{
team_id team;
};
struct server_unregister_app_reply : public reply_data
{
};
struct server_set_node_creator_request : public request_data
{
media_node_id node;
team_id creator;
};
struct server_set_node_creator_reply : public reply_data
{
};
struct server_change_addon_flavor_instances_count_request : public request_data
{
media_addon_id addonid;
int32 flavorid;
int32 delta; // must be +1 or -1
team_id team;
};
struct server_change_addon_flavor_instances_count_reply : public reply_data
{
};
struct server_register_node_request : public request_data
{
media_addon_id addon_id;
int32 addon_flavor_id;
char name[B_MEDIA_NAME_LENGTH];
uint64 kinds;
port_id port;
team_id team;
};
struct server_register_node_reply : public reply_data
{
media_node_id nodeid;
};
struct server_unregister_node_request : public request_data
{
media_node_id nodeid;
team_id team;
};
struct server_unregister_node_reply : public reply_data
{
media_addon_id addonid;
int32 flavorid;
};
struct server_get_live_node_info_request : public request_data
{
media_node node;
};
struct server_get_live_node_info_reply : public reply_data
{
live_node_info live_info;
};
struct server_get_live_nodes_request : public request_data
{
int32 maxcount;
bool has_input;
bool has_output;
bool has_name;
media_format inputformat;
media_format outputformat;
char name[B_MEDIA_NAME_LENGTH + 1]; // 1 for a trailing "*"
uint64 require_kinds;
};
struct server_get_live_nodes_reply : public reply_data
{
int32 count;
area_id area; // if count > MAX_LIVE_INFO, live_node_infos are in the area
// area is created in the server, but deleted in the library
live_node_info live_info[MAX_LIVE_INFO];
};
struct server_node_id_for_request : public request_data
{
port_id port;
};
struct server_node_id_for_reply : public reply_data
{
media_node_id nodeid;
};
struct server_get_node_for_request : public request_data
{
media_node_id nodeid;
team_id team;
};
struct server_get_node_for_reply : public reply_data
{
media_node clone;
};
struct server_release_node_request : public request_data
{
media_node node;
team_id team;
};
struct server_release_node_reply : public reply_data
{
};
struct server_get_dormant_node_for_request : public request_data
{
media_node node;
};
struct server_get_dormant_node_for_reply : public reply_data
{
dormant_node_info node_info;
};
struct server_get_instances_for_request : public request_data
{
int32 maxcount;
media_addon_id addon_id;
int32 addon_flavor_id;
};
struct server_get_instances_for_reply : public reply_data
{
int32 count;
media_node_id node_id[MAX_NODE_ID]; // no area here, MAX_NODE_ID is really large
};
struct server_rescan_defaults_command : public command_data
{
};
struct addonserver_rescan_mediaaddon_flavors_command : public command_data
{
media_addon_id addonid;
};
struct server_register_mediaaddon_request : public request_data
{
xfer_entry_ref ref; // a ref to the file
};
struct server_register_mediaaddon_reply : public reply_data
{
media_addon_id addonid;
};
struct server_unregister_mediaaddon_command : public command_data
{
media_addon_id addonid;
};
struct server_get_mediaaddon_ref_request : public request_data
{
media_addon_id addonid;
};
struct server_get_mediaaddon_ref_reply : public reply_data
{
xfer_entry_ref ref; // a ref to the file
};
struct server_get_shared_buffer_area_request : public request_data
{
};
struct server_get_shared_buffer_area_reply : public reply_data
{
area_id area;
};
struct server_register_buffer_request : public request_data
{
team_id team;
//either info.buffer is != 0, or the area, size, offset is used
buffer_clone_info info;
};
struct server_register_buffer_reply : public reply_data
{
buffer_clone_info info;
};
struct server_unregister_buffer_command : public command_data
{
team_id team;
media_buffer_id bufferid;
};
struct server_rewindtypes_request : public request_data
{
};
struct server_rewindtypes_reply : public reply_data
{
int32 count;
area_id area;
};
struct server_rewindrefs_request : public request_data
{
char type[B_MEDIA_NAME_LENGTH];
};
struct server_rewindrefs_reply : public reply_data
{
int32 count;
area_id area;
};
struct server_getreffor_request : public request_data
{
char type[B_MEDIA_NAME_LENGTH];
char item[B_MEDIA_NAME_LENGTH];
};
struct server_getreffor_reply : public reply_data
{
xfer_entry_ref ref; // a ref to the file
};
struct server_setreffor_request : public request_data
{
char type[B_MEDIA_NAME_LENGTH];
char item[B_MEDIA_NAME_LENGTH];
xfer_entry_ref ref; // a ref to the file
};
struct server_setreffor_reply : public reply_data
{
};
struct server_removereffor_request : public request_data
{
char type[B_MEDIA_NAME_LENGTH];
char item[B_MEDIA_NAME_LENGTH];
xfer_entry_ref ref; // a ref to the file
};
struct server_removereffor_reply : public reply_data
{
};
struct server_removeitem_request : public request_data
{
char type[B_MEDIA_NAME_LENGTH];
char item[B_MEDIA_NAME_LENGTH];
};
struct server_removeitem_reply : public reply_data
{
};
struct server_get_decoder_for_format_request : public request_data
{
media_format format;
};
struct server_get_decoder_for_format_reply : public reply_data
{
xfer_entry_ref ref; // a ref to the decoder
};
struct server_get_readers_request : public request_data
{
};
struct server_get_readers_reply : public reply_data
{
xfer_entry_ref ref[MAX_READERS]; // a list of refs to the reader
int32 count;
};
struct node_request_completed_command : public command_data
{
media_request_info info;
};
struct node_start_command : public command_data
{
bigtime_t performance_time;
};
struct node_stop_command : public command_data
{
bigtime_t performance_time;
bool immediate;
};
struct node_seek_command : public command_data
{
bigtime_t media_time;
bigtime_t performance_time;
};
struct node_set_run_mode_command : public command_data
{
BMediaNode::run_mode mode;
};
struct node_time_warp_command : public command_data
{
bigtime_t at_real_time;
bigtime_t to_performance_time;
};
struct node_set_timesource_command : public command_data
{
media_node_id timesource_id;
};
struct node_get_timesource_request : public request_data
{
};
struct node_get_timesource_reply : public reply_data
{
media_node_id timesource_id;
};
struct node_final_release_command : public command_data
{
};
struct timesource_add_slave_node_command : public command_data
{
media_node node;
};
struct timesource_remove_slave_node_command : public command_data
{
media_node node;
};
struct timesource_get_start_latency_request : public request_data
{
};
struct timesource_get_start_latency_reply : public reply_data
{
bigtime_t start_latency;
};
struct controllable_get_parameter_web_request : public request_data
{
area_id area;
int32 maxsize;
};
struct controllable_get_parameter_web_reply : public reply_data
{
type_code code;
int32 size; // = -1: parameter web data too large, = 0: no p.w., > 0: flattened p.w. data
};
#define MAX_PARAMETER_DATA (B_MEDIA_MESSAGE_SIZE - 100)
struct controllable_get_parameter_data_request : public request_data
{
int32 parameter_id;
size_t requestsize;
area_id area; //if area != -1, data is too large and must be passed in the area
};
struct controllable_get_parameter_data_reply : public reply_data
{
bigtime_t last_change;
char rawdata[MAX_PARAMETER_DATA];
size_t size;
};
struct controllable_set_parameter_data_request : public request_data
{
int32 parameter_id;
bigtime_t when;
area_id area; //if area != -1, data is too large and is passed in the area
size_t size;
char rawdata[MAX_PARAMETER_DATA];
};
struct controllable_set_parameter_data_reply : public reply_data
{
};
#endif // _DATA_EXCHANGE_H