/*************************************************************************** * __________ __ ___. * Open \______ \ ____ ____ | | _\_ |__ _______ ___ * Source | _// _ \_/ ___\| |/ /| __ \ / _ \ \/ / * Jukebox | | ( <_> ) \___| < | \_\ ( <_> > < < * Firmware |____|_ /\____/ \___ >__|_ \|___ /\____/__/\_ \ * \/ \/ \/ \/ \/ * $Id$ * * Copyright (C) 2002 by Alan Korr & Nick Robinson * * All files in this archive are subject to the GNU General Public License. * See the file COPYING in the source tree root for full license agreement. * * This software is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY * KIND, either express or implied. * ****************************************************************************/ #ifndef _IAP_CORE_H #define _IAP_CORE_H #include #include #include "timefuncs.h" #include "metadata.h" #include "playlist.h" #include "iap.h" #define LOGF_ENABLE /* #undef LOGF_ENABLE */ #ifdef LOGF_ENABLE #include "logf.h" #endif /* The Model ID of the iPod we emulate. Currently a 160GB classic */ #define IAP_IPOD_MODEL (0x00130200U) /* The firmware version we emulate. Currently 2.0.3 */ #define IAP_IPOD_FIRMWARE_MAJOR (2) #define IAP_IPOD_FIRMWARE_MINOR (0) #define IAP_IPOD_FIRMWARE_REV (3) /* Status code for IAP ack messages */ #define IAP_ACK_OK (0x00) /* Success */ #define IAP_ACK_UNKNOWN_DB (0x01) /* Unknown Database Category */ #define IAP_ACK_CMD_FAILED (0x02) /* Command failed */ #define IAP_ACK_NO_RESOURCE (0x03) /* Out of resources */ #define IAP_ACK_BAD_PARAM (0x04) /* Bad parameter */ #define IAP_ACK_UNKNOWN_ID (0x05) /* Unknown ID */ #define IAP_ACK_PENDING (0x06) /* Command pending */ #define IAP_ACK_NO_AUTHEN (0x07) /* Not authenticated */ #define IAP_ACK_BAD_AUTHEN (0x08) /* Bad authentication version */ /* 0x09 reserved */ #define IAP_ACK_CERT_INVAL (0x0A) /* Certificate invalid */ #define IAP_ACK_CERT_PERM (0x0B) /* Certificate permissions invalid */ /* 0x0C-0x10 reserved */ #define IAP_ACK_RES_INVAL (0x11) /* Invalid accessory resistor value */ /* Add a button to the remote button bitfield. Also set iap_repeatbtn=1 * to ensure a button press is at least delivered once. */ #define REMOTE_BUTTON(x) do { \ iap_remotebtn |= (x); \ iap_timeoutbtn = 3; \ iap_repeatbtn = 2; \ } while(0) /* States of the extended command support */ enum interface_state { IST_STANDARD, /* General state, support lingo 0x00 commands */ IST_EXTENDED, /* Extended Interface lingo (0x04) negotiated */ }; /* States of the authentication state machine */ enum authen_state { AUST_NONE, /* Initial state, no message sent */ AUST_INIT, /* Remote side has requested authentication */ AUST_CERTREQ, /* Remote certificate requested */ AUST_CERTBEG, /* Certificate is being received */ AUST_CERTDONE, /* Certificate received */ AUST_CHASENT, /* Challenge sent */ AUST_CHADONE, /* Challenge response received */ AUST_AUTH, /* Authentication complete */ }; /* State of authentication */ struct auth_t { enum authen_state state; /* Current state of authentication */ unsigned char max_section; /* The maximum number of certificate sections */ unsigned char next_section; /* The next expected section number */ }; /* State of GetAccessoryInfo */ enum accinfo_state { ACCST_NONE, /* Initial state, no message sent */ ACCST_INIT, /* Send out initial GetAccessoryInfo */ ACCST_SENT, /* Wait for initial RetAccessoryInfo */ ACCST_DATA, /* Query device information, according to capabilities */ }; /* A struct describing an attached device and it's current * state */ struct device_t { struct auth_t auth; /* Authentication state */ enum accinfo_state accinfo; /* Accessory information state */ uint32_t lingoes; /* Negotiated lingoes */ uint32_t notifications; /* Requested notifications. These are just the * notifications explicitly requested by the * device */ uint32_t changed_notifications; /* Tracks notifications that changed since the last * call to SetRemoteEventNotification or GetRemoteEventStatus */ bool do_notify; /* Notifications enabled */ bool do_power_notify; /* Whether to send power change notifications. * These are sent automatically to all devices * that used IdentifyDeviceLingoes to identify * themselves, independent of other notifications */ uint32_t trackpos_ms; /* These fields are to save the current state */ uint32_t track_index; /* of various fields so we can send a notification */ uint32_t chapter_index; /* if they change */ unsigned char play_status; bool mute; unsigned char volume; unsigned char power_state; unsigned char battery_level; uint32_t equalizer_index; unsigned char shuffle; unsigned char repeat; struct tm datetime; unsigned char alarm_state; unsigned char alarm_hour; unsigned char alarm_minute; unsigned char backlight; bool hold; unsigned char soundcheck; unsigned char audiobook; uint16_t trackpos_s; uint32_t capabilities; /* Capabilities of the device, as returned by type 0 * of GetAccessoryInfo */ uint32_t capabilities_queried; /* Capabilities already queried */ }; extern struct device_t device; #define DEVICE_AUTHENTICATED (device.auth.state == AUST_AUTH) #define DEVICE_AUTH_RUNNING ((device.auth.state != AUST_NONE) && (device.auth.state != AUST_AUTH)) #define DEVICE_LINGO_SUPPORTED(x) (device.lingoes & BIT_N((x)&0x1f)) extern unsigned long iap_remotebtn; extern unsigned int iap_timeoutbtn; extern int iap_repeatbtn; extern unsigned char* iap_txpayload; extern unsigned char* iap_txnext; /* These are a number of helper macros to manage the dynamic TX buffer content * These macros DO NOT CHECK for buffer overflow. iap_send_tx() will, but * it might be too late at that point. See the current size of TX_BUFLEN */ /* Initialize the TX buffer with a lingo and command ID. This will reset the * data pointer, effectively invalidating unsent information in the TX buffer. * There are two versions of this, one for 1 byte command IDs (all Lingoes except * 0x04) and one for two byte command IDs (Lingo 0x04) */ #define IAP_TX_INIT(lingo, command) do { \ iap_txnext = iap_txpayload; \ IAP_TX_PUT((lingo)); \ IAP_TX_PUT((command)); \ } while (0) #define IAP_TX_INIT4(lingo, command) do { \ iap_txnext = iap_txpayload; \ IAP_TX_PUT((lingo)); \ IAP_TX_PUT_U16((command)); \ } while (0) /* Put an unsigned char into the TX buffer */ #define IAP_TX_PUT(data) *(iap_txnext++) = (data) /* Put a 16bit unsigned quantity into the TX buffer */ #define IAP_TX_PUT_U16(data) do { \ put_u16(iap_txnext, (data)); \ iap_txnext += 2; \ } while (0) /* Put a 32bit unsigned quantity into the TX buffer */ #define IAP_TX_PUT_U32(data) do { \ put_u32(iap_txnext, (data)); \ iap_txnext += 4; \ } while (0) /* Put an arbitrary amount of data (identified by a char pointer and * a length) into the TX buffer */ #define IAP_TX_PUT_DATA(data, len) do { \ memcpy(iap_txnext, (unsigned char *)(data), (len)); \ iap_txnext += (len); \ } while(0) /* Put a NULL terminated string into the TX buffer, including the * NULL byte */ #define IAP_TX_PUT_STRING(str) IAP_TX_PUT_DATA((str), strlen((str))+1) /* Put a NULL terminated string into the TX buffer, taking care not to * overflow the buffer. If the string does not fit into the TX buffer * it will be truncated, but always NULL terminated. * * This function is expensive compared to the other IAP_TX_PUT_* * functions */ #define IAP_TX_PUT_STRLCPY(str) iap_tx_strlcpy(str) extern unsigned char lingo_versions[32][2]; #define LINGO_SUPPORTED(x) (LINGO_MAJOR((x)&0x1f) > 0) #define LINGO_MAJOR(x) (lingo_versions[(x)&0x1f][0]) #define LINGO_MINOR(x) (lingo_versions[(x)&0x1f][1]) void put_u16(unsigned char *buf, const uint16_t data); void put_u32(unsigned char *buf, const uint32_t data); uint32_t get_u32(const unsigned char *buf); uint16_t get_u16(const unsigned char *buf); void iap_tx_strlcpy(const unsigned char *str); void iap_reset_auth(struct auth_t* auth); void iap_reset_device(struct device_t* device); void iap_shuffle_state(bool state); void iap_repeat_state(unsigned char state); void iap_repeat_next(void); void iap_fill_power_state(void); void iap_send_tx(void); extern enum interface_state interface_state; void iap_interface_state_change(const enum interface_state new); extern bool iap_btnrepeat; extern bool iap_btnshuffle; uint32_t iap_get_trackpos(void); uint32_t iap_get_trackindex(void); void iap_get_trackinfo(const unsigned int track, struct mp3entry* id3); #endif