/* ptp.c * * Copyright (C) 2001-2004 Mariusz Woloszyn * Copyright (C) 2003-2017 Marcus Meissner * Copyright (C) 2006-2008 Linus Walleij * Copyright (C) 2007 Tero Saarni * Copyright (C) 2009 Axel Waggershauser * * This library 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 2 of the License, or (at your option) any later version. * * This library 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 this library; if not, write to the * Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, * Boston, MA 02110-1301 USA */ #define _DEFAULT_SOURCE #include "config.h" #include "ptp.h" #ifdef HAVE_LIBXML2 # include #endif #include #include #include #include #ifdef HAVE_UNISTD_H # include #endif #ifdef ENABLE_NLS # include # undef _ # define _(String) dgettext (PACKAGE, String) # ifdef gettext_noop # define N_(String) gettext_noop (String) # else # define N_(String) (String) # endif #else # define textdomain(String) (String) # define gettext(String) (String) # define dgettext(Domain,Message) (Message) # define dcgettext(Domain,Message,Type) (Message) # define bindtextdomain(Domain,Directory) (Domain) # define _(String) (String) # define N_(String) (String) #endif #define CHECK_PTP_RC(RESULT) do { uint16_t r = (RESULT); if (r != PTP_RC_OK) return r; } while(0) static inline void ptp_init_container(PTPContainer* ptp, uint16_t code, int n_param, ...) { va_list args; int i; memset(ptp, 0, sizeof(*ptp)); ptp->Code = code; ptp->Nparam = n_param; va_start(args, n_param); for (i=0; iParam1)[i] = va_arg(args, uint32_t); va_end(args); } #define NARGS_SEQ(_1,_2,_3,_4,_5,_6,_7,_8,N,...) N #define NARGS(...) NARGS_SEQ(-1, ##__VA_ARGS__, 7, 6, 5, 4, 3, 2, 1, 0) #define PTP_CNT_INIT(PTP, CODE, ...) \ ptp_init_container(&PTP, CODE, NARGS(__VA_ARGS__), ##__VA_ARGS__) static uint16_t ptp_exit_recv_memory_handler (PTPDataHandler*,unsigned char**,unsigned long*); static uint16_t ptp_init_recv_memory_handler(PTPDataHandler*); static uint16_t ptp_init_send_memory_handler(PTPDataHandler*,unsigned char*,unsigned long len); static uint16_t ptp_exit_send_memory_handler (PTPDataHandler *handler); void ptp_debug (PTPParams *params, const char *format, ...) { va_list args; va_start (args, format); if (params->debug_func!=NULL) params->debug_func (params->data, format, args); else { vfprintf (stderr, format, args); fprintf (stderr,"\n"); fflush (stderr); } va_end (args); } void ptp_error (PTPParams *params, const char *format, ...) { va_list args; va_start (args, format); if (params->error_func!=NULL) params->error_func (params->data, format, args); else { vfprintf (stderr, format, args); fprintf (stderr,"\n"); fflush (stderr); } va_end (args); } /* Pack / unpack functions */ #include "ptp-pack.c" /* major PTP functions */ /** * ptp_transaction: * params: PTPParams* * PTPContainer* ptp - general ptp container * uint16_t flags - lower 8 bits - data phase description * unsigned int sendlen - senddata phase data length * char** data - send or receive data buffer pointer * int* recvlen - receive data length * * Performs PTP transaction. ptp is a PTPContainer with appropriate fields * filled in (i.e. operation code and parameters). It's up to caller to do * so. * The flags decide thether the transaction has a data phase and what is its * direction (send or receive). * If transaction is sending data the sendlen should contain its length in * bytes, otherwise it's ignored. * The data should contain an address of a pointer to data going to be sent * or is filled with such a pointer address if data are received depending * od dataphase direction (send or received) or is beeing ignored (no * dataphase). * The memory for a pointer should be preserved by the caller, if data are * beeing retreived the appropriate amount of memory is beeing allocated * (the caller should handle that!). * * Return values: Some PTP_RC_* code. * Upon success PTPContainer* ptp contains PTP Response Phase container with * all fields filled in. **/ uint16_t ptp_transaction_new (PTPParams* params, PTPContainer* ptp, uint16_t flags, uint64_t sendlen, PTPDataHandler *handler ) { int tries; uint16_t cmd; if ((params==NULL) || (ptp==NULL)) return PTP_ERROR_BADPARAM; cmd = ptp->Code; ptp->Transaction_ID=params->transaction_id++; ptp->SessionID=params->session_id; /* send request */ CHECK_PTP_RC(params->sendreq_func (params, ptp, flags)); /* is there a dataphase? */ switch (flags&PTP_DP_DATA_MASK) { case PTP_DP_SENDDATA: { uint16_t ret = params->senddata_func(params, ptp, sendlen, handler); if (ret == PTP_ERROR_CANCEL) CHECK_PTP_RC(params->cancelreq_func(params, params->transaction_id-1)); CHECK_PTP_RC(ret); } break; case PTP_DP_GETDATA: { uint16_t ret = params->getdata_func(params, ptp, handler); if (ret == PTP_ERROR_CANCEL) CHECK_PTP_RC(params->cancelreq_func(params, params->transaction_id-1)); CHECK_PTP_RC(ret); } break; case PTP_DP_NODATA: break; default: return PTP_ERROR_BADPARAM; } tries = 3; while (tries--) { uint16_t ret; /* get response */ ret = params->getresp_func(params, ptp); if (ret == PTP_ERROR_RESP_EXPECTED) { ptp_debug (params,"PTP: response expected but not got, retrying."); tries++; continue; } CHECK_PTP_RC(ret); if (ptp->Transaction_ID < params->transaction_id-1) { /* The Leica uses Transaction ID 0 on result from CloseSession. */ if (cmd == PTP_OC_CloseSession) break; tries++; ptp_debug (params, "PTP: Sequence number mismatch %d vs expected %d, suspecting old reply.", ptp->Transaction_ID, params->transaction_id-1 ); continue; } if (ptp->Transaction_ID != params->transaction_id-1) { /* try to clean up potential left overs from previous session */ if ((cmd == PTP_OC_OpenSession) && tries) continue; ptp_error (params, "PTP: Sequence number mismatch %d vs expected %d.", ptp->Transaction_ID, params->transaction_id-1 ); #ifndef FUZZING_BUILD_MODE_UNSAFE_FOR_PRODUCTION return PTP_ERROR_BADPARAM; #endif } break; } return ptp->Code; } /* memory data get/put handler */ typedef struct { unsigned char *data; unsigned long size, curoff; } PTPMemHandlerPrivate; static uint16_t memory_getfunc(PTPParams* params, void* private, unsigned long wantlen, unsigned char *data, unsigned long *gotlen ) { PTPMemHandlerPrivate* priv = (PTPMemHandlerPrivate*)private; unsigned long tocopy = wantlen; if (priv->curoff + tocopy > priv->size) tocopy = priv->size - priv->curoff; memcpy (data, priv->data + priv->curoff, tocopy); priv->curoff += tocopy; *gotlen = tocopy; return PTP_RC_OK; } static uint16_t memory_putfunc(PTPParams* params, void* private, unsigned long sendlen, unsigned char *data ) { PTPMemHandlerPrivate* priv = (PTPMemHandlerPrivate*)private; if (priv->curoff + sendlen > priv->size) { priv->data = realloc (priv->data, priv->curoff+sendlen); if (!priv->data) return PTP_RC_GeneralError; priv->size = priv->curoff + sendlen; } memcpy (priv->data + priv->curoff, data, sendlen); priv->curoff += sendlen; return PTP_RC_OK; } /* init private struct for receiving data. */ static uint16_t ptp_init_recv_memory_handler(PTPDataHandler *handler) { PTPMemHandlerPrivate* priv; priv = malloc (sizeof(PTPMemHandlerPrivate)); if (!priv) return PTP_RC_GeneralError; handler->priv = priv; handler->getfunc = memory_getfunc; handler->putfunc = memory_putfunc; priv->data = NULL; priv->size = 0; priv->curoff = 0; return PTP_RC_OK; } /* init private struct and put data in for sending data. * data is still owned by caller. */ static uint16_t ptp_init_send_memory_handler(PTPDataHandler *handler, unsigned char *data, unsigned long len ) { PTPMemHandlerPrivate* priv; priv = malloc (sizeof(PTPMemHandlerPrivate)); if (!priv) return PTP_RC_GeneralError; handler->priv = priv; handler->getfunc = memory_getfunc; handler->putfunc = memory_putfunc; priv->data = data; priv->size = len; priv->curoff = 0; return PTP_RC_OK; } /* free private struct + data */ static uint16_t ptp_exit_send_memory_handler (PTPDataHandler *handler) { PTPMemHandlerPrivate* priv = (PTPMemHandlerPrivate*)handler->priv; /* data is owned by caller */ free (priv); return PTP_RC_OK; } /* hand over our internal data to caller */ static uint16_t ptp_exit_recv_memory_handler (PTPDataHandler *handler, unsigned char **data, unsigned long *size ) { PTPMemHandlerPrivate* priv = (PTPMemHandlerPrivate*)handler->priv; *data = priv->data; *size = priv->size; free (priv); return PTP_RC_OK; } /* fd data get/put handler */ typedef struct { int fd; } PTPFDHandlerPrivate; static uint16_t fd_getfunc(PTPParams* params, void* private, unsigned long wantlen, unsigned char *data, unsigned long *gotlen ) { PTPFDHandlerPrivate* priv = (PTPFDHandlerPrivate*)private; int got; got = read (priv->fd, data, wantlen); if (got != -1) *gotlen = got; else return PTP_RC_GeneralError; return PTP_RC_OK; } static uint16_t fd_putfunc(PTPParams* params, void* private, unsigned long sendlen, unsigned char *data ) { ssize_t written; PTPFDHandlerPrivate* priv = (PTPFDHandlerPrivate*)private; written = write (priv->fd, data, sendlen); if (written != sendlen) return PTP_ERROR_IO; return PTP_RC_OK; } static uint16_t ptp_init_fd_handler(PTPDataHandler *handler, int fd) { PTPFDHandlerPrivate* priv; priv = malloc (sizeof(PTPFDHandlerPrivate)); if (!priv) return PTP_RC_GeneralError; handler->priv = priv; handler->getfunc = fd_getfunc; handler->putfunc = fd_putfunc; priv->fd = fd; return PTP_RC_OK; } static uint16_t ptp_exit_fd_handler (PTPDataHandler *handler) { PTPFDHandlerPrivate* priv = (PTPFDHandlerPrivate*)handler->priv; free (priv); return PTP_RC_OK; } /* Old style transaction, based on memory */ /* A note on memory management: * If called with the flag PTP_DP_GETDATA, this function will internally * allocate memory as much as necessary. The caller has to free the memory * returned in *data. If the function returns an error, it will free any * memory it might have allocated. The recvlen may be NULL. After the * function returns, *data will be initialized (valid memory pointer or NULL), * i.e. it is not necessary to initialize *data or *recvlen beforehand. */ uint16_t ptp_transaction (PTPParams* params, PTPContainer* ptp, uint16_t flags, uint64_t sendlen, unsigned char **data, unsigned int *recvlen ) { PTPDataHandler handler; uint16_t ret; switch (flags & PTP_DP_DATA_MASK) { case PTP_DP_SENDDATA: if (!data) return PTP_ERROR_BADPARAM; CHECK_PTP_RC(ptp_init_send_memory_handler (&handler, *data, sendlen)); break; case PTP_DP_GETDATA: if (!data) return PTP_ERROR_BADPARAM; *data = NULL; if (recvlen) *recvlen = 0; CHECK_PTP_RC(ptp_init_recv_memory_handler (&handler)); break; default:break; } ret = ptp_transaction_new (params, ptp, flags, sendlen, &handler); switch (flags & PTP_DP_DATA_MASK) { case PTP_DP_SENDDATA: ptp_exit_send_memory_handler (&handler); break; case PTP_DP_GETDATA: { unsigned long len; ptp_exit_recv_memory_handler (&handler, data, &len); if (ret != PTP_RC_OK) { len = 0; free(*data); *data = NULL; } if (recvlen) *recvlen = len; break; } default:break; } return ret; } /** * PTP operation functions * * all ptp_ functions should take integer parameters * in host byte order! **/ /** * ptp_getdeviceinfo: * params: PTPParams* * * Gets device info dataset and fills deviceinfo structure. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getdeviceinfo (PTPParams* params, PTPDeviceInfo* deviceinfo) { PTPContainer ptp; unsigned char *data; unsigned int size; int ret; PTP_CNT_INIT(ptp, PTP_OC_GetDeviceInfo); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ret = ptp_unpack_DI(params, data, deviceinfo, size); free(data); if (ret) return PTP_RC_OK; else return PTP_ERROR_IO; } uint16_t ptp_canon_eos_getdeviceinfo (PTPParams* params, PTPCanonEOSDeviceInfo*di) { PTPContainer ptp; unsigned char *data; unsigned int size; int ret; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetDeviceInfoEx); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ret = ptp_unpack_EOS_DI(params, data, di, size); free (data); if (ret) return PTP_RC_OK; else return PTP_ERROR_IO; } #ifdef HAVE_LIBXML2 static int traverse_tree (PTPParams *params, int depth, xmlNodePtr node) { xmlNodePtr next; xmlChar *xchar; int n; char *xx; if (!node) return 0; xx = malloc (depth * 4 + 1); memset (xx, ' ', depth*4); xx[depth*4] = 0; n = xmlChildElementCount (node); next = node; do { fprintf(stderr,"%snode %s\n", xx,next->name); fprintf(stderr,"%selements %d\n", xx,n); xchar = xmlNodeGetContent (next); fprintf(stderr,"%scontent %s\n", xx,xchar); traverse_tree (params, depth+1,xmlFirstElementChild (next)); } while ((next = xmlNextElementSibling (next))); free (xx); return PTP_RC_OK; } static int parse_9301_cmd_tree (PTPParams *params, xmlNodePtr node, PTPDeviceInfo *di) { xmlNodePtr next; int cnt; cnt = 0; next = xmlFirstElementChild (node); while (next) { cnt++; next = xmlNextElementSibling (next); } di->OperationsSupported_len = cnt; di->OperationsSupported = malloc (cnt*sizeof(di->OperationsSupported[0])); cnt = 0; next = xmlFirstElementChild (node); while (next) { unsigned int p; sscanf((char*)next->name, "c%04x", &p); ptp_debug( params, "cmd %s / 0x%04x", next->name, p); di->OperationsSupported[cnt++] = p; next = xmlNextElementSibling (next); } return PTP_RC_OK; } static int parse_9301_value (PTPParams *params, const char *str, uint16_t type, PTPPropertyValue *propval) { switch (type) { case 6: { /*UINT32*/ unsigned int x; if (!sscanf(str,"%08x", &x)) { ptp_debug( params, "could not parse uint32 %s", str); return PTP_RC_GeneralError; } ptp_debug( params, "\t%d", x); propval->u32 = x; break; } case 5: { /*INT32*/ int x; if (!sscanf(str,"%08x", &x)) { ptp_debug( params, "could not parse int32 %s", str); return PTP_RC_GeneralError; } ptp_debug( params, "\t%d", x); propval->i32 = x; break; } case 4: { /*UINT16*/ unsigned int x; if (!sscanf(str,"%04x", &x)) { ptp_debug( params, "could not parse uint16 %s", str); return PTP_RC_GeneralError; } ptp_debug( params, "\t%d", x); propval->u16 = x; break; } case 3: { /*INT16*/ int x; if (!sscanf(str,"%04x", &x)) { ptp_debug( params, "could not parse int16 %s", str); return PTP_RC_GeneralError; } ptp_debug( params, "\t%d", x); propval->i16 = x; break; } case 2: { /*UINT8*/ unsigned int x; if (!sscanf(str,"%02x", &x)) { ptp_debug( params, "could not parse uint8 %s", str); return PTP_RC_GeneralError; } ptp_debug( params, "\t%d", x); propval->u8 = x; break; } case 1: { /*INT8*/ int x; if (!sscanf(str,"%02x", &x)) { ptp_debug( params, "could not parse int8 %s", str); return PTP_RC_GeneralError; } ptp_debug( params, "\t%d", x); propval->i8 = x; break; } case 65535: { /* string */ int len; /* ascii ptp string, 1 byte length, little endian 16 bit chars */ if (sscanf(str,"%02x", &len)) { int i; char *xstr = malloc(len+1); for (i=0;i>8) & 0xff) | ((xc & 0xff) << 8); xstr[i] = cx; } xstr[len] = 0; } ptp_debug( params, "\t%s", xstr); propval->str = xstr; break; } ptp_debug( params, "string %s not parseable!", str); return PTP_RC_GeneralError; } case 7: /*INT64*/ case 8: /*UINT64*/ case 9: /*INT128*/ case 10: /*UINT128*/ default: ptp_debug( params, "unhandled data type %d!", type); return PTP_RC_GeneralError; } return PTP_RC_OK; } static int parse_9301_propdesc (PTPParams *params, xmlNodePtr next, PTPDevicePropDesc *dpd) { int type = -1; if (!next) return PTP_RC_GeneralError; ptp_debug (params, "parse_9301_propdesc"); dpd->FormFlag = PTP_DPFF_None; dpd->GetSet = PTP_DPGS_Get; do { if (!strcmp((char*)next->name,"type")) { /* propdesc.DataType */ if (!sscanf((char*)xmlNodeGetContent (next), "%04x", &type)) { ptp_debug( params, "\ttype %s not parseable?",xmlNodeGetContent (next)); return 0; } ptp_debug( params, "type 0x%x", type); dpd->DataType = type; continue; } if (!strcmp((char*)next->name,"attribute")) { /* propdesc.GetSet */ int attr; if (!sscanf((char*)xmlNodeGetContent (next), "%02x", &attr)) { ptp_debug( params, "\tattr %s not parseable",xmlNodeGetContent (next)); return 0; } ptp_debug( params, "attribute 0x%x", attr); dpd->GetSet = attr; continue; } if (!strcmp((char*)next->name,"default")) { /* propdesc.FactoryDefaultValue */ ptp_debug( params, "default value"); parse_9301_value (params, (char*)xmlNodeGetContent (next), type, &dpd->FactoryDefaultValue); continue; } if (!strcmp((char*)next->name,"value")) { /* propdesc.CurrentValue */ ptp_debug( params, "current value"); parse_9301_value (params, (char*)xmlNodeGetContent (next), type, &dpd->CurrentValue); continue; } if (!strcmp((char*)next->name,"enum")) { /* propdesc.FORM.Enum */ int n,i; char *s; ptp_debug( params, "enum"); dpd->FormFlag = PTP_DPFF_Enumeration; s = (char*)xmlNodeGetContent (next); n = 0; do { s = strchr(s,' '); if (s) s++; n++; } while (s); dpd->FORM.Enum.NumberOfValues = n; dpd->FORM.Enum.SupportedValue = malloc (n * sizeof(PTPPropertyValue)); s = (char*)xmlNodeGetContent (next); i = 0; do { parse_9301_value (params, s, type, &dpd->FORM.Enum.SupportedValue[i]); /* should turn ' ' into \0? */ i++; s = strchr(s,' '); if (s) s++; } while (s && (iname,"range")) { /* propdesc.FORM.Enum */ char *s = (char*)xmlNodeGetContent (next); dpd->FormFlag = PTP_DPFF_Range; ptp_debug( params, "range"); parse_9301_value (params, s, type, &dpd->FORM.Range.MinimumValue); /* should turn ' ' into \0? */ s = strchr(s,' '); if (!s) continue; s++; parse_9301_value (params, s, type, &dpd->FORM.Range.MaximumValue); /* should turn ' ' into \0? */ s = strchr(s,' '); if (!s) continue; s++; parse_9301_value (params, s, type, &dpd->FORM.Range.StepSize); /* should turn ' ' into \0? */ continue; } ptp_debug (params, "\tpropdescvar: %s", next->name); traverse_tree (params, 3, next); } while ((next = xmlNextElementSibling (next))); return PTP_RC_OK; } static int parse_9301_prop_tree (PTPParams *params, xmlNodePtr node, PTPDeviceInfo *di) { xmlNodePtr next; int cnt; unsigned int i; cnt = 0; next = xmlFirstElementChild (node); while (next) { cnt++; next = xmlNextElementSibling (next); } di->DevicePropertiesSupported_len = cnt; di->DevicePropertiesSupported = malloc (cnt*sizeof(di->DevicePropertiesSupported[0])); cnt = 0; next = xmlFirstElementChild (node); while (next) { unsigned int p; PTPDevicePropDesc dpd; sscanf((char*)next->name, "p%04x", &p); ptp_debug( params, "prop %s / 0x%04x", next->name, p); parse_9301_propdesc (params, xmlFirstElementChild (next), &dpd); dpd.DevicePropertyCode = p; di->DevicePropertiesSupported[cnt++] = p; /* add to cache of device propdesc */ for (i=0;inrofdeviceproperties;i++) if (params->deviceproperties[i].desc.DevicePropertyCode == p) break; if (i == params->nrofdeviceproperties) { params->deviceproperties = realloc(params->deviceproperties,(i+1)*sizeof(params->deviceproperties[0])); memset(¶ms->deviceproperties[i],0,sizeof(params->deviceproperties[0])); params->nrofdeviceproperties++; } else { ptp_free_devicepropdesc (¶ms->deviceproperties[i].desc); } /* FIXME: free old entry */ /* we are not using dpd, so copy it directly to the cache */ time( ¶ms->deviceproperties[i].timestamp); params->deviceproperties[i].desc = dpd; next = xmlNextElementSibling (next); } return PTP_RC_OK; } static int parse_9301_event_tree (PTPParams *params, xmlNodePtr node, PTPDeviceInfo *di) { xmlNodePtr next; int cnt; cnt = 0; next = xmlFirstElementChild (node); while (next) { cnt++; next = xmlNextElementSibling (next); } di->EventsSupported_len = cnt; di->EventsSupported = malloc (cnt*sizeof(di->EventsSupported[0])); cnt = 0; next = xmlFirstElementChild (node); while (next) { unsigned int p; sscanf((char*)next->name, "e%04x", &p); ptp_debug( params, "event %s / 0x%04x", next->name, p); di->EventsSupported[cnt++] = p; next = xmlNextElementSibling (next); } return PTP_RC_OK; } static int parse_9301_tree (PTPParams *params, xmlNodePtr node, PTPDeviceInfo *di) { xmlNodePtr next; next = xmlFirstElementChild (node); while (next) { if (!strcmp ((char*)next->name, "cmd")) { parse_9301_cmd_tree (params, next, di); next = xmlNextElementSibling (next); continue; } if (!strcmp ((char*)next->name, "prop")) { parse_9301_prop_tree (params, next, di); next = xmlNextElementSibling (next); continue; } if (!strcmp ((char*)next->name, "event")) { parse_9301_event_tree (params, next, di); next = xmlNextElementSibling (next); continue; } fprintf (stderr,"9301: unhandled type %s\n", next->name); next = xmlNextElementSibling (next); } /*traverse_tree (0, node);*/ return PTP_RC_OK; } static uint16_t ptp_olympus_parse_output_xml(PTPParams* params, char*data, int len, xmlNodePtr *code) { xmlDocPtr docin; xmlNodePtr docroot, output, next; int result, xcode; *code = NULL; docin = xmlReadMemory ((char*)data, len, "http://gphoto.org/", "utf-8", 0); if (!docin) return PTP_RC_GeneralError; docroot = xmlDocGetRootElement (docin); if (!docroot) { xmlFreeDoc (docin); return PTP_RC_GeneralError; } if (strcmp((char*)docroot->name,"x3c")) { ptp_debug (params, "olympus: docroot is not x3c, but %s", docroot->name); xmlFreeDoc (docin); return PTP_RC_GeneralError; } if (xmlChildElementCount(docroot) != 1) { ptp_debug (params, "olympus: x3c: expected 1 child, got %ld", xmlChildElementCount(docroot)); xmlFreeDoc (docin); return PTP_RC_GeneralError; } output = xmlFirstElementChild (docroot); if (strcmp((char*)output->name, "output") != 0) { ptp_debug (params, "olympus: x3c node: expected child 'output', but got %s", (char*)output->name); xmlFreeDoc (docin); return PTP_RC_GeneralError; } next = xmlFirstElementChild (output); result = PTP_RC_GeneralError; while (next) { if (!strcmp((char*)next->name,"result")) { xmlChar *xchar; xchar = xmlNodeGetContent (next); if (!sscanf((char*)xchar,"%04x",&result)) ptp_debug (params, "failed scanning result from %s", xchar); ptp_debug (params, "ptp result is 0x%04x", result); next = xmlNextElementSibling (next); continue; } if (sscanf((char*)next->name,"c%x", &xcode)) { ptp_debug (params, "ptp code node found %s", (char*)next->name); *code = next; next = xmlNextElementSibling (next); continue; } ptp_debug (params, "unhandled node %s", (char*)next->name); next = xmlNextElementSibling (next); } if (result != PTP_RC_OK) { *code = NULL; xmlFreeDoc (docin); } return result; } #endif uint16_t ptp_olympus_getdeviceinfo (PTPParams* params, PTPDeviceInfo *di) { #ifdef HAVE_LIBXML2 PTPContainer ptp; uint16_t ret; unsigned char *data; unsigned int size; xmlNodePtr code; memset (di, 0, sizeof(PTPDeviceInfo)); PTP_CNT_INIT(ptp, PTP_OC_OLYMPUS_GetDeviceInfo); ret=ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size); /* TODO: check for error, only parse_output_xml if ret == PTP_RC_OK? * where is 'data' going to be deallocated? */ ret = ptp_olympus_parse_output_xml(params,(char*)data,size,&code); if (ret != PTP_RC_OK) return ret; ret = parse_9301_tree (params, code, di); xmlFreeDoc(code->doc); return ret; #else return PTP_RC_GeneralError; #endif } uint16_t ptp_olympus_opensession (PTPParams* params, unsigned char**data, unsigned int *len) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_OLYMPUS_OpenSession); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, len); } uint16_t ptp_olympus_getcameraid (PTPParams* params, unsigned char**data, unsigned int *len) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_OLYMPUS_GetCameraID); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, len); } /** * ptp_generic_no_data: * params: PTPParams* * code PTP OP Code * n_param count of parameters * ... variable argument list ... * * Emits a generic PTP command without any data transfer. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_generic_no_data (PTPParams* params, uint16_t code, unsigned int n_param, ...) { PTPContainer ptp; va_list args; unsigned int i; if( n_param > 5 ) return PTP_ERROR_BADPARAM; memset(&ptp, 0, sizeof(ptp)); ptp.Code=code; ptp.Nparam=n_param; va_start(args, n_param); for( i=0; isession_id=0x00000000; /* TransactionID should be set to 0 also! */ params->transaction_id=0x0000000; /* zero out response packet buffer */ params->response_packet = NULL; params->response_packet_size = 0; /* no split headers */ params->split_header_data = 0; PTP_CNT_INIT(ptp, PTP_OC_OpenSession, session); ret=ptp_transaction_new(params, &ptp, PTP_DP_NODATA, 0, NULL); /* TODO: check for error */ /* now set the global session id to current session number */ params->session_id=session; return ret; } void ptp_free_devicepropvalue(uint16_t dt, PTPPropertyValue* dpd) { switch (dt) { case PTP_DTC_INT8: case PTP_DTC_UINT8: case PTP_DTC_UINT16: case PTP_DTC_INT16: case PTP_DTC_UINT32: case PTP_DTC_INT32: case PTP_DTC_UINT64: case PTP_DTC_INT64: case PTP_DTC_UINT128: case PTP_DTC_INT128: /* Nothing to free */ break; case PTP_DTC_AINT8: case PTP_DTC_AUINT8: case PTP_DTC_AUINT16: case PTP_DTC_AINT16: case PTP_DTC_AUINT32: case PTP_DTC_AINT32: case PTP_DTC_AUINT64: case PTP_DTC_AINT64: case PTP_DTC_AUINT128: case PTP_DTC_AINT128: free(dpd->a.v); break; case PTP_DTC_STR: free(dpd->str); break; } } void ptp_free_devicepropdesc(PTPDevicePropDesc* dpd) { uint16_t i; ptp_free_devicepropvalue (dpd->DataType, &dpd->FactoryDefaultValue); ptp_free_devicepropvalue (dpd->DataType, &dpd->CurrentValue); switch (dpd->FormFlag) { case PTP_DPFF_Range: ptp_free_devicepropvalue (dpd->DataType, &dpd->FORM.Range.MinimumValue); ptp_free_devicepropvalue (dpd->DataType, &dpd->FORM.Range.MaximumValue); ptp_free_devicepropvalue (dpd->DataType, &dpd->FORM.Range.StepSize); break; case PTP_DPFF_Enumeration: if (dpd->FORM.Enum.SupportedValue) { for (i=0;iFORM.Enum.NumberOfValues;i++) ptp_free_devicepropvalue (dpd->DataType, dpd->FORM.Enum.SupportedValue+i); free (dpd->FORM.Enum.SupportedValue); } } dpd->DataType = PTP_DTC_UNDEF; dpd->FormFlag = PTP_DPFF_None; } void ptp_free_objectpropdesc(PTPObjectPropDesc* opd) { uint16_t i; ptp_free_devicepropvalue (opd->DataType, &opd->FactoryDefaultValue); switch (opd->FormFlag) { case PTP_OPFF_None: break; case PTP_OPFF_Range: ptp_free_devicepropvalue (opd->DataType, &opd->FORM.Range.MinimumValue); ptp_free_devicepropvalue (opd->DataType, &opd->FORM.Range.MaximumValue); ptp_free_devicepropvalue (opd->DataType, &opd->FORM.Range.StepSize); break; case PTP_OPFF_Enumeration: if (opd->FORM.Enum.SupportedValue) { for (i=0;iFORM.Enum.NumberOfValues;i++) ptp_free_devicepropvalue (opd->DataType, opd->FORM.Enum.SupportedValue+i); free (opd->FORM.Enum.SupportedValue); } break; case PTP_OPFF_DateTime: case PTP_OPFF_FixedLengthArray: case PTP_OPFF_RegularExpression: case PTP_OPFF_ByteArray: case PTP_OPFF_LongString: /* Ignore these presently, we cannot unpack them, so there is nothing to be freed. */ break; default: fprintf (stderr, "Unknown OPFF type %d\n", opd->FormFlag); break; } } /** * ptp_free_params: * params: PTPParams* * * Frees all data within the PTPParams struct. * * Return values: Some PTP_RC_* code. **/ void ptp_free_params (PTPParams *params) { unsigned int i; free (params->cameraname); free (params->wifi_profiles); for (i=0;inrofobjects;i++) ptp_free_object (¶ms->objects[i]); free (params->objects); free (params->storageids.Storage); free (params->events); for (i=0;inrofcanon_props;i++) { free (params->canon_props[i].data); ptp_free_devicepropdesc (¶ms->canon_props[i].dpd); } free (params->canon_props); free (params->backlogentries); for (i=0;inrofdeviceproperties;i++) ptp_free_devicepropdesc (¶ms->deviceproperties[i].desc); free (params->deviceproperties); ptp_free_DI (¶ms->deviceinfo); } /** * ptp_getststorageids: * params: PTPParams* * * Gets array of StorageIDs and fills the storageids structure. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getstorageids (PTPParams* params, PTPStorageIDs* storageids) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_GetStorageIDs); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ptp_unpack_SIDs(params, data, storageids, size); free(data); return PTP_RC_OK; } /** * ptp_getststorageinfo: * params: PTPParams* * storageid - StorageID * * Gets StorageInfo dataset of desired storage and fills storageinfo * structure. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getstorageinfo (PTPParams* params, uint32_t storageid, PTPStorageInfo* storageinfo) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_GetStorageInfo, storageid); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); if (!data || !size) return PTP_RC_GeneralError; memset(storageinfo, 0, sizeof(*storageinfo)); if (!ptp_unpack_SI(params, data, storageinfo, size)) { free(data); return PTP_RC_GeneralError; } free(data); return PTP_RC_OK; } /** * ptp_getobjecthandles: * params: PTPParams* * storage - StorageID * objectformatcode - ObjectFormatCode (optional) * associationOH - ObjectHandle of Association for * wich a list of children is desired * (optional) * objecthandles - pointer to structute * * Fills objecthandles with structure returned by device. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getobjecthandles (PTPParams* params, uint32_t storage, uint32_t objectformatcode, uint32_t associationOH, PTPObjectHandles* objecthandles) { PTPContainer ptp; uint16_t ret; unsigned char *data; unsigned int size; objecthandles->Handler = NULL; objecthandles->n = 0; PTP_CNT_INIT(ptp, PTP_OC_GetObjectHandles, storage, objectformatcode, associationOH); ret=ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size); if (ret == PTP_RC_OK) { ptp_unpack_OH(params, data, objecthandles, size); } else { if ( (storage == 0xffffffff) && (objectformatcode == 0) && (associationOH == 0) ) { /* When we query all object handles on all stores and * get an error -> just handle it as "0 handles". */ objecthandles->Handler = NULL; objecthandles->n = 0; ret = PTP_RC_OK; } } free(data); return ret; } uint16_t ptp_getfilesystemmanifest (PTPParams* params, uint32_t storage, uint32_t objectformatcode, uint32_t associationOH, unsigned char** data) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetFilesystemManifest, storage, objectformatcode, associationOH); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, NULL); } /** * ptp_getnumobjects: * params: PTPParams* * storage - StorageID * objectformatcode - ObjectFormatCode (optional) * associationOH - ObjectHandle of Association for * wich a list of children is desired * (optional) * numobs - pointer to uint32_t that takes number of objects * * Fills numobs with number of objects on device. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getnumobjects (PTPParams* params, uint32_t storage, uint32_t objectformatcode, uint32_t associationOH, uint32_t* numobs) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetNumObjects, storage, objectformatcode, associationOH); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); if (ptp.Nparam >= 1) *numobs = ptp.Param1; else return PTP_RC_GeneralError; return PTP_RC_OK; } /** * ptp_eos_bulbstart: * params: PTPParams* * * Starts EOS Bulb capture. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_canon_eos_bulbstart (PTPParams* params) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_BulbStart); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); if ((ptp.Nparam >= 1) && ((ptp.Param1 & 0x7000) == 0x2000)) return ptp.Param1; return PTP_RC_OK; } /** * ptp_eos_capture: * params: PTPParams* * uint32_t* result * * This starts a EOS400D style capture. You have to use the * get_eos_events to find out what resulted. * The return value is "0" for all OK, and "1" for capture failed. (not fully confirmed) * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_canon_eos_capture (PTPParams* params, uint32_t *result) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_RemoteRelease); *result = 0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); if (ptp.Nparam >= 1) *result = ptp.Param1; return PTP_RC_OK; } /** * ptp_canon_eos_bulbend: * params: PTPParams* * * Starts EOS Bulb capture. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_canon_eos_bulbend (PTPParams* params) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_BulbEnd); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); if ((ptp.Nparam >= 1) && ((ptp.Param1 & 0x7000) == 0x2000)) return ptp.Param1; return PTP_RC_OK; } /** * ptp_getobjectinfo: * params: PTPParams* * handle - Object handle * objectinfo - pointer to objectinfo that is returned * * Get objectinfo structure for handle from device. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getobjectinfo (PTPParams* params, uint32_t handle, PTPObjectInfo* objectinfo) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_GetObjectInfo, handle); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ptp_unpack_OI(params, data, objectinfo, size); free(data); return PTP_RC_OK; } /** * ptp_getobject: * params: PTPParams* * handle - Object handle * object - pointer to data area * * Get object 'handle' from device and store the data in newly * allocated 'object'. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getobject (PTPParams* params, uint32_t handle, unsigned char** object) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetObject, handle); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, object, NULL); } /** * ptp_getobject_with_size: * params: PTPParams* * handle - Object handle * object - pointer to data area * size - pointer to uint, returns size of object * * Get object 'handle' from device and store the data in newly * allocated 'object'. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getobject_with_size (PTPParams* params, uint32_t handle, unsigned char** object, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetObject, handle); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, object, size); } /** * ptp_getobject_to_handler: * params: PTPParams* * handle - Object handle * PTPDataHandler* - pointer datahandler * * Get object 'handle' from device and store the data in newly * allocated 'object'. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getobject_to_handler (PTPParams* params, uint32_t handle, PTPDataHandler *handler) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetObject, handle); return ptp_transaction_new(params, &ptp, PTP_DP_GETDATA, 0, handler); } /** * ptp_getobject_tofd: * params: PTPParams* * handle - Object handle * fd - File descriptor to write() to * * Get object 'handle' from device and write the data to the * given file descriptor. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getobject_tofd (PTPParams* params, uint32_t handle, int fd) { PTPContainer ptp; PTPDataHandler handler; uint16_t ret; PTP_CNT_INIT(ptp, PTP_OC_GetObject, handle); ptp_init_fd_handler (&handler, fd); ret = ptp_transaction_new(params, &ptp, PTP_DP_GETDATA, 0, &handler); ptp_exit_fd_handler (&handler); return ret; } /** * ptp_getpartialobject: * params: PTPParams* * handle - Object handle * offset - Offset into object * maxbytes - Maximum of bytes to read * object - pointer to data area * len - pointer to returned length * * Get object 'handle' from device and store the data in newly * allocated 'object'. Start from offset and read at most maxbytes. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getpartialobject (PTPParams* params, uint32_t handle, uint32_t offset, uint32_t maxbytes, unsigned char** object, uint32_t *len) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetPartialObject, handle, offset, maxbytes); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, object, len); } /** * ptp_getpartialobject_to_handler: * params: PTPParams* * handle - Object handle * offset - Offset into object * maxbytes - Maximum of bytes to read * handler - a ptp data handler * * Get object 'handle' from device and send the data to the * data handler. Start from offset and read at most maxbytes. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getpartialobject_to_handler (PTPParams* params, uint32_t handle, uint32_t offset, uint32_t maxbytes, PTPDataHandler *handler) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetPartialObject, handle, offset, maxbytes); return ptp_transaction_new(params, &ptp, PTP_DP_GETDATA, 0, handler); } /** * ptp_getthumb: * params: PTPParams* * handle - Object handle * object - pointer to data area * * Get thumb for object 'handle' from device and store the data in newly * allocated 'object'. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_getthumb (PTPParams* params, uint32_t handle, unsigned char** object, unsigned int *len) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_GetThumb, handle); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, object, len); } /** * ptp_deleteobject: * params: PTPParams* * handle - object handle * ofc - object format code (optional) * * Deletes desired objects. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_deleteobject (PTPParams* params, uint32_t handle, uint32_t ofc) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_DeleteObject, handle, ofc); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); /* If the object is cached and could be removed, cleanse cache. */ ptp_remove_object_from_cache(params, handle); return PTP_RC_OK; } /** * ptp_sendobjectinfo: * params: PTPParams* * uint32_t* store - destination StorageID on Responder * uint32_t* parenthandle - Parent ObjectHandle on responder * uint32_t* handle - see Return values * PTPObjectInfo* objectinfo- ObjectInfo that is to be sent * * Sends ObjectInfo of file that is to be sent via SendFileObject. * * Return values: Some PTP_RC_* code. * Upon success : uint32_t* store - Responder StorageID in which * object will be stored * uint32_t* parenthandle- Responder Parent ObjectHandle * in which the object will be stored * uint32_t* handle - Responder's reserved ObjectHandle * for the incoming object **/ uint16_t ptp_sendobjectinfo (PTPParams* params, uint32_t* store, uint32_t* parenthandle, uint32_t* handle, PTPObjectInfo* objectinfo) { PTPContainer ptp; uint16_t ret; unsigned char *data = NULL; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_SendObjectInfo, *store, *parenthandle); size = ptp_pack_OI(params, objectinfo, &data); ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); *store=ptp.Param1; *parenthandle=ptp.Param2; *handle=ptp.Param3; return ret; } /** * ptp_sendobject: * params: PTPParams* * char* object - contains the object that is to be sent * uint64_t size - object size * * Sends object to Responder. * * Return values: Some PTP_RC_* code. * */ uint16_t ptp_sendobject (PTPParams* params, unsigned char* object, uint64_t size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_SendObject); return ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &object, NULL); } /** * ptp_sendobject_from_handler: * params: PTPParams* * PTPDataHandler* - File descriptor to read() object from * uint64_t size - File/object size * * Sends object from file descriptor by consecutive reads from this * descriptor. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_sendobject_from_handler (PTPParams* params, PTPDataHandler *handler, uint64_t size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_SendObject); return ptp_transaction_new(params, &ptp, PTP_DP_SENDDATA, size, handler); } /** * ptp_sendobject_fromfd: * params: PTPParams* * fd - File descriptor to read() object from * uint64_t size - File/object size * * Sends object from file descriptor by consecutive reads from this * descriptor. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_sendobject_fromfd (PTPParams* params, int fd, uint64_t size) { PTPContainer ptp; PTPDataHandler handler; uint16_t ret; PTP_CNT_INIT(ptp, PTP_OC_SendObject); ptp_init_fd_handler (&handler, fd); ret = ptp_transaction_new(params, &ptp, PTP_DP_SENDDATA, size, &handler); ptp_exit_fd_handler (&handler); return ret; } #define PROPCACHE_TIMEOUT 5 /* seconds */ uint16_t ptp_getdevicepropdesc (PTPParams* params, uint16_t propcode, PTPDevicePropDesc* devicepropertydesc) { PTPContainer ptp; uint16_t ret = PTP_RC_OK; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_GetDevicePropDesc, propcode); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); if (!data) { ptp_debug (params, "no data received for getdevicepropdesc"); return PTP_RC_InvalidDevicePropFormat; } if (params->device_flags & DEVICE_FLAG_OLYMPUS_XML_WRAPPED) { #ifdef HAVE_LIBXML2 xmlNodePtr code; ret = ptp_olympus_parse_output_xml (params,(char*)data,size,&code); if (ret == PTP_RC_OK) { int x; if ( (xmlChildElementCount(code) == 1) && (!strcmp((char*)code->name,"c1014")) ) { code = xmlFirstElementChild (code); if ( (sscanf((char*)code->name,"p%x", &x)) && (x == propcode) ) { ret = parse_9301_propdesc (params, xmlFirstElementChild (code), devicepropertydesc); xmlFreeDoc(code->doc); } } } else { ptp_debug(params,"failed to parse output xml, ret %x?", ret); } #endif } else { ptp_unpack_DPD(params, data, devicepropertydesc, size); } free(data); return ret; } uint16_t ptp_getdevicepropvalue (PTPParams* params, uint16_t propcode, PTPPropertyValue* value, uint16_t datatype) { PTPContainer ptp; unsigned char *data; unsigned int size, offset = 0; uint16_t ret; PTP_CNT_INIT(ptp, PTP_OC_GetDevicePropValue, propcode); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ret = ptp_unpack_DPV(params, data, &offset, size, value, datatype) ? PTP_RC_OK : PTP_RC_GeneralError; if (ret != PTP_RC_OK) ptp_debug (params, "ptp_getdevicepropvalue: unpacking DPV failed"); free(data); return ret; } uint16_t ptp_setdevicepropvalue (PTPParams* params, uint16_t propcode, PTPPropertyValue *value, uint16_t datatype) { PTPContainer ptp; uint16_t ret; unsigned char *data = NULL; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_SetDevicePropValue, propcode); size=ptp_pack_DPV(params, value, &data, datatype); ret=ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); return ret; } /** * ptp_ek_sendfileobjectinfo: * params: PTPParams* * uint32_t* store - destination StorageID on Responder * uint32_t* parenthandle - Parent ObjectHandle on responder * uint32_t* handle - see Return values * PTPObjectInfo* objectinfo- ObjectInfo that is to be sent * * Sends ObjectInfo of file that is to be sent via SendFileObject. * * Return values: Some PTP_RC_* code. * Upon success : uint32_t* store - Responder StorageID in which * object will be stored * uint32_t* parenthandle- Responder Parent ObjectHandle * in which the object will be stored * uint32_t* handle - Responder's reserved ObjectHandle * for the incoming object **/ uint16_t ptp_ek_sendfileobjectinfo (PTPParams* params, uint32_t* store, uint32_t* parenthandle, uint32_t* handle, PTPObjectInfo* objectinfo) { PTPContainer ptp; uint16_t ret; unsigned char *data = NULL; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_EK_SendFileObjectInfo, *store, *parenthandle); size=ptp_pack_OI(params, objectinfo, &data); ret=ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); *store=ptp.Param1; *parenthandle=ptp.Param2; *handle=ptp.Param3; return ret; } /** * ptp_ek_getserial: * params: PTPParams* * char** serial - contains the serial number of the camera * uint32_t* size - contains the string length * * Gets the serial number from the device. (ptp serial) * * Return values: Some PTP_RC_* code. * */ uint16_t ptp_ek_getserial (PTPParams* params, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_EK_GetSerial); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } /** * ptp_ek_setserial: * params: PTPParams* * char* serial - contains the new serial number * uint32_t size - string length * * Sets the serial number of the device. (ptp serial) * * Return values: Some PTP_RC_* code. * */ uint16_t ptp_ek_setserial (PTPParams* params, unsigned char *data, unsigned int size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_EK_SetSerial); return ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); } /* unclear what it does yet */ uint16_t ptp_ek_9007 (PTPParams* params, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, 0x9007); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } /* unclear what it does yet */ uint16_t ptp_ek_9009 (PTPParams* params, uint32_t *p1, uint32_t *p2) { PTPContainer ptp; PTP_CNT_INIT(ptp, 0x9009); *p1 = *p2 = 0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); *p1 = ptp.Param1; *p2 = ptp.Param2; return PTP_RC_OK; } /* unclear yet, but I guess it returns the info from 9008 */ uint16_t ptp_ek_900c (PTPParams* params, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, 0x900c); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); /* returned data is 16bit,16bit,32bit,32bit */ } /** * ptp_ek_settext: * params: PTPParams* * PTPEKTextParams* - contains the texts to display. * * Displays the specified texts on the TFT of the camera. * * Return values: Some PTP_RC_* code. * */ uint16_t ptp_ek_settext (PTPParams* params, PTPEKTextParams *text) { PTPContainer ptp; uint16_t ret; unsigned char *data = 0; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_EK_SetText); if (0 == (size = ptp_pack_EK_text(params, text, &data))) return PTP_ERROR_BADPARAM; ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); return ret; } /** * ptp_ek_sendfileobject: * params: PTPParams* * char* object - contains the object that is to be sent * uint32_t size - object size * * Sends object to Responder. * * Return values: Some PTP_RC_* code. * */ uint16_t ptp_ek_sendfileobject (PTPParams* params, unsigned char* object, uint32_t size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_EK_SendFileObject); return ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &object, NULL); } /** * ptp_ek_sendfileobject_from_handler: * params: PTPParams* * PTPDataHandler* handler - contains the handler of the object that is to be sent * uint32_t size - object size * * Sends object to Responder. * * Return values: Some PTP_RC_* code. * */ uint16_t ptp_ek_sendfileobject_from_handler (PTPParams* params, PTPDataHandler*handler, uint32_t size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_EK_SendFileObject); return ptp_transaction_new(params, &ptp, PTP_DP_SENDDATA, size, handler); } /************************************************************************* * * Canon PTP extensions support * * (C) Nikolai Kopanygin 2003 * *************************************************************************/ /** * ptp_canon_getpartialobjectinfo: * params: PTPParams* * uint32_t handle - ObjectHandle * uint32_t p2 - Not fully understood parameter * 0 - returns full size * 1 - returns thumbnail size (or EXIF?) * * Gets form the responder the size of the specified object. * * Return values: Some PTP_RC_* code. * Upon success : uint32_t* size - The object size * uint32_t* rp2 - Still unknown return parameter * (perhaps upper 32bit of size) * * **/ uint16_t ptp_canon_getpartialobjectinfo (PTPParams* params, uint32_t handle, uint32_t p2, uint32_t* size, uint32_t* rp2) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetPartialObjectInfo, handle, p2); *size = *rp2 = 0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); *size=ptp.Param1; *rp2=ptp.Param2; return PTP_RC_OK; } /** * ptp_canon_get_mac_address: * params: PTPParams* * value 0 works. * Gets the MAC address of the wireless transmitter. * * Return values: Some PTP_RC_* code. * Upon success : unsigned char* mac - The MAC address * **/ uint16_t ptp_canon_get_mac_address (PTPParams* params, unsigned char **mac) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetMACAddress); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, mac, NULL); } /** * ptp_canon_get_directory: * params: PTPParams* * Gets the full directory of the camera. * * Return values: Some PTP_RC_* code. * Upon success : PTPObjectHandles *handles - filled out with handles * PTPObjectInfo **oinfos - allocated array of PTP Object Infos * uint32_t **flags - allocated array of CANON Flags * **/ uint16_t ptp_canon_get_directory (PTPParams* params, PTPObjectHandles *handles, PTPObjectInfo **oinfos, /* size(handles->n) */ uint32_t **flags /* size(handles->n) */ ) { PTPContainer ptp; unsigned char *data; uint16_t ret; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetDirectory); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, NULL)); ret = ptp_unpack_canon_directory(params, data, ptp.Param1, handles, oinfos, flags); free (data); return ret; } /** * ptp_canon_gettreeinfo: * params: PTPParams* * uint32_t *out * * Switches the camera display to on and lets the user * select what to transfer. Sends a 0xc011 event when started * and 0xc013 if direct transfer aborted. * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_canon_gettreeinfo (PTPParams* params, uint32_t *out) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetTreeInfo, 0xf); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); if (ptp.Nparam > 0) *out = ptp.Param1; return PTP_RC_OK; } /** * ptp_canon_getpairinginfo: * params: PTPParams* * int nr * * Get the pairing information. * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_canon_getpairinginfo (PTPParams* params, uint32_t nr, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetPairingInfo, nr); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } /** * ptp_canon_get_target_handles: * params: PTPParams* * PTPCanon_directtransfer_entry **out * unsigned int *outsize * * Retrieves direct transfer entries specifying the images to transfer * from the camera (to be retrieved after 0xc011 event). * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_canon_gettreesize (PTPParams* params, PTPCanon_directtransfer_entry **entries, unsigned int *cnt) { PTPContainer ptp; uint16_t ret = PTP_RC_OK; unsigned char *data, *cur; unsigned int size, i; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetTreeSize); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); *cnt = dtoh32a(data); *entries = malloc(sizeof(PTPCanon_directtransfer_entry)*(*cnt)); if (!*entries) { ret = PTP_RC_GeneralError; goto exit; } cur = data+4; for (i=0;i<*cnt;i++) { unsigned char len; (*entries)[i].oid = dtoh32a(cur); (*entries)[i].str = ptp_unpack_string(params, cur, 4, size-(cur-data-4), &len); cur += 4+(cur[4]*2+1); } exit: free (data); return ret; } /** * ptp_canon_checkevent: * params: PTPParams* * * The camera has a FIFO stack, in which it accumulates events. * Partially these events are communicated also via the USB interrupt pipe * according to the PTP USB specification, partially not. * This operation returns from the device a block of data, empty, * if the event stack is empty, or filled with an event's data otherwise. * The event is removed from the stack in the latter case. * The Remote Capture app sends this command to the camera all the time * of connection, filling with it the gaps between other operations. * * Return values: Some PTP_RC_* code. * Upon success : PTPUSBEventContainer* event - is filled with the event data * if any * int *isevent - returns 1 in case of event * or 0 otherwise **/ uint16_t ptp_canon_checkevent (PTPParams* params, PTPContainer* event, int* isevent) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_CANON_CheckEvent); *isevent=0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); if (data && size) { /* check if we had a successfull call with data */ ptp_unpack_EC(params, data, event, size); *isevent=1; free(data); } return PTP_RC_OK; } uint16_t ptp_add_event (PTPParams *params, PTPContainer *evt) { params->events = realloc(params->events, sizeof(PTPContainer)*(params->nrofevents+1)); memcpy (¶ms->events[params->nrofevents],evt,1*sizeof(PTPContainer)); params->nrofevents += 1; return PTP_RC_OK; } static void handle_event_internal (PTPParams *params, PTPContainer *event) { /* handle some PTP stack internal events */ switch (event->Code) { case PTP_EC_DevicePropChanged: { unsigned int i; /* mark the property for a forced refresh on the next query */ for (i=0;inrofdeviceproperties;i++) if (params->deviceproperties[i].desc.DevicePropertyCode == event->Param1) { params->deviceproperties[i].timestamp = 0; break; } break; } case PTP_EC_StoreAdded: case PTP_EC_StoreRemoved: { int i; /* refetch storage IDs and also invalidate whole object tree */ free (params->storageids.Storage); params->storageids.Storage = NULL; params->storageids.n = 0; ptp_getstorageids (params, ¶ms->storageids); /* free object storage as it might be associated with the storage ids */ /* FIXME: enhance and just delete the ones from the storage */ for (i=0;inrofobjects;i++) ptp_free_object (¶ms->objects[i]); free (params->objects); params->objects = NULL; params->nrofobjects = 0; params->storagechanged = 1; break; } default: /* check if we should handle it internally too */ break; } } uint16_t ptp_check_event_queue (PTPParams *params) { PTPContainer event; uint16_t ret; /* We try to do a event check without I/O */ /* Basically this means just looking at the meanwhile queued events */ ret = params->event_check_queue(params,&event); if (ret == PTP_RC_OK) { ptp_debug (params, "event: nparams=0x%X, code=0x%X, trans_id=0x%X, p1=0x%X, p2=0x%X, p3=0x%X", event.Nparam,event.Code,event.Transaction_ID, event.Param1, event.Param2, event.Param3); ptp_add_event (params, &event); handle_event_internal (params, &event); } if (ret == PTP_ERROR_TIMEOUT) /* ok, just new events */ ret = PTP_RC_OK; return ret; } uint16_t ptp_check_event (PTPParams *params) { PTPContainer event; uint16_t ret; /* Method offered by Nikon DSLR, Nikon 1, and some older Nikon Coolpix P* * The Nikon Coolpix P2 however does not return anything. So if we never get * events from here, use the ptp "interrupt" method */ if ( (params->deviceinfo.VendorExtensionID == PTP_VENDOR_NIKON) && ptp_operation_issupported(params, PTP_OC_NIKON_CheckEvent) ) { unsigned int evtcnt = 0, i; PTPContainer *xevent = NULL; ret = ptp_nikon_check_event(params, &xevent, &evtcnt); if (ret != PTP_RC_OperationNotSupported) CHECK_PTP_RC(ret); if (evtcnt) { for (i = 0; i < evtcnt; i++) handle_event_internal (params, &xevent[i]); params->events = realloc(params->events, sizeof(PTPContainer)*(evtcnt+params->nrofevents)); memcpy (¶ms->events[params->nrofevents],xevent,evtcnt*sizeof(PTPContainer)); params->nrofevents += evtcnt; free (xevent); params->event90c7works = 1; } if (params->event90c7works) return PTP_RC_OK; /* fall through to generic event handling */ } /* should not get here ... EOS has no normal PTP events and another queue handling. */ if ( (params->deviceinfo.VendorExtensionID == PTP_VENDOR_CANON) && ptp_operation_issupported(params, PTP_OC_CANON_EOS_GetEvent) ) { return PTP_RC_OK; } if ( (params->deviceinfo.VendorExtensionID == PTP_VENDOR_CANON) && ptp_operation_issupported(params, PTP_OC_CANON_CheckEvent) ) { int isevent; CHECK_PTP_RC(ptp_canon_checkevent (params,&event,&isevent)); if (isevent) { ret = PTP_RC_OK; goto store_event; } /* Event Emulate Mode 0 (unset) and 1-5 get interrupt events. 6-7 does not. */ if (params->canon_event_mode > 5) return PTP_RC_OK; /* FIXME: fallthrough or return? */ #ifdef __APPLE__ /* the libusb 1 on darwin currently does not like polling * for interrupts, they have no timeout for it. 2010/08/23 * Check back in 2011 or so. -Marcus */ return PTP_RC_OK; #endif } ret = params->event_check(params,&event); store_event: if (ret == PTP_RC_OK) { ptp_debug (params, "event: nparams=0x%X, code=0x%X, trans_id=0x%X, p1=0x%X, p2=0x%X, p3=0x%X", event.Nparam,event.Code,event.Transaction_ID, event.Param1, event.Param2, event.Param3); ptp_add_event (params, &event); handle_event_internal (params, &event); } if (ret == PTP_ERROR_TIMEOUT) /* ok, just new events */ ret = PTP_RC_OK; return ret; } uint16_t ptp_wait_event (PTPParams *params) { PTPContainer event; uint16_t ret; ret = params->event_wait(params,&event); if (ret == PTP_RC_OK) { ptp_debug (params, "event: nparams=0x%X, code=0x%X, trans_id=0x%X, p1=0x%X, p2=0x%X, p3=0x%X", event.Nparam,event.Code,event.Transaction_ID, event.Param1, event.Param2, event.Param3); ptp_add_event (params, &event); handle_event_internal (params, &event); } if (ret == PTP_ERROR_TIMEOUT) /* ok, just new events */ ret = PTP_RC_OK; return ret; } int ptp_get_one_event(PTPParams *params, PTPContainer *event) { if (!params->nrofevents) return 0; memcpy (event, params->events, sizeof(PTPContainer)); memmove (params->events, params->events+1, sizeof(PTPContainer)*(params->nrofevents-1)); /* do not realloc on shrink. */ params->nrofevents--; if (!params->nrofevents) { free (params->events); params->events = NULL; } return 1; } /** * ptp_canon_eos_getevent: * * This retrieves configuration status/updates/changes * on EOS cameras. It reads a datablock which has a list of variable * sized structures. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_canon_eos_getevent (PTPParams* params, PTPCanon_changes_entry **entries, int *nrofentries) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetEvent); *nrofentries = 0; *entries = NULL; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); *nrofentries = ptp_unpack_CANON_changes(params,data,size,entries); free (data); return PTP_RC_OK; } uint16_t ptp_check_eos_events (PTPParams *params) { PTPCanon_changes_entry *entries = NULL, *nentries; int nrofentries = 0; while (1) { /* call it repeatedly until the camera does not report any */ CHECK_PTP_RC(ptp_canon_eos_getevent (params, &entries, &nrofentries)); if (!nrofentries) return PTP_RC_OK; if (params->nrofbacklogentries) { nentries = realloc(params->backlogentries,sizeof(entries[0])*(params->nrofbacklogentries+nrofentries)); if (!nentries) return PTP_RC_GeneralError; params->backlogentries = nentries; memcpy (nentries+params->nrofbacklogentries, entries, nrofentries*sizeof(entries[0])); params->nrofbacklogentries += nrofentries; free (entries); } else { params->backlogentries = entries; params->nrofbacklogentries = nrofentries; } } return PTP_RC_OK; } int ptp_get_one_eos_event (PTPParams *params, PTPCanon_changes_entry *entry) { if (!params->nrofbacklogentries) return 0; memcpy (entry, params->backlogentries, sizeof(*entry)); if (params->nrofbacklogentries > 1) { memmove (params->backlogentries,params->backlogentries+1,sizeof(*entry)*(params->nrofbacklogentries-1)); params->nrofbacklogentries--; } else { free (params->backlogentries); params->backlogentries = NULL; params->nrofbacklogentries = 0; } return 1; } uint16_t ptp_canon_eos_getdevicepropdesc (PTPParams* params, uint16_t propcode, PTPDevicePropDesc *dpd) { unsigned int i; for (i=0;inrofcanon_props;i++) if (params->canon_props[i].proptype == propcode) break; if (params->nrofcanon_props == i) return PTP_RC_Undefined; memcpy (dpd, ¶ms->canon_props[i].dpd, sizeof (*dpd)); if (dpd->FormFlag == PTP_DPFF_Enumeration) { /* need to duplicate the Enumeration alloc */ dpd->FORM.Enum.SupportedValue = malloc (sizeof (PTPPropertyValue)*dpd->FORM.Enum.NumberOfValues); memcpy (dpd->FORM.Enum.SupportedValue, params->canon_props[i].dpd.FORM.Enum.SupportedValue, sizeof (PTPPropertyValue)*dpd->FORM.Enum.NumberOfValues ); } if (dpd->DataType == PTP_DTC_STR) { dpd->FactoryDefaultValue.str = strdup( params->canon_props[i].dpd.FactoryDefaultValue.str ); dpd->CurrentValue.str = strdup( params->canon_props[i].dpd.CurrentValue.str ); } return PTP_RC_OK; } uint16_t ptp_canon_eos_getstorageids (PTPParams* params, PTPStorageIDs* storageids) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetStorageIDs); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ptp_unpack_SIDs(params, data, storageids, size); free(data); return PTP_RC_OK; } uint16_t ptp_canon_eos_getstorageinfo (PTPParams* params, uint32_t p1, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetStorageInfo, p1); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); /* FIXME: do stuff with data */ } uint16_t ptp_canon_eos_getobjectinfoex ( PTPParams* params, uint32_t storageid, uint32_t oid, uint32_t unk, PTPCANONFolderEntry **entries, unsigned int *nrofentries ) { PTPContainer ptp; uint16_t ret = PTP_RC_OK; unsigned char *data, *xdata; unsigned int size, i; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetObjectInfoEx, storageid, oid, unk); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); if (!data) { *nrofentries = 0; return PTP_RC_OK; } if (size < 4) { ret = PTP_RC_GeneralError; goto exit; } /* check for integer overflow */ if (dtoh32a(data) >= INT_MAX/sizeof(PTPCANONFolderEntry)) { ret = PTP_RC_GeneralError; goto exit; } *nrofentries = dtoh32a(data); *entries = malloc(*nrofentries * sizeof(PTPCANONFolderEntry)); if (!*entries) { ret = PTP_RC_GeneralError; goto exit; } xdata = data+sizeof(uint32_t); for (i=0;i<*nrofentries;i++) { if ((dtoh32a(xdata) + (xdata-data)) > size) { ptp_debug (params, "reading canon FEs run over read data size?\n"); free (*entries); *entries = NULL; *nrofentries = 0; ret = PTP_RC_GeneralError; goto exit; } ptp_unpack_Canon_EOS_FE (params, &xdata[4], &((*entries)[i])); xdata += dtoh32a(xdata); } exit: free (data); return ret; } /** * ptp_canon_eos_getpartialobject: * * This retrieves a part of an PTP object which you specify as object id. * The id originates from 0x9116 call. * After finishing it, we seem to need to call ptp_canon_eos_enddirecttransfer. * * params: PTPParams* * oid Object ID * offset The offset where to start the data transfer * xsize Size in bytes of the transfer to do * data Pointer that receives the malloc()ed memory of the transfer. * * Return values: Some PTP_RC_* code. * */ uint16_t ptp_canon_eos_getpartialobject (PTPParams* params, uint32_t oid, uint32_t offset, uint32_t xsize, unsigned char**data) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetPartialObject, oid, offset, xsize); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, NULL); } uint16_t ptp_canon_eos_setdevicepropvalueex (PTPParams* params, unsigned char* data, unsigned int size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_SetDevicePropValueEx); return ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); } uint16_t ptp_canon_eos_setdevicepropvalue (PTPParams* params, uint16_t propcode, PTPPropertyValue *value, uint16_t datatype ) { PTPContainer ptp; uint16_t ret; unsigned char *data = NULL; unsigned int i, size; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_SetDevicePropValueEx); for (i=0;inrofcanon_props;i++) if (params->canon_props[i].proptype == propcode) break; if (params->nrofcanon_props == i) return PTP_RC_Undefined; switch (propcode) { case PTP_DPC_CANON_EOS_ImageFormat: case PTP_DPC_CANON_EOS_ImageFormatCF: case PTP_DPC_CANON_EOS_ImageFormatSD: case PTP_DPC_CANON_EOS_ImageFormatExtHD: /* special handling of ImageFormat properties */ size = 8 + ptp_pack_EOS_ImageFormat( params, NULL, value->u16 ); data = malloc( size ); if (!data) return PTP_RC_GeneralError; params->canon_props[i].dpd.CurrentValue.u16 = value->u16; ptp_pack_EOS_ImageFormat( params, data + 8, value->u16 ); break; case PTP_DPC_CANON_EOS_CustomFuncEx: /* special handling of CustomFuncEx properties */ ptp_debug (params, "ptp2/ptp_canon_eos_setdevicepropvalue: setting EOS prop %x to %s",propcode,value->str); size = 8 + ptp_pack_EOS_CustomFuncEx( params, NULL, value->str ); data = malloc( size ); if (!data) return PTP_RC_GeneralError; params->canon_props[i].dpd.CurrentValue.str = strdup( value->str ); ptp_pack_EOS_CustomFuncEx( params, data + 8, value->str ); break; default: if (datatype != PTP_DTC_STR) { data = calloc(3,sizeof(uint32_t)); if (!data) return PTP_RC_GeneralError; size = sizeof(uint32_t)*3; } else { size = strlen(value->str) + 1 + 8; data = calloc(size,sizeof(char)); if (!data) return PTP_RC_GeneralError; } switch (datatype) { case PTP_DTC_INT8: case PTP_DTC_UINT8: /*fprintf (stderr, "%x -> %d\n", propcode, value->u8);*/ htod8a(&data[8], value->u8); params->canon_props[i].dpd.CurrentValue.u8 = value->u8; break; case PTP_DTC_UINT16: case PTP_DTC_INT16: /*fprintf (stderr, "%x -> %d\n", propcode, value->u16);*/ htod16a(&data[8], value->u16); params->canon_props[i].dpd.CurrentValue.u16 = value->u16; break; case PTP_DTC_INT32: case PTP_DTC_UINT32: /*fprintf (stderr, "%x -> %d\n", propcode, value->u32);*/ htod32a(&data[8], value->u32); params->canon_props[i].dpd.CurrentValue.u32 = value->u32; break; case PTP_DTC_STR: strcpy((char*)data + 8, value->str); free (params->canon_props[i].dpd.CurrentValue.str); params->canon_props[i].dpd.CurrentValue.str = strdup(value->str); break; } } htod32a(&data[0], size); htod32a(&data[4], propcode); ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free (data); return ret; } /** * ptp_canon_getpartialobject: * * This operation is used to read from the device a data * block of an object from a specified offset. * * params: PTPParams* * uint32_t handle - the handle of the requested object * uint32_t offset - the offset in bytes from the beginning of the object * uint32_t size - the requested size of data block to read * uint32_t pos - 1 for the first block, 2 - for a block in the middle, * 3 - for the last block * * Return values: Some PTP_RC_* code. * char **block - the pointer to the block of data read * uint32_t* readnum - the number of bytes read * **/ uint16_t ptp_canon_getpartialobject (PTPParams* params, uint32_t handle, uint32_t offset, uint32_t size, uint32_t pos, unsigned char** block, uint32_t* readnum) { PTPContainer ptp; uint16_t ret; unsigned char *data; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetPartialObjectEx, handle, offset, size, pos); ret=ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, NULL); if (ret==PTP_RC_OK) { *block=data; *readnum=ptp.Param1; } free (data); return ret; } /** * ptp_canon_getviewfinderimage: * * This operation can be used to read the image which is currently * in the camera's viewfinder. The image size is 320x240, format is JPEG. * Of course, prior to calling this operation, one must turn the viewfinder * on with the CANON_ViewfinderOn command. * Invoking this operation many times, one can get live video from the camera! * * params: PTPParams* * * Return values: Some PTP_RC_* code. * char **image - the pointer to the read image * unit32_t *size - the size of the image in bytes * **/ uint16_t ptp_canon_getviewfinderimage (PTPParams* params, unsigned char** image, uint32_t* size) { PTPContainer ptp; uint16_t ret; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetViewfinderImage); ret=ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, image, NULL); if (ret==PTP_RC_OK) *size=ptp.Param1; return ret; } /** * ptp_canon_getchanges: * * This is an interesting operation, about the effect of which I am not sure. * This command is called every time when a device property has been changed * with the SetDevicePropValue operation, and after some other operations. * This operation reads the array of Device Properties which have been changed * by the previous operation. * Probably, this operation is even required to make those changes work. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * uint16_t** props - the pointer to the array of changed properties * uint32_t* propnum - the number of elements in the *props array * **/ uint16_t ptp_canon_getchanges (PTPParams* params, uint16_t** props, uint32_t* propnum) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetChanges); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); *propnum=ptp_unpack_uint16_t_array(params,data,0,size,props); free(data); return PTP_RC_OK; } /** * ptp_canon_getobjectinfo: * * This command reads a specified object's record in a device's filesystem, * or the records of all objects belonging to a specified folder (association). * * params: PTPParams* * uint32_t store - StorageID, * uint32_t p2 - Yet unknown (0 value works OK) * uint32_t parent - Parent Object Handle * # If Parent Object Handle is 0xffffffff, * # the Parent Object is the top level folder. * uint32_t handle - Object Handle * # If Object Handle is 0, the records of all objects * # belonging to the Parent Object are read. * # If Object Handle is not 0, only the record of this * # Object is read. * * Return values: Some PTP_RC_* code. * PTPCANONFolderEntry** entries - the pointer to the folder entry array * uint32_t* entnum - the number of elements of the array * **/ uint16_t ptp_canon_getobjectinfo (PTPParams* params, uint32_t store, uint32_t p2, uint32_t parent, uint32_t handle, PTPCANONFolderEntry** entries, uint32_t* entnum) { PTPContainer ptp; uint16_t ret; unsigned char *data; unsigned int i, size; *entnum = 0; *entries = NULL; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetObjectInfoEx, store, p2, parent, handle); data = NULL; size = 0; ret=ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, NULL); if (ret != PTP_RC_OK) goto exit; if (!data) return ret; if (ptp.Param1 > size/PTP_CANON_FolderEntryLen) { ptp_debug (params, "param1 is %d, size is only %d", ptp.Param1, size); ret = PTP_RC_GeneralError; goto exit; } *entnum = ptp.Param1; *entries= calloc(*entnum, sizeof(PTPCANONFolderEntry)); if (*entries == NULL) { ret = PTP_RC_GeneralError; goto exit; } for(i=0; i<(*entnum); i++) { if (size < i*PTP_CANON_FolderEntryLen) break; ptp_unpack_Canon_FE(params, data+i*PTP_CANON_FolderEntryLen, &((*entries)[i]) ); } exit: free (data); return ret; } /** * ptp_canon_get_objecthandle_by_name: * * This command looks up the specified object on the camera. * * Format is "A:\\PATH". * * The 'A' is the VolumeLabel from GetStorageInfo, * my IXUS has "A" for the card and "V" for internal memory. * * params: PTPParams* * char* name - path name * * Return values: Some PTP_RC_* code. * uint32_t *oid - PTP object id. * **/ uint16_t ptp_canon_get_objecthandle_by_name (PTPParams* params, char* name, uint32_t* objectid) { PTPContainer ptp; uint16_t ret; unsigned char *data; uint8_t len = 0; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetObjectHandleByName); data = malloc (2*(strlen(name)+1)+2); if (!data) return PTP_RC_GeneralError; memset (data, 0, 2*(strlen(name)+1)+2); ptp_pack_string (params, name, data, 0, &len); ret=ptp_transaction (params, &ptp, PTP_DP_SENDDATA, (len+1)*2+1, &data, NULL); free (data); *objectid = ptp.Param1; return ret; } /** * ptp_canon_get_customize_data: * * This command downloads the specified theme slot, including jpegs * and wav files. * * params: PTPParams* * uint32_t themenr - nr of theme * * Return values: Some PTP_RC_* code. * unsigned char **data - pointer to data pointer * unsigned int *size - size of data returned * **/ uint16_t ptp_canon_get_customize_data (PTPParams* params, uint32_t themenr, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_GetCustomizeData, themenr); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } uint16_t ptp_nikon_curve_download (PTPParams* params, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_NIKON_CurveDownload); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } /** * ptp_sony_sdioconnect: * * This changes modes of the camera * * params: PTPParams* * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_sony_sdioconnect (PTPParams* params, uint32_t p1, uint32_t p2, uint32_t p3) { PTPContainer ptp; unsigned char *data; PTP_CNT_INIT(ptp, PTP_OC_SONY_SDIOConnect, p1, p2, p3); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, NULL)); free (data); return PTP_RC_OK; } /** * ptp_sony_get_vendorpropcodes: * * This command downloads the vendor specific property codes. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * unsigned char **data - pointer to data pointer * unsigned int *size - size of data returned * **/ uint16_t ptp_sony_get_vendorpropcodes (PTPParams* params, uint16_t **props, unsigned int *size) { PTPContainer ptp; unsigned char *xdata = NULL; unsigned int xsize, psize1 = 0, psize2 = 0; uint16_t *props1 = NULL,*props2 = NULL; *props = NULL; *size = 0; PTP_CNT_INIT(ptp, PTP_OC_SONY_GetSDIOGetExtDeviceInfo, 0xc8 /* unclear */); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &xdata, &xsize)); if (xsize == 0) { ptp_debug (params, "No special operations sent?"); return PTP_RC_OK; } psize1 = ptp_unpack_uint16_t_array (params, xdata+2, 0, xsize, &props1); ptp_debug (params, "xsize %d, got size %d\n", xsize, psize1*2 + 2 + 4); if (psize1*2 + 2 + 4 < xsize) { psize2 = ptp_unpack_uint16_t_array(params,xdata+2+psize1*2+4, 0, xsize, &props2); } *props = calloc(psize1+psize2, sizeof(uint16_t)); if (!*props) { ptp_debug (params, "oom during malloc?"); free (props1); free (props2); free (xdata); return PTP_RC_OK; } *size = psize1+psize2; memcpy (*props, props1, psize1*sizeof(uint16_t)); memcpy ((*props)+psize1, props2, psize2*sizeof(uint16_t)); free (props1); free (props2); free (xdata); return PTP_RC_OK; } uint16_t ptp_sony_getdevicepropdesc (PTPParams* params, uint16_t propcode, PTPDevicePropDesc *dpd) { PTPContainer ptp; unsigned char *data; unsigned int size, len = 0; uint16_t ret; PTP_CNT_INIT(ptp, PTP_OC_SONY_GetDevicePropdesc, propcode); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); if (!data) return PTP_RC_GeneralError; /* first 16 bit is 0xc8 0x00, then an array of 16 bit PTP ids */ ret = ptp_unpack_Sony_DPD(params,data,dpd,size,&len) ? PTP_RC_OK : PTP_RC_GeneralError; free (data); return ret; } uint16_t ptp_sony_getalldevicepropdesc (PTPParams* params) { PTPContainer ptp; unsigned char *data, *dpddata; unsigned int size, readlen; PTPDevicePropDesc dpd; PTP_CNT_INIT(ptp, PTP_OC_SONY_GetAllDevicePropData); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); if (!data) return PTP_RC_GeneralError; if (size <= 8) { free (data); return PTP_RC_GeneralError; } dpddata = data+8; /* nr of entries 32bit, 0 32bit */ size -= 8; while (size>0) { unsigned int i; uint16_t propcode; if (!ptp_unpack_Sony_DPD (params, dpddata, &dpd, size, &readlen)) break; propcode = dpd.DevicePropertyCode; for (i=0;inrofdeviceproperties;i++) if (params->deviceproperties[i].desc.DevicePropertyCode == propcode) break; /* debug output to see what changes */ if (i != params->nrofdeviceproperties) { switch (dpd.DataType) { case PTP_DTC_INT8: #define CHECK_CHANGED(type) \ if (params->deviceproperties[i].desc.CurrentValue.type != dpd.CurrentValue.type) \ ptp_debug (params, "ptp_sony_getalldevicepropdesc: %04x: value %d -> %d", propcode, params->deviceproperties[i].desc.CurrentValue.type, dpd.CurrentValue.type); CHECK_CHANGED(i8); break; case PTP_DTC_UINT8: CHECK_CHANGED(u8); break; case PTP_DTC_UINT16: CHECK_CHANGED(u16); break; case PTP_DTC_INT16: CHECK_CHANGED(i16); break; case PTP_DTC_INT32: CHECK_CHANGED(i32); break; case PTP_DTC_UINT32: CHECK_CHANGED(u32); break; default: break; } } if (i == params->nrofdeviceproperties) { params->deviceproperties = realloc(params->deviceproperties,(i+1)*sizeof(params->deviceproperties[0])); memset(¶ms->deviceproperties[i],0,sizeof(params->deviceproperties[0])); params->nrofdeviceproperties++; } else { ptp_free_devicepropdesc (¶ms->deviceproperties[i].desc); } params->deviceproperties[i].desc = dpd; #if 0 ptp_debug (params, "dpd.DevicePropertyCode %04x, readlen %d, getset %d", dpd.DevicePropertyCode, readlen, dpd.GetSet); switch (dpd.DataType) { case PTP_DTC_INT8: ptp_debug (params, "value %d/%x", dpd.CurrentValue.i8, dpd.CurrentValue.i8); break; case PTP_DTC_UINT8: ptp_debug (params, "value %d/%x", dpd.CurrentValue.u8, dpd.CurrentValue.u8); break; case PTP_DTC_UINT16: ptp_debug (params, "value %d/%x", dpd.CurrentValue.u16, dpd.CurrentValue.u16); break; case PTP_DTC_INT16: ptp_debug (params, "value %d/%x", dpd.CurrentValue.i16, dpd.CurrentValue.i16); break; case PTP_DTC_INT32: ptp_debug (params, "value %d/%x", dpd.CurrentValue.i32, dpd.CurrentValue.i32); break; case PTP_DTC_UINT32: ptp_debug (params, "value %d/%x", dpd.CurrentValue.u32, dpd.CurrentValue.u32); break; default: ptp_debug (params, "unknown type %x", dpd.DataType); break; } #endif dpddata += readlen; size -= readlen; } free(data); return PTP_RC_OK; } uint16_t ptp_sony_setdevicecontrolvaluea (PTPParams* params, uint16_t propcode, PTPPropertyValue *value, uint16_t datatype) { PTPContainer ptp; uint16_t ret; unsigned char *data; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_SONY_SetControlDeviceA, propcode); size = ptp_pack_DPV(params, value, &data, datatype); ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); return ret; } uint16_t ptp_sony_setdevicecontrolvalueb (PTPParams* params, uint16_t propcode, PTPPropertyValue *value, uint16_t datatype) { PTPContainer ptp; uint16_t ret; unsigned char *data; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_SONY_SetControlDeviceB, propcode); size = ptp_pack_DPV(params, value, &data , datatype); ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); return ret; } uint16_t ptp_sony_9280 (PTPParams* params, uint32_t param1, uint32_t additional, uint32_t data2, uint32_t data3, uint32_t data4, uint8_t x, uint8_t y) { PTPContainer ptp; unsigned char buf[18]; unsigned char *buffer; PTP_CNT_INIT(ptp, 0x9280, param1); if ((additional != 0) && (additional != 2)) return PTP_RC_GeneralError; htod32a(&buf[0], additional); htod32a(&buf[4], data2); htod32a(&buf[8], data3); htod32a(&buf[12], data4); /* only sent in the case where additional is 2 */ buf[16]= x; buf[17]= y; buffer=buf; return ptp_transaction(params, &ptp, PTP_DP_SENDDATA, 16+additional, &buffer, NULL); } uint16_t ptp_sony_9281 (PTPParams* params, uint32_t param1) { PTPContainer ptp; unsigned int size = 0; unsigned char *buffer = NULL; uint16_t ret; PTP_CNT_INIT(ptp, 0x9281, param1); ret = ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &buffer, &size); free (buffer); return ret; } /** * ptp_generic_getdevicepropdesc: * * This command gets a propertydesc. * If a vendor specific property desc query is available, it uses that. * If not, it falls back to the generic PTP getdevicepropdesc. * * params: PTPParams* * uint16_t propcode * PTPDevicePropDesc *dpd * * Return values: Some PTP_RC_* code. * **/ /* Cache time in seconds. Should perhaps be more granular... */ uint16_t ptp_generic_getdevicepropdesc (PTPParams *params, uint16_t propcode, PTPDevicePropDesc *dpd) { unsigned int i; time_t now; for (i=0;inrofdeviceproperties;i++) if (params->deviceproperties[i].desc.DevicePropertyCode == propcode) break; if (i == params->nrofdeviceproperties) { params->deviceproperties = realloc(params->deviceproperties,(i+1)*sizeof(params->deviceproperties[0])); memset(¶ms->deviceproperties[i],0,sizeof(params->deviceproperties[0])); params->nrofdeviceproperties++; } if (params->deviceproperties[i].desc.DataType != PTP_DTC_UNDEF) { time(&now); if (params->deviceproperties[i].timestamp + params->cachetime > now) { duplicate_DevicePropDesc(¶ms->deviceproperties[i].desc, dpd); return PTP_RC_OK; } /* free cached entry as we will refetch it. */ ptp_free_devicepropdesc (¶ms->deviceproperties[i].desc); } if ( (params->deviceinfo.VendorExtensionID == PTP_VENDOR_SONY) && ptp_operation_issupported(params, PTP_OC_SONY_GetAllDevicePropData) ) { CHECK_PTP_RC(ptp_sony_getalldevicepropdesc (params)); for (i=0;inrofdeviceproperties;i++) if (params->deviceproperties[i].desc.DevicePropertyCode == propcode) break; if (i == params->nrofdeviceproperties) { ptp_debug (params, "property 0x%04x not found?\n", propcode); return PTP_RC_GeneralError; } time(&now); params->deviceproperties[i].timestamp = now; duplicate_DevicePropDesc(¶ms->deviceproperties[i].desc, dpd); return PTP_RC_OK; } if ( (params->deviceinfo.VendorExtensionID == PTP_VENDOR_SONY) && ptp_operation_issupported(params, PTP_OC_SONY_GetDevicePropdesc) ) { CHECK_PTP_RC(ptp_sony_getdevicepropdesc (params, propcode, ¶ms->deviceproperties[i].desc)); time(&now); params->deviceproperties[i].timestamp = now; duplicate_DevicePropDesc(¶ms->deviceproperties[i].desc, dpd); return PTP_RC_OK; } if (ptp_operation_issupported(params, PTP_OC_GetDevicePropDesc)) { CHECK_PTP_RC(ptp_getdevicepropdesc (params, propcode, ¶ms->deviceproperties[i].desc)); time(&now); params->deviceproperties[i].timestamp = now; duplicate_DevicePropDesc(¶ms->deviceproperties[i].desc, dpd); return PTP_RC_OK; } return PTP_RC_OK; } /** * ptp_generic_setdevicepropvalue: * * This command sets a property value, device specific. * * params: PTPParams* * uint16_t propcode * PTPDevicePropertyValue *value * uint16_t datatype * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_generic_setdevicepropvalue (PTPParams* params, uint16_t propcode, PTPPropertyValue *value, uint16_t datatype) { unsigned int i; /* reset the cache entry */ for (i=0;inrofdeviceproperties;i++) if (params->deviceproperties[i].desc.DevicePropertyCode == propcode) break; if (i != params->nrofdeviceproperties) params->deviceproperties[i].timestamp = 0; /* FIXME: change the cache? hmm */ /* this works for some methods, but not for all */ if ( (params->deviceinfo.VendorExtensionID == PTP_VENDOR_SONY) && ptp_operation_issupported(params, PTP_OC_SONY_SetControlDeviceA) ) return ptp_sony_setdevicecontrolvaluea (params, propcode, value, datatype); return ptp_setdevicepropvalue (params, propcode, value, datatype); } /** * ptp_nikon_get_vendorpropcodes: * * This command downloads the vendor specific property codes. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * unsigned char **data - pointer to data pointer * unsigned int *size - size of data returned * **/ uint16_t ptp_nikon_get_vendorpropcodes (PTPParams* params, uint16_t **props, unsigned int *size) { PTPContainer ptp; unsigned char *data = NULL; unsigned int xsize = 0; *props = NULL; *size = 0; PTP_CNT_INIT(ptp, PTP_OC_NIKON_GetVendorPropCodes); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &xsize)); *size = ptp_unpack_uint16_t_array(params,data,0,xsize,props); free (data); return PTP_RC_OK; } uint16_t ptp_nikon_getfileinfoinblock ( PTPParams* params, uint32_t p1, uint32_t p2, uint32_t p3, unsigned char **data, unsigned int *size ) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_NIKON_GetFileInfoInBlock, p1, p2, p3); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } /** * ptp_nikon_get_liveview_image: * * This command gets a LiveView image from newer Nikons DSLRs. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_nikon_get_liveview_image (PTPParams* params, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_NIKON_GetLiveViewImg); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } /** * ptp_nikon_get_preview_image: * * This command gets a Preview image from newer Nikons DSLRs. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_nikon_get_preview_image (PTPParams* params, unsigned char **xdata, unsigned int *xsize, uint32_t *handle) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_NIKON_GetPreviewImg); /* FIXME: * pdslrdashboard passes 3 parameters: * objectid, minimum size, maximum size */ CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, xdata, xsize)); if (ptp.Nparam > 0) *handle = ptp.Param1; return PTP_RC_OK; } /** * ptp_canon_eos_get_viewfinder_image: * * This command gets a Viewfinder image from newer Nikons DSLRs. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_canon_eos_get_viewfinder_image (PTPParams* params, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetViewFinderData, 0x00100000 /* from trace */); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } uint16_t ptp_canon_eos_get_viewfinder_image_handler (PTPParams* params, PTPDataHandler*handler) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CANON_EOS_GetViewFinderData, 0x00100000 /* from trace */); return ptp_transaction_new(params, &ptp, PTP_DP_GETDATA, 0, handler); } /** * ptp_nikon_check_event: * * This command checks the event queue on the Nikon. * * params: PTPParams* * PTPUSBEventContainer **event - list of usb events. * int *evtcnt - number of usb events in event structure. * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_nikon_check_event (PTPParams* params, PTPContainer** event, unsigned int* evtcnt) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_NIKON_CheckEvent); *evtcnt = 0; CHECK_PTP_RC(ptp_transaction (params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ptp_unpack_Nikon_EC (params, data, size, event, evtcnt); free (data); return PTP_RC_OK; } /** * ptp_nikon_getptpipinfo: * * This command gets the ptpip info data. * * params: PTPParams* * unsigned char *data - data * unsigned int size - size of returned data * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_nikon_getptpipinfo (PTPParams* params, unsigned char **data, unsigned int *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_NIKON_GetDevicePTPIPInfo); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, size); } /** * ptp_nikon_getwifiprofilelist: * * This command gets the wifi profile list. * * params: PTPParams* * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_nikon_getwifiprofilelist (PTPParams* params) { PTPContainer ptp; uint16_t ret; unsigned char *data; unsigned int size, pos, profn, n; char *buffer; uint8_t len; PTP_CNT_INIT(ptp, PTP_OC_NIKON_GetProfileAllData); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ret = PTP_RC_Undefined; /* FIXME: Add more precise error code */ if (size < 2) goto exit; params->wifi_profiles_version = data[0]; params->wifi_profiles_number = data[1]; free(params->wifi_profiles); params->wifi_profiles = malloc(params->wifi_profiles_number*sizeof(PTPNIKONWifiProfile)); memset(params->wifi_profiles, 0, params->wifi_profiles_number*sizeof(PTPNIKONWifiProfile)); pos = 2; profn = 0; while (profn < params->wifi_profiles_number && pos < size) { if (pos+6 >= size) goto exit; params->wifi_profiles[profn].id = data[pos++]; params->wifi_profiles[profn].valid = data[pos++]; n = dtoh32a(&data[pos]); pos += 4; if (pos+n+4 >= size) goto exit; strncpy(params->wifi_profiles[profn].profile_name, (char*)&data[pos], n); params->wifi_profiles[profn].profile_name[16] = '\0'; pos += n; params->wifi_profiles[profn].display_order = data[pos++]; params->wifi_profiles[profn].device_type = data[pos++]; params->wifi_profiles[profn].icon_type = data[pos++]; buffer = ptp_unpack_string(params, data, pos, size, &len); strncpy(params->wifi_profiles[profn].creation_date, buffer, sizeof(params->wifi_profiles[profn].creation_date)); free (buffer); pos += (len*2+1); if (pos+1 >= size) goto exit; /* FIXME: check if it is really last usage date */ buffer = ptp_unpack_string(params, data, pos, size, &len); strncpy(params->wifi_profiles[profn].lastusage_date, buffer, sizeof(params->wifi_profiles[profn].lastusage_date)); free (buffer); pos += (len*2+1); if (pos+5 >= size) goto exit; n = dtoh32a(&data[pos]); pos += 4; if (pos+n >= size) goto exit; strncpy(params->wifi_profiles[profn].essid, (char*)&data[pos], n); params->wifi_profiles[profn].essid[32] = '\0'; pos += n; pos += 1; profn++; } #if 0 PTPNIKONWifiProfile test; memset(&test, 0, sizeof(PTPNIKONWifiProfile)); strcpy(test.profile_name, "MyTest"); test.icon_type = 1; strcpy(test.essid, "nikon"); test.ip_address = 10 + 11 << 16 + 11 << 24; test.subnet_mask = 24; test.access_mode = 1; test.wifi_channel = 1; test.key_nr = 1; ptp_nikon_writewifiprofile(params, &test); #endif /* everything went Ok */ ret = PTP_RC_OK; exit: free (data); return ret; } /** * ptp_nikon_writewifiprofile: * * This command gets the ptpip info data. * * params: PTPParams* * unsigned int profilenr - profile number * unsigned char *data - data * unsigned int size - size of returned data * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_nikon_writewifiprofile (PTPParams* params, PTPNIKONWifiProfile* profile) { PTPContainer ptp; unsigned char buffer[1024]; unsigned char* data = buffer; int size = 0; int i; uint8_t len; int profilenr = -1; unsigned char guid[16]; ptp_nikon_getptpipguid(guid); if (!params->wifi_profiles) CHECK_PTP_RC(ptp_nikon_getwifiprofilelist(params)); for (i = 0; i < params->wifi_profiles_number; i++) { if (!params->wifi_profiles[i].valid) { profilenr = params->wifi_profiles[i].id; break; } } if (profilenr == -1) { /* No free profile! */ return PTP_RC_StoreFull; } memset(buffer, 0, 1024); buffer[0x00] = 0x64; /* Version */ /* Profile name */ htod32a(&buffer[0x01], 17); /* 16 as third parameter, so there will always be a null-byte in the end */ strncpy((char*)&buffer[0x05], profile->profile_name, 16); buffer[0x16] = 0x00; /* Display order */ buffer[0x17] = profile->device_type; buffer[0x18] = profile->icon_type; /* FIXME: Creation date: put a real date here */ ptp_pack_string(params, "19990909T090909", data, 0x19, &len); /* IP parameters */ memcpy(&buffer[0x3A],&profile->ip_address,sizeof(profile->ip_address)); /**((unsigned int*)&buffer[0x3A]) = profile->ip_address; *//* Do not reverse bytes */ buffer[0x3E] = profile->subnet_mask; memcpy(&buffer[0x3F],&profile->gateway_address,sizeof(profile->gateway_address)); /**((unsigned int*)&buffer[0x3F]) = profile->gateway_address; */ /* Do not reverse bytes */ buffer[0x43] = profile->address_mode; /* Wifi parameters */ buffer[0x44] = profile->access_mode; buffer[0x45] = profile->wifi_channel; htod32a(&buffer[0x46], 33); /* essid */ /* 32 as third parameter, so there will always be a null-byte in the end */ strncpy((char*)&buffer[0x4A], profile->essid, 32); buffer[0x6B] = profile->authentification; buffer[0x6C] = profile->encryption; htod32a(&buffer[0x6D], 64); for (i = 0; i < 64; i++) { buffer[0x71+i] = profile->key[i]; } buffer[0xB1] = profile->key_nr; memcpy(&buffer[0xB2], guid, 16); switch(profile->encryption) { case 1: /* WEP 64bit */ htod16a(&buffer[0xC2], 5); /* (64-24)/8 = 5 */ break; case 2: /* WEP 128bit */ htod16a(&buffer[0xC2], 13); /* (128-24)/8 = 13 */ break; default: htod16a(&buffer[0xC2], 0); } size = 0xC4; PTP_CNT_INIT(ptp, PTP_OC_NIKON_SendProfileData, profilenr); return ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); } /** * ptp_mtp_getobjectpropssupported: * * This command gets the object properties possible from the device. * * params: PTPParams* * uint ofc - object format code * unsigned int *propnum - number of elements in returned array * uint16_t *props - array of supported properties * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_mtp_getobjectpropssupported (PTPParams* params, uint16_t ofc, uint32_t *propnum, uint16_t **props ) { PTPContainer ptp; unsigned char *data = NULL; unsigned int xsize = 0; PTP_CNT_INIT(ptp, PTP_OC_MTP_GetObjectPropsSupported, ofc); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &xsize)); if (!data) return PTP_RC_GeneralError; *propnum=ptp_unpack_uint16_t_array (params, data, 0, xsize, props); free(data); return PTP_RC_OK; } /** * ptp_mtp_getobjectpropdesc: * * This command gets the object property description. * * params: PTPParams* * uint16_t opc - object property code * uint16_t ofc - object format code * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_mtp_getobjectpropdesc ( PTPParams* params, uint16_t opc, uint16_t ofc, PTPObjectPropDesc *opd ) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_MTP_GetObjectPropDesc, opc, ofc); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); ptp_unpack_OPD (params, data, opd, size); free(data); return PTP_RC_OK; } /** * ptp_mtp_getobjectpropvalue: * * This command gets the object properties of an object handle. * * params: PTPParams* * uint32_t objectid - object format code * uint16_t opc - object prop code * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_mtp_getobjectpropvalue ( PTPParams* params, uint32_t oid, uint16_t opc, PTPPropertyValue *value, uint16_t datatype ) { PTPContainer ptp; uint16_t ret = PTP_RC_OK; unsigned char *data; unsigned int size, offset = 0; PTP_CNT_INIT(ptp, PTP_OC_MTP_GetObjectPropValue, oid, opc); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); if (!ptp_unpack_DPV(params, data, &offset, size, value, datatype)) { ptp_debug (params, "ptp_mtp_getobjectpropvalue: unpacking DPV failed"); ret = PTP_RC_GeneralError; } free(data); return ret; } /** * ptp_mtp_setobjectpropvalue: * * This command gets the object properties of an object handle. * * params: PTPParams* * uint32_t objectid - object format code * uint16_t opc - object prop code * * Return values: Some PTP_RC_* code. * **/ uint16_t ptp_mtp_setobjectpropvalue ( PTPParams* params, uint32_t oid, uint16_t opc, PTPPropertyValue *value, uint16_t datatype ) { PTPContainer ptp; uint16_t ret; unsigned char *data = NULL; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_MTP_SetObjectPropValue, oid, opc); size = ptp_pack_DPV(params, value, &data, datatype); ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); return ret; } uint16_t ptp_mtp_getobjectreferences (PTPParams* params, uint32_t handle, uint32_t** ohArray, uint32_t* arraylen) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_MTP_GetObjectReferences, handle); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data , &size)); /* Sandisk Sansa skips the DATA phase, but returns OK as response. * this will gives us a NULL here. Handle it. -Marcus */ if ((data == NULL) || (size == 0)) { *arraylen = 0; *ohArray = NULL; } else { *arraylen = ptp_unpack_uint32_t_array(params, data , 0, size, ohArray); } free(data); return PTP_RC_OK; } uint16_t ptp_mtp_setobjectreferences (PTPParams* params, uint32_t handle, uint32_t* ohArray, uint32_t arraylen) { PTPContainer ptp; uint16_t ret; unsigned char *data = NULL; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_MTP_SetObjectReferences, handle); size = ptp_pack_uint32_t_array(params, ohArray, arraylen, &data); ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); return ret; } uint16_t ptp_mtp_getobjectproplist (PTPParams* params, uint32_t handle, MTPProperties **props, int *nrofprops) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_MTP_GetObjPropList, handle, 0x00000000U, /* 0x00000000U should be "all formats" */ 0xFFFFFFFFU, /* 0xFFFFFFFFU should be "all properties" */ 0x00000000U, 0xFFFFFFFFU /* means - return full tree below the Param1 handle */ ); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); *nrofprops = ptp_unpack_OPL(params, data, props, size); free(data); return PTP_RC_OK; } uint16_t ptp_mtp_getobjectproplist_single (PTPParams* params, uint32_t handle, MTPProperties **props, int *nrofprops) { PTPContainer ptp; unsigned char *data; unsigned int size; PTP_CNT_INIT(ptp, PTP_OC_MTP_GetObjPropList, handle, 0x00000000U, /* 0x00000000U should be "all formats" */ 0xFFFFFFFFU, /* 0xFFFFFFFFU should be "all properties" */ 0x00000000U, 0x00000000U /* means - return single tree below the Param1 handle */ ); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, &size)); *nrofprops = ptp_unpack_OPL(params, data, props, size); free(data); return PTP_RC_OK; } uint16_t ptp_mtp_sendobjectproplist (PTPParams* params, uint32_t* store, uint32_t* parenthandle, uint32_t* handle, uint16_t objecttype, uint64_t objectsize, MTPProperties *props, int nrofprops) { PTPContainer ptp; uint16_t ret; unsigned char *data = NULL; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_MTP_SendObjectPropList, *store, *parenthandle, (uint32_t) objecttype, (uint32_t) (objectsize >> 32), (uint32_t) (objectsize & 0xffffffffU) ); /* Set object handle to 0 for a new object */ size = ptp_pack_OPL(params,props,nrofprops,&data); ret = ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL); free(data); *store = ptp.Param1; *parenthandle = ptp.Param2; *handle = ptp.Param3; return ret; } uint16_t ptp_mtp_setobjectproplist (PTPParams* params, MTPProperties *props, int nrofprops) { PTPContainer ptp; unsigned char *data = NULL; uint32_t size; PTP_CNT_INIT(ptp, PTP_OC_MTP_SetObjPropList); size = ptp_pack_OPL(params,props,nrofprops,&data); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, &data, NULL)); free(data); return PTP_RC_OK; } uint16_t ptp_mtpz_sendwmdrmpdapprequest (PTPParams* params, unsigned char *appcertmsg, uint32_t size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_MTP_WMDRMPD_SendWMDRMPDAppRequest); return ptp_transaction (params, &ptp, PTP_DP_SENDDATA, size, &appcertmsg, NULL); } uint16_t ptp_mtpz_getwmdrmpdappresponse (PTPParams* params, unsigned char **response, uint32_t *size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_MTP_WMDRMPD_GetWMDRMPDAppResponse); *size = 0; *response = NULL; return ptp_transaction (params, &ptp, PTP_DP_GETDATA, 0, response, size); } /****** CHDK interface ******/ uint16_t ptp_chdk_get_memory(PTPParams* params, int start, int num, unsigned char **buf) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_GetMemory, start, num); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, buf, NULL); } uint16_t ptp_chdk_set_memory_long(PTPParams* params, int addr, int val) { PTPContainer ptp; unsigned char *buf = (unsigned char *) &val; /* FIXME ... endianness? */ PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_SetMemory, addr, 4); return ptp_transaction(params, &ptp, PTP_DP_SENDDATA, 4, &buf, NULL); } uint16_t ptp_chdk_download(PTPParams* params, char *remote_fn, PTPDataHandler *handler) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_TempData, 0); CHECK_PTP_RC (ptp_transaction(params, &ptp, PTP_DP_SENDDATA, strlen(remote_fn), (unsigned char**)&remote_fn, NULL)); PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_DownloadFile); return ptp_transaction_new (params, &ptp, PTP_DP_GETDATA, 0, handler); } #if 0 int ptp_chdk_upload(PTPParams* params, char *local_fn, char *remote_fn) { uint16_t ret; PTPContainer ptp; char *buf = NULL; FILE *f; unsigned file_len,data_len,file_name_len; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_UploadFile); f = fopen(local_fn,"rb"); if ( f == NULL ) { ptp_error(params,"could not open file \'%s\'",local_fn); return 0; } fseek(f,0,SEEK_END); file_len = ftell(f); fseek(f,0,SEEK_SET); file_name_len = strlen(remote_fn); data_len = 4 + file_name_len + file_len; buf = malloc(data_len); memcpy(buf,&file_name_len,4); memcpy(buf+4,remote_fn,file_name_len); fread(buf+4+file_name_len,1,file_len,f); fclose(f); ret=ptp_transaction(params, &ptp, PTP_DP_SENDDATA, data_len, &buf, NULL); free(buf); if ( ret != PTP_RC_OK ) { ptp_error(params,"unexpected return code 0x%x",ret); return 0; } return 1; } #endif /* * Preliminary remote capture over USB code. Corresponding CHDK code is in the ptp-remote-capture-test * This is under development and should not be included in builds for general distribution */ /* * isready: 0: not ready, lowest 2 bits: available image formats, 0x10000000: error */ uint16_t ptp_chdk_rcisready(PTPParams* params, int *isready, int *imgnum) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_RemoteCaptureIsReady); *isready = *imgnum = 0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); *isready=ptp.Param1; *imgnum=ptp.Param2; return PTP_RC_OK; } uint16_t ptp_chdk_rcgetchunk(PTPParams* params, int fmt, ptp_chdk_rc_chunk *chunk) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_RemoteCaptureGetData, fmt); //get chunk chunk->data = NULL; chunk->size = 0; chunk->offset = 0; chunk->last = 0; // TODO should allow ptp_getdata_transaction to send chunks directly to file, or to mem CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &chunk->data, NULL)); chunk->size = ptp.Param1; chunk->last = (ptp.Param2 == 0); chunk->offset = ptp.Param3; //-1 for none return PTP_RC_OK; } uint16_t ptp_chdk_exec_lua(PTPParams* params, char *script, int flags, int *script_id, int *status) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_ExecuteScript, PTP_CHDK_SL_LUA | flags); *script_id = 0; *status = 0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_SENDDATA, strlen(script)+1, (unsigned char**)&script, NULL)); *script_id = ptp.Param1; *status = ptp.Param2; return PTP_RC_OK; } uint16_t ptp_chdk_get_version(PTPParams* params, int *major, int *minor) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_Version); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); *major = ptp.Param1; *minor = ptp.Param2; return PTP_RC_OK; } uint16_t ptp_chdk_get_script_status(PTPParams* params, unsigned *status) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_ScriptStatus); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); *status = ptp.Param1; return PTP_RC_OK; } uint16_t ptp_chdk_get_script_support(PTPParams* params, unsigned *status) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_ScriptSupport); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_NODATA, 0, NULL, NULL)); *status = ptp.Param1; return PTP_RC_OK; } uint16_t ptp_chdk_write_script_msg(PTPParams* params, char *data, unsigned size, int target_script_id, int *status) { PTPContainer ptp; // a zero length data phase appears to do bad things, camera stops responding to PTP if(!size) { ptp_error(params,"zero length message not allowed"); *status = 0; return PTP_ERROR_BADPARAM; } PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_WriteScriptMsg, target_script_id); *status = 0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size, (unsigned char**)&data, NULL)); *status = ptp.Param1; return PTP_RC_OK; } uint16_t ptp_chdk_read_script_msg(PTPParams* params, ptp_chdk_script_msg **msg) { PTPContainer ptp; unsigned char *data; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_ReadScriptMsg); *msg = NULL; /* camera will always send data, otherwise getdata will cause problems */ CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, &data, NULL)); if (!data) { ptp_error(params,"no data received"); return PTP_ERROR_BADPARAM; } /* for convenience, always allocate an extra byte and null it*/ *msg = malloc(sizeof(ptp_chdk_script_msg) + ptp.Param4 + 1); (*msg)->type = ptp.Param1; (*msg)->subtype = ptp.Param2; (*msg)->script_id = ptp.Param3; (*msg)->size = ptp.Param4; memcpy((*msg)->data,data,(*msg)->size); (*msg)->data[(*msg)->size] = 0; free(data); return PTP_RC_OK; } uint16_t ptp_chdk_get_live_data(PTPParams* params, unsigned flags, unsigned char **data, unsigned int *data_size) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_GetDisplayData, flags); *data_size = 0; CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, data, NULL)); *data_size = ptp.Param1; return PTP_RC_OK; } uint16_t ptp_chdk_call_function(PTPParams* params, int *args, int size, int *ret) { PTPContainer ptp; PTP_CNT_INIT(ptp, PTP_OC_CHDK, PTP_CHDK_CallFunction); CHECK_PTP_RC(ptp_transaction(params, &ptp, PTP_DP_SENDDATA, size*sizeof(int), (unsigned char **) &args, NULL)); if (ret) *ret = ptp.Param1; return PTP_RC_OK; } /** * Android MTP Extensions */ /** * ptp_android_getpartialobject64: * params: PTPParams* * handle - Object handle * offset - Offset into object * maxbytes - Maximum of bytes to read * object - pointer to data area * len - pointer to returned length * * Get object 'handle' from device and store the data in newly * allocated 'object'. Start from offset and read at most maxbytes. * * This is a 64bit offset version of the standard GetPartialObject. * * Return values: Some PTP_RC_* code. **/ uint16_t ptp_android_getpartialobject64 (PTPParams* params, uint32_t handle, uint64_t offset, uint32_t maxbytes, unsigned char** object, uint32_t *len) { PTPContainer ptp; /* casts due to varargs otherwise pushing 64bit values on the stack */ PTP_CNT_INIT(ptp, PTP_OC_ANDROID_GetPartialObject64, handle, ((uint32_t)offset & 0xFFFFFFFF), (uint32_t)(offset >> 32), maxbytes); return ptp_transaction(params, &ptp, PTP_DP_GETDATA, 0, object, len); } uint16_t ptp_android_sendpartialobject (PTPParams* params, uint32_t handle, uint64_t offset, unsigned char* object, uint32_t len) { PTPContainer ptp; uint16_t ret; PTP_CNT_INIT(ptp, PTP_OC_ANDROID_SendPartialObject, handle, (uint32_t)(offset & 0xFFFFFFFF), (uint32_t)(offset >> 32), len); /* * MtpServer.cpp is buggy: it uses write() without offset * rather than pwrite to send the data for data coming with * the header packet */ params->split_header_data = 1; ret=ptp_transaction(params, &ptp, PTP_DP_SENDDATA, len, &object, NULL); params->split_header_data = 0; return ret; } /* Non PTP protocol functions */ /* devinfo testing functions */ int ptp_event_issupported(PTPParams* params, uint16_t event) { unsigned int i=0; for (;ideviceinfo.EventsSupported_len;i++) { if (params->deviceinfo.EventsSupported[i]==event) return 1; } return 0; } int ptp_property_issupported(PTPParams* params, uint16_t property) { unsigned int i; for (i=0;ideviceinfo.DevicePropertiesSupported_len;i++) if (params->deviceinfo.DevicePropertiesSupported[i]==property) return 1; return 0; } void ptp_free_objectinfo (PTPObjectInfo *oi) { if (!oi) return; free (oi->Filename); oi->Filename = NULL; free (oi->Keywords); oi->Keywords = NULL; } void ptp_free_object (PTPObject *ob) { unsigned int i; if (!ob) return; ptp_free_objectinfo (&ob->oi); for (i=0;inrofmtpprops;i++) ptp_destroy_object_prop(&ob->mtpprops[i]); ob->flags = 0; } /* PTP error descriptions */ static struct { uint16_t rc; uint16_t vendor; const char *txt; } ptp_errors[] = { {PTP_RC_Undefined, 0, N_("PTP Undefined Error")}, {PTP_RC_OK, 0, N_("PTP OK!")}, {PTP_RC_GeneralError, 0, N_("PTP General Error")}, {PTP_RC_SessionNotOpen, 0, N_("PTP Session Not Open")}, {PTP_RC_InvalidTransactionID, 0, N_("PTP Invalid Transaction ID")}, {PTP_RC_OperationNotSupported, 0, N_("PTP Operation Not Supported")}, {PTP_RC_ParameterNotSupported, 0, N_("PTP Parameter Not Supported")}, {PTP_RC_IncompleteTransfer, 0, N_("PTP Incomplete Transfer")}, {PTP_RC_InvalidStorageId, 0, N_("PTP Invalid Storage ID")}, {PTP_RC_InvalidObjectHandle, 0, N_("PTP Invalid Object Handle")}, {PTP_RC_DevicePropNotSupported, 0, N_("PTP Device Prop Not Supported")}, {PTP_RC_InvalidObjectFormatCode,0, N_("PTP Invalid Object Format Code")}, {PTP_RC_StoreFull, 0, N_("PTP Store Full")}, {PTP_RC_ObjectWriteProtected, 0, N_("PTP Object Write Protected")}, {PTP_RC_StoreReadOnly, 0, N_("PTP Store Read Only")}, {PTP_RC_AccessDenied, 0, N_("PTP Access Denied")}, {PTP_RC_NoThumbnailPresent, 0, N_("PTP No Thumbnail Present")}, {PTP_RC_SelfTestFailed, 0, N_("PTP Self Test Failed")}, {PTP_RC_PartialDeletion, 0, N_("PTP Partial Deletion")}, {PTP_RC_StoreNotAvailable, 0, N_("PTP Store Not Available")}, {PTP_RC_SpecificationByFormatUnsupported, 0, N_("PTP Specification By Format Unsupported")}, {PTP_RC_NoValidObjectInfo, 0, N_("PTP No Valid Object Info")}, {PTP_RC_InvalidCodeFormat, 0, N_("PTP Invalid Code Format")}, {PTP_RC_UnknownVendorCode, 0, N_("PTP Unknown Vendor Code")}, {PTP_RC_CaptureAlreadyTerminated, 0, N_("PTP Capture Already Terminated")}, {PTP_RC_DeviceBusy, 0, N_("PTP Device Busy")}, {PTP_RC_InvalidParentObject, 0, N_("PTP Invalid Parent Object")}, {PTP_RC_InvalidDevicePropFormat,0, N_("PTP Invalid Device Prop Format")}, {PTP_RC_InvalidDevicePropValue, 0, N_("PTP Invalid Device Prop Value")}, {PTP_RC_InvalidParameter, 0, N_("PTP Invalid Parameter")}, {PTP_RC_SessionAlreadyOpened, 0, N_("PTP Session Already Opened")}, {PTP_RC_TransactionCanceled, 0, N_("PTP Transaction Canceled")}, {PTP_RC_SpecificationOfDestinationUnsupported, 0, N_("PTP Specification Of Destination Unsupported")}, {PTP_RC_EK_FilenameRequired, PTP_VENDOR_EASTMAN_KODAK, N_("Filename Required")}, {PTP_RC_EK_FilenameConflicts, PTP_VENDOR_EASTMAN_KODAK, N_("Filename Conflicts")}, {PTP_RC_EK_FilenameInvalid, PTP_VENDOR_EASTMAN_KODAK, N_("Filename Invalid")}, {PTP_RC_NIKON_HardwareError, PTP_VENDOR_NIKON, N_("Hardware Error")}, {PTP_RC_NIKON_OutOfFocus, PTP_VENDOR_NIKON, N_("Out of Focus")}, {PTP_RC_NIKON_ChangeCameraModeFailed, PTP_VENDOR_NIKON, N_("Change Camera Mode Failed")}, {PTP_RC_NIKON_InvalidStatus, PTP_VENDOR_NIKON, N_("Invalid Status")}, {PTP_RC_NIKON_SetPropertyNotSupported, PTP_VENDOR_NIKON, N_("Set Property Not Supported")}, {PTP_RC_NIKON_WbResetError, PTP_VENDOR_NIKON, N_("Whitebalance Reset Error")}, {PTP_RC_NIKON_DustReferenceError, PTP_VENDOR_NIKON, N_("Dust Reference Error")}, {PTP_RC_NIKON_ShutterSpeedBulb, PTP_VENDOR_NIKON, N_("Shutter Speed Bulb")}, {PTP_RC_NIKON_MirrorUpSequence, PTP_VENDOR_NIKON, N_("Mirror Up Sequence")}, {PTP_RC_NIKON_CameraModeNotAdjustFNumber, PTP_VENDOR_NIKON, N_("Camera Mode Not Adjust FNumber")}, {PTP_RC_NIKON_NotLiveView, PTP_VENDOR_NIKON, N_("Not in Liveview")}, {PTP_RC_NIKON_MfDriveStepEnd, PTP_VENDOR_NIKON, N_("Mf Drive Step End")}, {PTP_RC_NIKON_MfDriveStepInsufficiency, PTP_VENDOR_NIKON, N_("Mf Drive Step Insufficiency")}, {PTP_RC_NIKON_AdvancedTransferCancel, PTP_VENDOR_NIKON, N_("Advanced Transfer Cancel")}, {PTP_RC_CANON_UNKNOWN_COMMAND, PTP_VENDOR_CANON, N_("Unknown Command")}, {PTP_RC_CANON_OPERATION_REFUSED,PTP_VENDOR_CANON, N_("Operation Refused")}, {PTP_RC_CANON_LENS_COVER, PTP_VENDOR_CANON, N_("Lens Cover Present")}, {PTP_RC_CANON_BATTERY_LOW, PTP_VENDOR_CANON, N_("Battery Low")}, {PTP_RC_CANON_NOT_READY, PTP_VENDOR_CANON, N_("Camera Not Ready")}, {PTP_ERROR_TIMEOUT, 0, N_("PTP Timeout")}, {PTP_ERROR_CANCEL, 0, N_("PTP Cancel Request")}, {PTP_ERROR_BADPARAM, 0, N_("PTP Invalid Parameter")}, {PTP_ERROR_RESP_EXPECTED, 0, N_("PTP Response Expected")}, {PTP_ERROR_DATA_EXPECTED, 0, N_("PTP Data Expected")}, {PTP_ERROR_IO, 0, N_("PTP I/O Error")}, {0, 0, NULL} }; const char * ptp_strerror(uint16_t ret, uint16_t vendor) { int i; for (i=0; ptp_errors[i].txt != NULL; i++) if ((ptp_errors[i].rc == ret) && ((ptp_errors[i].vendor == 0) || (ptp_errors[i].vendor == vendor))) return ptp_errors[i].txt; return NULL; } const char* ptp_get_property_description(PTPParams* params, uint16_t dpc) { int i; /* Device Property descriptions */ struct { uint16_t dpc; const char *txt; } ptp_device_properties[] = { {PTP_DPC_Undefined, N_("Undefined PTP Property")}, {PTP_DPC_BatteryLevel, N_("Battery Level")}, {PTP_DPC_FunctionalMode, N_("Functional Mode")}, {PTP_DPC_ImageSize, N_("Image Size")}, {PTP_DPC_CompressionSetting, N_("Compression Setting")}, {PTP_DPC_WhiteBalance, N_("White Balance")}, {PTP_DPC_RGBGain, N_("RGB Gain")}, {PTP_DPC_FNumber, N_("F-Number")}, {PTP_DPC_FocalLength, N_("Focal Length")}, {PTP_DPC_FocusDistance, N_("Focus Distance")}, {PTP_DPC_FocusMode, N_("Focus Mode")}, {PTP_DPC_ExposureMeteringMode, N_("Exposure Metering Mode")}, {PTP_DPC_FlashMode, N_("Flash Mode")}, {PTP_DPC_ExposureTime, N_("Exposure Time")}, {PTP_DPC_ExposureProgramMode, N_("Exposure Program Mode")}, {PTP_DPC_ExposureIndex, N_("Exposure Index (film speed ISO)")}, {PTP_DPC_ExposureBiasCompensation, N_("Exposure Bias Compensation")}, {PTP_DPC_DateTime, N_("Date & Time")}, {PTP_DPC_CaptureDelay, N_("Pre-Capture Delay")}, {PTP_DPC_StillCaptureMode, N_("Still Capture Mode")}, {PTP_DPC_Contrast, N_("Contrast")}, {PTP_DPC_Sharpness, N_("Sharpness")}, {PTP_DPC_DigitalZoom, N_("Digital Zoom")}, {PTP_DPC_EffectMode, N_("Effect Mode")}, {PTP_DPC_BurstNumber, N_("Burst Number")}, {PTP_DPC_BurstInterval, N_("Burst Interval")}, {PTP_DPC_TimelapseNumber, N_("Timelapse Number")}, {PTP_DPC_TimelapseInterval, N_("Timelapse Interval")}, {PTP_DPC_FocusMeteringMode, N_("Focus Metering Mode")}, {PTP_DPC_UploadURL, N_("Upload URL")}, {PTP_DPC_Artist, N_("Artist")}, {PTP_DPC_CopyrightInfo, N_("Copyright Info")}, {PTP_DPC_SupportedStreams, N_("Supported Streams")}, {PTP_DPC_EnabledStreams, N_("Enabled Streams")}, {PTP_DPC_VideoFormat, N_("Video Format")}, {PTP_DPC_VideoResolution, N_("Video Resolution")}, {PTP_DPC_VideoQuality, N_("Video Quality")}, {PTP_DPC_VideoFrameRate, N_("Video Framerate")}, {PTP_DPC_VideoContrast, N_("Video Contrast")}, {PTP_DPC_VideoBrightness, N_("Video Brightness")}, {PTP_DPC_AudioFormat, N_("Audio Format")}, {PTP_DPC_AudioBitrate, N_("Audio Bitrate")}, {PTP_DPC_AudioSamplingRate, N_("Audio Samplingrate")}, {PTP_DPC_AudioBitPerSample, N_("Audio Bits per sample")}, {PTP_DPC_AudioVolume, N_("Audio Volume")}, {0,NULL} }; struct { uint16_t dpc; const char *txt; } ptp_device_properties_EK[] = { {PTP_DPC_EK_ColorTemperature, N_("Color Temperature")}, {PTP_DPC_EK_DateTimeStampFormat, N_("Date Time Stamp Format")}, {PTP_DPC_EK_BeepMode, N_("Beep Mode")}, {PTP_DPC_EK_VideoOut, N_("Video Out")}, {PTP_DPC_EK_PowerSaving, N_("Power Saving")}, {PTP_DPC_EK_UI_Language, N_("UI Language")}, {0,NULL} }; struct { uint16_t dpc; const char *txt; } ptp_device_properties_Canon[] = { {PTP_DPC_CANON_BeepMode, N_("Beep Mode")}, {PTP_DPC_CANON_BatteryKind, N_("Battery Type")}, {PTP_DPC_CANON_BatteryStatus, N_("Battery Mode")}, {PTP_DPC_CANON_UILockType, N_("UILockType")}, {PTP_DPC_CANON_CameraMode, N_("Camera Mode")}, {PTP_DPC_CANON_ImageQuality, N_("Image Quality")}, {PTP_DPC_CANON_FullViewFileFormat, N_("Full View File Format")}, {PTP_DPC_CANON_ImageSize, N_("Image Size")}, {PTP_DPC_CANON_SelfTime, N_("Self Time")}, {PTP_DPC_CANON_FlashMode, N_("Flash Mode")}, {PTP_DPC_CANON_Beep, N_("Beep")}, {PTP_DPC_CANON_ShootingMode, N_("Shooting Mode")}, {PTP_DPC_CANON_ImageMode, N_("Image Mode")}, {PTP_DPC_CANON_DriveMode, N_("Drive Mode")}, {PTP_DPC_CANON_EZoom, N_("Zoom")}, {PTP_DPC_CANON_MeteringMode, N_("Metering Mode")}, {PTP_DPC_CANON_AFDistance, N_("AF Distance")}, {PTP_DPC_CANON_FocusingPoint, N_("Focusing Point")}, {PTP_DPC_CANON_WhiteBalance, N_("White Balance")}, {PTP_DPC_CANON_SlowShutterSetting, N_("Slow Shutter Setting")}, {PTP_DPC_CANON_AFMode, N_("AF Mode")}, {PTP_DPC_CANON_ImageStabilization, N_("Image Stabilization")}, {PTP_DPC_CANON_Contrast, N_("Contrast")}, {PTP_DPC_CANON_ColorGain, N_("Color Gain")}, {PTP_DPC_CANON_Sharpness, N_("Sharpness")}, {PTP_DPC_CANON_Sensitivity, N_("Sensitivity")}, {PTP_DPC_CANON_ParameterSet, N_("Parameter Set")}, {PTP_DPC_CANON_ISOSpeed, N_("ISO Speed")}, {PTP_DPC_CANON_Aperture, N_("Aperture")}, {PTP_DPC_CANON_ShutterSpeed, N_("Shutter Speed")}, {PTP_DPC_CANON_ExpCompensation, N_("Exposure Compensation")}, {PTP_DPC_CANON_FlashCompensation, N_("Flash Compensation")}, {PTP_DPC_CANON_AEBExposureCompensation, N_("AEB Exposure Compensation")}, {PTP_DPC_CANON_AvOpen, N_("Av Open")}, {PTP_DPC_CANON_AvMax, N_("Av Max")}, {PTP_DPC_CANON_FocalLength, N_("Focal Length")}, {PTP_DPC_CANON_FocalLengthTele, N_("Focal Length Tele")}, {PTP_DPC_CANON_FocalLengthWide, N_("Focal Length Wide")}, {PTP_DPC_CANON_FocalLengthDenominator, N_("Focal Length Denominator")}, {PTP_DPC_CANON_CaptureTransferMode, N_("Capture Transfer Mode")}, {PTP_DPC_CANON_Zoom, N_("Zoom")}, {PTP_DPC_CANON_NamePrefix, N_("Name Prefix")}, {PTP_DPC_CANON_SizeQualityMode, N_("Size Quality Mode")}, {PTP_DPC_CANON_SupportedThumbSize, N_("Supported Thumb Size")}, {PTP_DPC_CANON_SizeOfOutputDataFromCamera, N_("Size of Output Data from Camera")}, {PTP_DPC_CANON_SizeOfInputDataToCamera, N_("Size of Input Data to Camera")}, {PTP_DPC_CANON_RemoteAPIVersion,N_("Remote API Version")}, {PTP_DPC_CANON_FirmwareVersion, N_("Firmware Version")}, {PTP_DPC_CANON_CameraModel, N_("Camera Model")}, {PTP_DPC_CANON_CameraOwner, N_("Camera Owner")}, {PTP_DPC_CANON_UnixTime, N_("UNIX Time")}, {PTP_DPC_CANON_CameraBodyID, N_("Camera Body ID")}, {PTP_DPC_CANON_CameraOutput, N_("Camera Output")}, {PTP_DPC_CANON_DispAv, N_("Disp Av")}, {PTP_DPC_CANON_AvOpenApex, N_("Av Open Apex")}, {PTP_DPC_CANON_DZoomMagnification, N_("Digital Zoom Magnification")}, {PTP_DPC_CANON_MlSpotPos, N_("Ml Spot Position")}, {PTP_DPC_CANON_DispAvMax, N_("Disp Av Max")}, {PTP_DPC_CANON_AvMaxApex, N_("Av Max Apex")}, {PTP_DPC_CANON_EZoomStartPosition, N_("EZoom Start Position")}, {PTP_DPC_CANON_FocalLengthOfTele, N_("Focal Length Tele")}, {PTP_DPC_CANON_EZoomSizeOfTele, N_("EZoom Size of Tele")}, {PTP_DPC_CANON_PhotoEffect, N_("Photo Effect")}, {PTP_DPC_CANON_AssistLight, N_("Assist Light")}, {PTP_DPC_CANON_FlashQuantityCount, N_("Flash Quantity Count")}, {PTP_DPC_CANON_RotationAngle, N_("Rotation Angle")}, {PTP_DPC_CANON_RotationScene, N_("Rotation Scene")}, {PTP_DPC_CANON_EventEmulateMode,N_("Event Emulate Mode")}, {PTP_DPC_CANON_DPOFVersion, N_("DPOF Version")}, {PTP_DPC_CANON_TypeOfSupportedSlideShow, N_("Type of Slideshow")}, {PTP_DPC_CANON_AverageFilesizes,N_("Average Filesizes")}, {PTP_DPC_CANON_ModelID, N_("Model ID")}, {0,NULL} }; struct { uint16_t dpc; const char *txt; } ptp_device_properties_Nikon[] = { {PTP_DPC_NIKON_ShootingBank, /* 0xD010 */ N_("Shooting Bank")}, {PTP_DPC_NIKON_ShootingBankNameA, /* 0xD011 */ N_("Shooting Bank Name A")}, {PTP_DPC_NIKON_ShootingBankNameB, /* 0xD012 */ N_("Shooting Bank Name B")}, {PTP_DPC_NIKON_ShootingBankNameC, /* 0xD013 */ N_("Shooting Bank Name C")}, {PTP_DPC_NIKON_ShootingBankNameD, /* 0xD014 */ N_("Shooting Bank Name D")}, {PTP_DPC_NIKON_ResetBank0, /* 0xD015 */ N_("Reset Bank 0")}, {PTP_DPC_NIKON_RawCompression, /* 0xD016 */ N_("Raw Compression")}, {PTP_DPC_NIKON_WhiteBalanceAutoBias, /* 0xD017 */ N_("Auto White Balance Bias")}, {PTP_DPC_NIKON_WhiteBalanceTungstenBias, /* 0xD018 */ N_("Tungsten White Balance Bias")}, {PTP_DPC_NIKON_WhiteBalanceFluorescentBias, /* 0xD019 */ N_("Fluorescent White Balance Bias")}, {PTP_DPC_NIKON_WhiteBalanceDaylightBias, /* 0xD01a */ N_("Daylight White Balance Bias")}, {PTP_DPC_NIKON_WhiteBalanceFlashBias, /* 0xD01b */ N_("Flash White Balance Bias")}, {PTP_DPC_NIKON_WhiteBalanceCloudyBias, /* 0xD01c */ N_("Cloudy White Balance Bias")}, {PTP_DPC_NIKON_WhiteBalanceShadeBias, /* 0xD01d */ N_("Shady White Balance Bias")}, {PTP_DPC_NIKON_WhiteBalanceColorTemperature, /* 0xD01e */ N_("White Balance Colour Temperature")}, {PTP_DPC_NIKON_WhiteBalancePresetNo, /* 0xD01f */ N_("White Balance Preset Number")}, {PTP_DPC_NIKON_WhiteBalancePresetName0, /* 0xD020 */ N_("White Balance Preset Name 0")}, {PTP_DPC_NIKON_WhiteBalancePresetName1, /* 0xD021 */ N_("White Balance Preset Name 1")}, {PTP_DPC_NIKON_WhiteBalancePresetName2, /* 0xD022 */ N_("White Balance Preset Name 2")}, {PTP_DPC_NIKON_WhiteBalancePresetName3, /* 0xD023 */ N_("White Balance Preset Name 3")}, {PTP_DPC_NIKON_WhiteBalancePresetName4, /* 0xD024 */ N_("White Balance Preset Name 4")}, {PTP_DPC_NIKON_WhiteBalancePresetVal0, /* 0xD025 */ N_("White Balance Preset Value 0")}, {PTP_DPC_NIKON_WhiteBalancePresetVal1, /* 0xD026 */ N_("White Balance Preset Value 1")}, {PTP_DPC_NIKON_WhiteBalancePresetVal2, /* 0xD027 */ N_("White Balance Preset Value 2")}, {PTP_DPC_NIKON_WhiteBalancePresetVal3, /* 0xD028 */ N_("White Balance Preset Value 3")}, {PTP_DPC_NIKON_WhiteBalancePresetVal4, /* 0xD029 */ N_("White Balance Preset Value 4")}, {PTP_DPC_NIKON_ImageSharpening, /* 0xD02a */ N_("Sharpening")}, {PTP_DPC_NIKON_ToneCompensation, /* 0xD02b */ N_("Tone Compensation")}, {PTP_DPC_NIKON_ColorModel, /* 0xD02c */ N_("Color Model")}, {PTP_DPC_NIKON_HueAdjustment, /* 0xD02d */ N_("Hue Adjustment")}, {PTP_DPC_NIKON_NonCPULensDataFocalLength, /* 0xD02e */ N_("Lens Focal Length (Non CPU)")}, {PTP_DPC_NIKON_NonCPULensDataMaximumAperture, /* 0xD02f */ N_("Lens Maximum Aperture (Non CPU)")}, {PTP_DPC_NIKON_ShootingMode, /* 0xD030 */ N_("Shooting Mode")}, {PTP_DPC_NIKON_JPEG_Compression_Policy, /* 0xD031 */ N_("JPEG Compression Policy")}, {PTP_DPC_NIKON_ColorSpace, /* 0xD032 */ N_("Color Space")}, {PTP_DPC_NIKON_AutoDXCrop, /* 0xD033 */ N_("Auto DX Crop")}, {PTP_DPC_NIKON_FlickerReduction, /* 0xD034 */ N_("Flicker Reduction")}, {PTP_DPC_NIKON_RemoteMode, /* 0xD035 */ N_("Remote Mode")}, {PTP_DPC_NIKON_VideoMode, /* 0xD036 */ N_("Video Mode")}, {PTP_DPC_NIKON_EffectMode, /* 0xD037 */ N_("Effect Mode")}, {PTP_DPC_NIKON_CSMMenuBankSelect, /* 0xD040 */ "PTP_DPC_NIKON_CSMMenuBankSelect"}, {PTP_DPC_NIKON_MenuBankNameA, /* 0xD041 */ N_("Menu Bank Name A")}, {PTP_DPC_NIKON_MenuBankNameB, /* 0xD042 */ N_("Menu Bank Name B")}, {PTP_DPC_NIKON_MenuBankNameC, /* 0xD043 */ N_("Menu Bank Name C")}, {PTP_DPC_NIKON_MenuBankNameD, /* 0xD044 */ N_("Menu Bank Name D")}, {PTP_DPC_NIKON_ResetBank, /* 0xD045 */ N_("Reset Menu Bank")}, {PTP_DPC_NIKON_A1AFCModePriority, /* 0xD048 */ "PTP_DPC_NIKON_A1AFCModePriority"}, {PTP_DPC_NIKON_A2AFSModePriority, /* 0xD049 */ "PTP_DPC_NIKON_A2AFSModePriority"}, {PTP_DPC_NIKON_A3GroupDynamicAF, /* 0xD04a */ "PTP_DPC_NIKON_A3GroupDynamicAF"}, {PTP_DPC_NIKON_A4AFActivation, /* 0xD04b */ "PTP_DPC_NIKON_A4AFActivation"}, {PTP_DPC_NIKON_FocusAreaIllumManualFocus, /* 0xD04c */ "PTP_DPC_NIKON_FocusAreaIllumManualFocus"}, {PTP_DPC_NIKON_FocusAreaIllumContinuous, /* 0xD04d */ "PTP_DPC_NIKON_FocusAreaIllumContinuous"}, {PTP_DPC_NIKON_FocusAreaIllumWhenSelected, /* 0xD04e */ "PTP_DPC_NIKON_FocusAreaIllumWhenSelected"}, {PTP_DPC_NIKON_FocusAreaWrap, /* 0xD04f */ N_("Focus Area Wrap")}, {PTP_DPC_NIKON_VerticalAFON, /* 0xD050 */ N_("Vertical AF On")}, {PTP_DPC_NIKON_AFLockOn, /* 0xD051 */ N_("AF Lock On")}, {PTP_DPC_NIKON_FocusAreaZone, /* 0xD052 */ N_("Focus Area Zone")}, {PTP_DPC_NIKON_EnableCopyright, /* 0xD053 */ N_("Enable Copyright")}, {PTP_DPC_NIKON_ISOAuto, /* 0xD054 */ N_("Auto ISO")}, {PTP_DPC_NIKON_EVISOStep, /* 0xD055 */ N_("Exposure ISO Step")}, {PTP_DPC_NIKON_EVStep, /* 0xD056 */ N_("Exposure Step")}, {PTP_DPC_NIKON_EVStepExposureComp, /* 0xD057 */ N_("Exposure Compensation (EV)")}, {PTP_DPC_NIKON_ExposureCompensation, /* 0xD058 */ N_("Exposure Compensation")}, {PTP_DPC_NIKON_CenterWeightArea, /* 0xD059 */ N_("Centre Weight Area")}, {PTP_DPC_NIKON_ExposureBaseMatrix, /* 0xD05A */ N_("Exposure Base Matrix")}, {PTP_DPC_NIKON_ExposureBaseCenter, /* 0xD05B */ N_("Exposure Base Center")}, {PTP_DPC_NIKON_ExposureBaseSpot, /* 0xD05C */ N_("Exposure Base Spot")}, {PTP_DPC_NIKON_LiveViewAFArea, /* 0xD05D */ N_("Live View AF Area")}, {PTP_DPC_NIKON_AELockMode, /* 0xD05E */ N_("Exposure Lock")}, {PTP_DPC_NIKON_AELAFLMode, /* 0xD05F */ N_("Focus Lock")}, {PTP_DPC_NIKON_LiveViewAFFocus, /* 0xD061 */ N_("Live View AF Focus")}, {PTP_DPC_NIKON_MeterOff, /* 0xD062 */ N_("Auto Meter Off Time")}, {PTP_DPC_NIKON_SelfTimer, /* 0xD063 */ N_("Self Timer Delay")}, {PTP_DPC_NIKON_MonitorOff, /* 0xD064 */ N_("LCD Off Time")}, {PTP_DPC_NIKON_ImgConfTime, /* 0xD065 */ N_("Img Conf Time")}, {PTP_DPC_NIKON_AutoOffTimers, /* 0xD066 */ N_("Auto Off Timers")}, {PTP_DPC_NIKON_AngleLevel, /* 0xD067 */ N_("Angle Level")}, {PTP_DPC_NIKON_D1ShootingSpeed, /* 0xD068 */ N_("Shooting Speed")}, {PTP_DPC_NIKON_D2MaximumShots, /* 0xD069 */ N_("Maximum Shots")}, {PTP_DPC_NIKON_ExposureDelayMode, /* 0xD06A */ N_("Exposure delay mode")}, {PTP_DPC_NIKON_LongExposureNoiseReduction, /* 0xD06B */ N_("Long Exposure Noise Reduction")}, {PTP_DPC_NIKON_FileNumberSequence, /* 0xD06C */ N_("File Number Sequencing")}, {PTP_DPC_NIKON_ControlPanelFinderRearControl, /* 0xD06D */ "PTP_DPC_NIKON_ControlPanelFinderRearControl"}, {PTP_DPC_NIKON_ControlPanelFinderViewfinder, /* 0xD06E */ "PTP_DPC_NIKON_ControlPanelFinderViewfinder"}, {PTP_DPC_NIKON_D7Illumination, /* 0xD06F */ N_("LCD Illumination")}, {PTP_DPC_NIKON_NrHighISO, /* 0xD070 */ N_("High ISO noise reduction")}, {PTP_DPC_NIKON_SHSET_CH_GUID_DISP, /* 0xD071 */ N_("On screen tips")}, {PTP_DPC_NIKON_ArtistName, /* 0xD072 */ N_("Artist Name")}, {PTP_DPC_NIKON_CopyrightInfo, /* 0xD073 */ N_("Copyright Information")}, {PTP_DPC_NIKON_FlashSyncSpeed, /* 0xD074 */ N_("Flash Sync. Speed")}, {PTP_DPC_NIKON_FlashShutterSpeed, /* 0xD075 */ N_("Flash Shutter Speed")}, {PTP_DPC_NIKON_E3AAFlashMode, /* 0xD076 */ N_("Flash Mode")}, {PTP_DPC_NIKON_E4ModelingFlash, /* 0xD077 */ N_("Modeling Flash")}, {PTP_DPC_NIKON_BracketSet, /* 0xD078 */ N_("Bracket Set")}, {PTP_DPC_NIKON_E6ManualModeBracketing, /* 0xD079 */ N_("Manual Mode Bracketing")}, {PTP_DPC_NIKON_BracketOrder, /* 0xD07A */ N_("Bracket Order")}, {PTP_DPC_NIKON_E8AutoBracketSelection, /* 0xD07B */ N_("Auto Bracket Selection")}, {PTP_DPC_NIKON_BracketingSet, N_("NIKON Auto Bracketing Set")}, /* 0xD07C */ {PTP_DPC_NIKON_F1CenterButtonShootingMode, /* 0xD080 */ N_("Center Button Shooting Mode")}, {PTP_DPC_NIKON_CenterButtonPlaybackMode, /* 0xD081 */ N_("Center Button Playback Mode")}, {PTP_DPC_NIKON_F2Multiselector, /* 0xD082 */ N_("Multiselector")}, {PTP_DPC_NIKON_F3PhotoInfoPlayback, /* 0xD083 */ N_("Photo Info. Playback")}, {PTP_DPC_NIKON_F4AssignFuncButton, /* 0xD084 */ N_("Assign Func. Button")}, {PTP_DPC_NIKON_F5CustomizeCommDials, /* 0xD085 */ N_("Customise Command Dials")}, {PTP_DPC_NIKON_ReverseCommandDial, /* 0xD086 */ N_("Reverse Command Dial")}, {PTP_DPC_NIKON_ApertureSetting, /* 0xD087 */ N_("Aperture Setting")}, {PTP_DPC_NIKON_MenusAndPlayback, /* 0xD088 */ N_("Menus and Playback")}, {PTP_DPC_NIKON_F6ButtonsAndDials, /* 0xD089 */ N_("Buttons and Dials")}, {PTP_DPC_NIKON_NoCFCard, /* 0xD08A */ N_("No CF Card Release")}, {PTP_DPC_NIKON_CenterButtonZoomRatio, /* 0xD08B */ N_("Center Button Zoom Ratio")}, {PTP_DPC_NIKON_FunctionButton2, /* 0xD08C */ N_("Function Button 2")}, {PTP_DPC_NIKON_AFAreaPoint, /* 0xD08D */ N_("AF Area Point")}, {PTP_DPC_NIKON_NormalAFOn, /* 0xD08E */ N_("Normal AF On")}, {PTP_DPC_NIKON_CleanImageSensor, /* 0xD08F */ N_("Clean Image Sensor")}, {PTP_DPC_NIKON_ImageCommentString, /* 0xD090 */ N_("Image Comment String")}, {PTP_DPC_NIKON_ImageCommentEnable, /* 0xD091 */ N_("Image Comment Enable")}, {PTP_DPC_NIKON_ImageRotation, /* 0xD092 */ N_("Image Rotation")}, {PTP_DPC_NIKON_ManualSetLensNo, /* 0xD093 */ N_("Manual Set Lens Number")}, {PTP_DPC_NIKON_MovScreenSize, /* 0xD0A0 */ N_("Movie Screen Size")}, {PTP_DPC_NIKON_MovVoice, /* 0xD0A1 */ N_("Movie Voice")}, {PTP_DPC_NIKON_MovMicrophone, /* 0xD0A2 */ N_("Movie Microphone")}, {PTP_DPC_NIKON_MovFileSlot, /* 0xD0A3 */ N_("Movie Card Slot")}, {PTP_DPC_NIKON_ManualMovieSetting, /* 0xD0A6 */ N_("Manual Movie Setting")}, {PTP_DPC_NIKON_MovQuality, /* 0xD0A7 */ N_("Movie Quality")}, {PTP_DPC_NIKON_MonitorOffDelay, /* 0xD0B3 */ N_("Monitor Off Delay")}, {PTP_DPC_NIKON_Bracketing, /* 0xD0C0 */ N_("Bracketing Enable")}, {PTP_DPC_NIKON_AutoExposureBracketStep, /* 0xD0C1 */ N_("Exposure Bracketing Step")}, {PTP_DPC_NIKON_AutoExposureBracketProgram, /* 0xD0C2 */ N_("Exposure Bracketing Program")}, {PTP_DPC_NIKON_AutoExposureBracketCount, /* 0xD0C3 */ N_("Auto Exposure Bracket Count")}, {PTP_DPC_NIKON_WhiteBalanceBracketStep, N_("White Balance Bracket Step")}, /* 0xD0C4 */ {PTP_DPC_NIKON_WhiteBalanceBracketProgram, N_("White Balance Bracket Program")}, /* 0xD0C5 */ {PTP_DPC_NIKON_LensID, /* 0xD0E0 */ N_("Lens ID")}, {PTP_DPC_NIKON_LensSort, /* 0xD0E1 */ N_("Lens Sort")}, {PTP_DPC_NIKON_LensType, /* 0xD0E2 */ N_("Lens Type")}, {PTP_DPC_NIKON_FocalLengthMin, /* 0xD0E3 */ N_("Min. Focal Length")}, {PTP_DPC_NIKON_FocalLengthMax, /* 0xD0E4 */ N_("Max. Focal Length")}, {PTP_DPC_NIKON_MaxApAtMinFocalLength, /* 0xD0E5 */ N_("Max. Aperture at Min. Focal Length")}, {PTP_DPC_NIKON_MaxApAtMaxFocalLength, /* 0xD0E6 */ N_("Max. Aperture at Max. Focal Length")}, {PTP_DPC_NIKON_FinderISODisp, /* 0xD0F0 */ N_("Finder ISO Display")}, {PTP_DPC_NIKON_AutoOffPhoto, /* 0xD0F2 */ N_("Auto Off Photo")}, {PTP_DPC_NIKON_AutoOffMenu, /* 0xD0F3 */ N_("Auto Off Menu")}, {PTP_DPC_NIKON_AutoOffInfo, /* 0xD0F4 */ N_("Auto Off Info")}, {PTP_DPC_NIKON_SelfTimerShootNum, /* 0xD0F5 */ N_("Self Timer Shot Number")}, {PTP_DPC_NIKON_VignetteCtrl, /* 0xD0F7 */ N_("Vignette Control")}, {PTP_DPC_NIKON_AutoDistortionControl, /* 0xD0F8 */ N_("Auto Distortion Control")}, {PTP_DPC_NIKON_SceneMode, /* 0xD0F9 */ N_("Scene Mode")}, {PTP_DPC_NIKON_ExposureTime, /* 0xD100 */ N_("Nikon Exposure Time")}, {PTP_DPC_NIKON_ACPower, N_("AC Power")}, /* 0xD101 */ {PTP_DPC_NIKON_WarningStatus, N_("Warning Status")},/* 0xD102 */ {PTP_DPC_NIKON_MaximumShots, /* 0xD103 */ N_("Maximum Shots")}, {PTP_DPC_NIKON_AFLockStatus, N_("AF Locked")},/* 0xD104 */ {PTP_DPC_NIKON_AELockStatus, N_("AE Locked")},/* 0xD105 */ {PTP_DPC_NIKON_FVLockStatus, N_("FV Locked")},/* 0xD106 */ {PTP_DPC_NIKON_AutofocusLCDTopMode2, /* 0xD107 */ N_("AF LCD Top Mode 2")}, {PTP_DPC_NIKON_AutofocusArea, /* 0xD108 */ N_("Active AF Sensor")}, {PTP_DPC_NIKON_FlexibleProgram, /* 0xD109 */ N_("Flexible Program")}, {PTP_DPC_NIKON_LightMeter, /* 0xD10A */ N_("Exposure Meter")}, {PTP_DPC_NIKON_RecordingMedia, /* 0xD10B */ N_("Recording Media")}, {PTP_DPC_NIKON_USBSpeed, /* 0xD10C */ N_("USB Speed")}, {PTP_DPC_NIKON_CCDNumber, /* 0xD10D */ N_("CCD Serial Number")}, {PTP_DPC_NIKON_CameraOrientation, /* 0xD10E */ N_("Camera Orientation")}, {PTP_DPC_NIKON_GroupPtnType, /* 0xD10F */ N_("Group PTN Type")}, {PTP_DPC_NIKON_FNumberLock, /* 0xD110 */ N_("FNumber Lock")}, {PTP_DPC_NIKON_ExposureApertureLock, /* 0xD111 */ N_("Exposure Aperture Lock")}, {PTP_DPC_NIKON_TVLockSetting, /* 0xD112 */ N_("TV Lock Setting")}, {PTP_DPC_NIKON_AVLockSetting, /* 0xD113 */ N_("AV Lock Setting")}, {PTP_DPC_NIKON_IllumSetting, /* 0xD114 */ N_("Illum Setting")}, {PTP_DPC_NIKON_FocusPointBright, /* 0xD115 */ N_("Focus Point Bright")}, {PTP_DPC_NIKON_ExternalFlashAttached, /* 0xD120 */ N_("External Flash Attached")}, {PTP_DPC_NIKON_ExternalFlashStatus, /* 0xD121 */ N_("External Flash Status")}, {PTP_DPC_NIKON_ExternalFlashSort, /* 0xD122 */ N_("External Flash Sort")}, {PTP_DPC_NIKON_ExternalFlashMode, /* 0xD123 */ N_("External Flash Mode")}, {PTP_DPC_NIKON_ExternalFlashCompensation, /* 0xD124 */ N_("External Flash Compensation")}, {PTP_DPC_NIKON_NewExternalFlashMode, /* 0xD125 */ N_("External Flash Mode")}, {PTP_DPC_NIKON_FlashExposureCompensation, /* 0xD126 */ N_("Flash Exposure Compensation")}, {PTP_DPC_NIKON_HDRMode, /* 0xD130 */ N_("HDR Mode")}, {PTP_DPC_NIKON_HDRHighDynamic, /* 0xD131 */ N_("HDR High Dynamic")}, {PTP_DPC_NIKON_HDRSmoothing, /* 0xD132 */ N_("HDR Smoothing")}, {PTP_DPC_NIKON_OptimizeImage, /* 0xD140 */ N_("Optimize Image")}, {PTP_DPC_NIKON_Saturation, /* 0xD142 */ N_("Saturation")}, {PTP_DPC_NIKON_BW_FillerEffect, /* 0xD143 */ N_("BW Filler Effect")}, {PTP_DPC_NIKON_BW_Sharpness, /* 0xD144 */ N_("BW Sharpness")}, {PTP_DPC_NIKON_BW_Contrast, /* 0xD145 */ N_("BW Contrast")}, {PTP_DPC_NIKON_BW_Setting_Type, /* 0xD146 */ N_("BW Setting Type")}, {PTP_DPC_NIKON_Slot2SaveMode, /* 0xD148 */ N_("Slot 2 Save Mode")}, {PTP_DPC_NIKON_RawBitMode, /* 0xD149 */ N_("Raw Bit Mode")}, {PTP_DPC_NIKON_ActiveDLighting, /* 0xD14E */ N_("Active D-Lighting")}, {PTP_DPC_NIKON_FlourescentType, /* 0xD14F */ N_("Flourescent Type")}, {PTP_DPC_NIKON_TuneColourTemperature, /* 0xD150 */ N_("Tune Colour Temperature")}, {PTP_DPC_NIKON_TunePreset0, /* 0xD151 */ N_("Tune Preset 0")}, {PTP_DPC_NIKON_TunePreset1, /* 0xD152 */ N_("Tune Preset 1")}, {PTP_DPC_NIKON_TunePreset2, /* 0xD153 */ N_("Tune Preset 2")}, {PTP_DPC_NIKON_TunePreset3, /* 0xD154 */ N_("Tune Preset 3")}, {PTP_DPC_NIKON_TunePreset4, /* 0xD155 */ N_("Tune Preset 4")}, {PTP_DPC_NIKON_BeepOff, /* 0xD160 */ N_("AF Beep Mode")}, {PTP_DPC_NIKON_AutofocusMode, /* 0xD161 */ N_("Autofocus Mode")}, {PTP_DPC_NIKON_AFAssist, /* 0xD163 */ N_("AF Assist Lamp")}, {PTP_DPC_NIKON_PADVPMode, /* 0xD164 */ N_("Auto ISO P/A/DVP Setting")}, {PTP_DPC_NIKON_ImageReview, /* 0xD165 */ N_("Image Review")}, {PTP_DPC_NIKON_AFAreaIllumination, /* 0xD166 */ N_("AF Area Illumination")}, {PTP_DPC_NIKON_FlashMode, /* 0xD167 */ N_("Flash Mode")}, {PTP_DPC_NIKON_FlashCommanderMode, /* 0xD168 */ N_("Flash Commander Mode")}, {PTP_DPC_NIKON_FlashSign, /* 0xD169 */ N_("Flash Sign")}, {PTP_DPC_NIKON_ISO_Auto, /* 0xD16A */ N_("ISO Auto")}, {PTP_DPC_NIKON_RemoteTimeout, /* 0xD16B */ N_("Remote Timeout")}, {PTP_DPC_NIKON_GridDisplay, /* 0xD16C */ N_("Viewfinder Grid Display")}, {PTP_DPC_NIKON_FlashModeManualPower, /* 0xD16D */ N_("Flash Mode Manual Power")}, {PTP_DPC_NIKON_FlashModeCommanderPower, /* 0xD16E */ N_("Flash Mode Commander Power")}, {PTP_DPC_NIKON_AutoFP, /* 0xD16F */ N_("Auto FP")}, {PTP_DPC_NIKON_CSMMenu, /* 0xD180 */ N_("CSM Menu")}, {PTP_DPC_NIKON_WarningDisplay, /* 0xD181 */ N_("Warning Display")}, {PTP_DPC_NIKON_BatteryCellKind, /* 0xD182 */ N_("Battery Cell Kind")}, {PTP_DPC_NIKON_ISOAutoHiLimit, /* 0xD183 */ N_("ISO Auto High Limit")}, {PTP_DPC_NIKON_DynamicAFArea, /* 0xD184 */ N_("Dynamic AF Area")}, {PTP_DPC_NIKON_ContinuousSpeedHigh, /* 0xD186 */ N_("Continuous Speed High")}, {PTP_DPC_NIKON_InfoDispSetting, /* 0xD187 */ N_("Info Disp Setting")}, {PTP_DPC_NIKON_PreviewButton, /* 0xD189 */ N_("Preview Button")}, {PTP_DPC_NIKON_PreviewButton2, /* 0xD18A */ N_("Preview Button 2")}, {PTP_DPC_NIKON_AEAFLockButton2, /* 0xD18B */ N_("AEAF Lock Button 2")}, {PTP_DPC_NIKON_IndicatorDisp, /* 0xD18D */ N_("Indicator Display")}, {PTP_DPC_NIKON_CellKindPriority, /* 0xD18E */ N_("Cell Kind Priority")}, {PTP_DPC_NIKON_BracketingFramesAndSteps, /* 0xD190 */ N_("Bracketing Frames and Steps")}, {PTP_DPC_NIKON_LiveViewMode, /* 0xD1A0 */ N_("Live View Mode")}, {PTP_DPC_NIKON_LiveViewDriveMode, /* 0xD1A1 */ N_("Live View Drive Mode")}, {PTP_DPC_NIKON_LiveViewStatus, /* 0xD1A2 */ N_("Live View Status")}, {PTP_DPC_NIKON_LiveViewImageZoomRatio, /* 0xD1A3 */ N_("Live View Image Zoom Ratio")}, {PTP_DPC_NIKON_LiveViewProhibitCondition, /* 0xD1A4 */ N_("Live View Prohibit Condition")}, {PTP_DPC_NIKON_ExposureDisplayStatus, /* 0xD1B0 */ N_("Exposure Display Status")}, {PTP_DPC_NIKON_ExposureIndicateStatus, /* 0xD1B1 */ N_("Exposure Indicate Status")}, {PTP_DPC_NIKON_InfoDispErrStatus, /* 0xD1B2 */ N_("Info Display Error Status")}, {PTP_DPC_NIKON_ExposureIndicateLightup, /* 0xD1B3 */ N_("Exposure Indicate Lightup")}, {PTP_DPC_NIKON_FlashOpen, /* 0xD1C0 */ N_("Flash Open")}, {PTP_DPC_NIKON_FlashCharged, /* 0xD1C1 */ N_("Flash Charged")}, {PTP_DPC_NIKON_FlashMRepeatValue, /* 0xD1D0 */ N_("Flash MRepeat Value")}, {PTP_DPC_NIKON_FlashMRepeatCount, /* 0xD1D1 */ N_("Flash MRepeat Count")}, {PTP_DPC_NIKON_FlashMRepeatInterval, /* 0xD1D2 */ N_("Flash MRepeat Interval")}, {PTP_DPC_NIKON_FlashCommandChannel, /* 0xD1D3 */ N_("Flash Command Channel")}, {PTP_DPC_NIKON_FlashCommandSelfMode, /* 0xD1D4 */ N_("Flash Command Self Mode")}, {PTP_DPC_NIKON_FlashCommandSelfCompensation, /* 0xD1D5 */ N_("Flash Command Self Compensation")}, {PTP_DPC_NIKON_FlashCommandSelfValue, /* 0xD1D6 */ N_("Flash Command Self Value")}, {PTP_DPC_NIKON_FlashCommandAMode, /* 0xD1D7 */ N_("Flash Command A Mode")}, {PTP_DPC_NIKON_FlashCommandACompensation, /* 0xD1D8 */ N_("Flash Command A Compensation")}, {PTP_DPC_NIKON_FlashCommandAValue, /* 0xD1D9 */ N_("Flash Command A Value")}, {PTP_DPC_NIKON_FlashCommandBMode, /* 0xD1DA */ N_("Flash Command B Mode")}, {PTP_DPC_NIKON_FlashCommandBCompensation, /* 0xD1DB */ N_("Flash Command B Compensation")}, {PTP_DPC_NIKON_FlashCommandBValue, /* 0xD1DC */ N_("Flash Command B Value")}, {PTP_DPC_NIKON_ActivePicCtrlItem, /* 0xD200 */ N_("Active Pic Ctrl Item")}, {PTP_DPC_NIKON_ChangePicCtrlItem, /* 0xD201 */ N_("Change Pic Ctrl Item")}, /* nikon 1 stuff */ {PTP_DPC_NIKON_1_ISO, /* 0xf002 */ N_("ISO")}, {PTP_DPC_NIKON_1_ImageSize, /* 0xf00a */ N_("Image Size")}, {PTP_DPC_NIKON_1_LongExposureNoiseReduction, /* 0xF00D */ N_("Long Exposure Noise Reduction")}, {PTP_DPC_NIKON_1_MovQuality, /* 0xF01C */ N_("Movie Quality")}, {PTP_DPC_NIKON_1_HiISONoiseReduction, /* 0xF00E */ N_("High ISO Noise Reduction")}, {PTP_DPC_NIKON_1_WhiteBalance, /* 0xF00C */ N_("White Balance")}, {PTP_DPC_NIKON_1_ImageCompression, /* 0xF009 */ N_("Image Compression")}, {PTP_DPC_NIKON_1_ActiveDLighting, /* 0xF00F */ N_("Active D-Lighting")}, {0,NULL} }; struct { uint16_t dpc; const char *txt; } ptp_device_properties_MTP[] = { {PTP_DPC_MTP_SecureTime, N_("Secure Time")}, /* D101 */ {PTP_DPC_MTP_DeviceCertificate, N_("Device Certificate")}, /* D102 */ {PTP_DPC_MTP_RevocationInfo, N_("Revocation Info")}, /* D103 */ {PTP_DPC_MTP_SynchronizationPartner, /* D401 */ N_("Synchronization Partner")}, {PTP_DPC_MTP_DeviceFriendlyName, /* D402 */ N_("Friendly Device Name")}, {PTP_DPC_MTP_VolumeLevel, N_("Volume Level")}, /* D403 */ {PTP_DPC_MTP_DeviceIcon, N_("Device Icon")}, /* D405 */ {PTP_DPC_MTP_SessionInitiatorInfo, N_("Session Initiator Info")},/* D406 */ {PTP_DPC_MTP_PerceivedDeviceType, N_("Perceived Device Type")},/* D407 */ {PTP_DPC_MTP_PlaybackRate, N_("Playback Rate")}, /* D410 */ {PTP_DPC_MTP_PlaybackObject, N_("Playback Object")}, /* D411 */ {PTP_DPC_MTP_PlaybackContainerIndex, /* D412 */ N_("Playback Container Index")}, {PTP_DPC_MTP_PlaybackPosition, N_("Playback Position")}, /* D413 */ {PTP_DPC_MTP_PlaysForSureID, N_("PlaysForSure ID")}, /* D131 (?) */ {0,NULL} }; struct { uint16_t dpc; const char *txt; } ptp_device_properties_FUJI[] = { {PTP_DPC_FUJI_ColorTemperature, N_("Color Temperature")}, /* 0xD017 */ {PTP_DPC_FUJI_Quality, N_("Quality")}, /* 0xD018 */ {PTP_DPC_FUJI_Quality, N_("Release Mode")}, /* 0xD201 */ {PTP_DPC_FUJI_Quality, N_("Focus Areas")}, /* 0xD206 */ {PTP_DPC_FUJI_Quality, N_("AE Lock")}, /* 0xD213 */ {PTP_DPC_FUJI_Quality, N_("Aperture")}, /* 0xD218 */ {PTP_DPC_FUJI_Quality, N_("Shutter Speed")}, /* 0xD219 */ {0,NULL} }; struct { uint16_t dpc; const char *txt; } ptp_device_properties_SONY[] = { {PTP_DPC_SONY_DPCCompensation, ("DOC Compensation")}, /* 0xD200 */ {PTP_DPC_SONY_DRangeOptimize, ("DRangeOptimize")}, /* 0xD201 */ {PTP_DPC_SONY_ImageSize, N_("Image size")}, /* 0xD203 */ {PTP_DPC_SONY_ShutterSpeed, N_("Shutter speed")}, /* 0xD20D */ {PTP_DPC_SONY_ColorTemp, N_("Color temperature")}, /* 0xD20F */ {PTP_DPC_SONY_CCFilter, ("CC Filter")}, /* 0xD210 */ {PTP_DPC_SONY_AspectRatio, N_("Aspect Ratio")}, /* 0xD211 */ {PTP_DPC_SONY_FocusFound, N_("Focus status")}, /* 0xD213 */ {PTP_DPC_SONY_ObjectInMemory, N_("Objects in memory")}, /* 0xD215 */ {PTP_DPC_SONY_ExposeIndex, N_("Expose Index")}, /* 0xD216 */ {PTP_DPC_SONY_BatteryLevel, N_("Battery Level")}, /* 0xD218 */ {PTP_DPC_SONY_PictureEffect, N_("Picture Effect")}, /* 0xD21B */ {PTP_DPC_SONY_ABFilter, N_("AB Filter")}, /* 0xD21C */ {PTP_DPC_SONY_ISO, N_("ISO")}, /* 0xD21E */ {PTP_DPC_SONY_Movie, N_("Movie")}, /* 0xD2C8 */ {PTP_DPC_SONY_StillImage, N_("Still Image")}, /* 0xD2C7 */ {0,NULL} }; struct { uint16_t dpc; const char *txt; } ptp_device_properties_PARROT[] = { {PTP_DPC_PARROT_PhotoSensorEnableMask, "PhotoSensorEnableMask"}, /* 0xD201 */ {PTP_DPC_PARROT_PhotoSensorsKeepOn, "PhotoSensorsKeepOn"}, /* 0xD202 */ {PTP_DPC_PARROT_MultispectralImageSize, "MultispectralImageSize"}, /* 0xD203 */ {PTP_DPC_PARROT_MainBitDepth, "MainBitDepth"}, /* 0xD204 */ {PTP_DPC_PARROT_MultispectralBitDepth, "MultispectralBitDepth"}, /* 0xD205 */ {PTP_DPC_PARROT_HeatingEnable, "HeatingEnable"}, /* 0xD206 */ {PTP_DPC_PARROT_WifiStatus, "WifiStatus"}, /* 0xD207 */ {PTP_DPC_PARROT_WifiSSID, "WifiSSID"}, /* 0xD208 */ {PTP_DPC_PARROT_WifiEncryptionType, "WifiEncryptionType"}, /* 0xD209 */ {PTP_DPC_PARROT_WifiPassphrase, "WifiPassphrase"}, /* 0xD20A */ {PTP_DPC_PARROT_WifiChannel, "WifiChannel"}, /* 0xD20B */ {PTP_DPC_PARROT_Localization, "Localization"}, /* 0xD20C */ {PTP_DPC_PARROT_WifiMode, "WifiMode"}, /* 0xD20D */ {PTP_DPC_PARROT_AntiFlickeringFrequency, "AntiFlickeringFrequency"}, /* 0xD210 */ {PTP_DPC_PARROT_DisplayOverlayMask, "DisplayOverlayMask"}, /* 0xD211 */ {PTP_DPC_PARROT_GPSInterval, "GPSInterval"}, /* 0xD212 */ {PTP_DPC_PARROT_MultisensorsExposureMeteringMode,"MultisensorsExposureMeteringMode"}, /* 0xD213 */ {PTP_DPC_PARROT_MultisensorsExposureTime, "MultisensorsExposureTime"}, /* 0xD214 */ {PTP_DPC_PARROT_MultisensorsExposureProgramMode,"MultisensorsExposureProgramMode"}, /* 0xD215 */ {PTP_DPC_PARROT_MultisensorsExposureIndex, "MultisensorsExposureIndex"}, /* 0xD216 */ {PTP_DPC_PARROT_MultisensorsIrradianceGain, "MultisensorsIrradianceGain"}, /* 0xD217 */ {PTP_DPC_PARROT_MultisensorsIrradianceIntegrationTime,"MultisensorsIrradianceIntegrationTime"}, /* 0xD218 */ {PTP_DPC_PARROT_OverlapRate, "OverlapRate"}, /* 0xD219 */ {0,NULL} }; for (i=0; ptp_device_properties[i].txt!=NULL; i++) if (ptp_device_properties[i].dpc==dpc) return (ptp_device_properties[i].txt); if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_MICROSOFT || params->deviceinfo.VendorExtensionID==PTP_VENDOR_MTP) for (i=0; ptp_device_properties_MTP[i].txt!=NULL; i++) if (ptp_device_properties_MTP[i].dpc==dpc) return (ptp_device_properties_MTP[i].txt); if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_EASTMAN_KODAK) for (i=0; ptp_device_properties_EK[i].txt!=NULL; i++) if (ptp_device_properties_EK[i].dpc==dpc) return (ptp_device_properties_EK[i].txt); if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_CANON) for (i=0; ptp_device_properties_Canon[i].txt!=NULL; i++) if (ptp_device_properties_Canon[i].dpc==dpc) return (ptp_device_properties_Canon[i].txt); if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_NIKON) for (i=0; ptp_device_properties_Nikon[i].txt!=NULL; i++) if (ptp_device_properties_Nikon[i].dpc==dpc) return (ptp_device_properties_Nikon[i].txt); if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_FUJI) for (i=0; ptp_device_properties_FUJI[i].txt!=NULL; i++) if (ptp_device_properties_FUJI[i].dpc==dpc) return (ptp_device_properties_FUJI[i].txt); if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_SONY) for (i=0; ptp_device_properties_SONY[i].txt!=NULL; i++) if (ptp_device_properties_SONY[i].dpc==dpc) return (ptp_device_properties_SONY[i].txt); if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_PARROT) for (i=0; ptp_device_properties_PARROT[i].txt!=NULL; i++) if (ptp_device_properties_PARROT[i].dpc==dpc) return (ptp_device_properties_PARROT[i].txt); return NULL; } static int64_t _value_to_num(PTPPropertyValue *data, uint16_t dt) { if (dt == PTP_DTC_STR) { if (!data->str) return 0; return atol(data->str); } if (dt & PTP_DTC_ARRAY_MASK) { return 0; } else { switch (dt) { case PTP_DTC_UNDEF: return 0; case PTP_DTC_INT8: return data->i8; case PTP_DTC_UINT8: return data->u8; case PTP_DTC_INT16: return data->i16; case PTP_DTC_UINT16: return data->u16; case PTP_DTC_INT32: return data->i32; case PTP_DTC_UINT32: return data->u32; /* PTP_DTC_INT64 PTP_DTC_UINT64 PTP_DTC_INT128 PTP_DTC_UINT128 */ default: return 0; } } return 0; } #define PTP_VAL_BOOL(dpc) {dpc, 0, N_("Off")}, {dpc, 1, N_("On")} #define PTP_VENDOR_VAL_BOOL(dpc,vendor) {dpc, vendor, 0, N_("Off")}, {dpc, vendor, 1, N_("On")} #define PTP_VENDOR_VAL_RBOOL(dpc,vendor) {dpc, vendor, 0, N_("On")}, {dpc, vendor, 1, N_("Off")} #define PTP_VENDOR_VAL_YN(dpc,vendor) {dpc, vendor, 0, N_("No")}, {dpc, vendor, 1, N_("Yes")} int ptp_render_property_value(PTPParams* params, uint16_t dpc, PTPDevicePropDesc *dpd, unsigned int length, char *out) { unsigned int i; int64_t kval; struct { uint16_t dpc; uint16_t vendor; double coef; double bias; const char *format; } ptp_value_trans[] = { {PTP_DPC_BatteryLevel, 0, 1.0, 0.0, "%.0f%%"}, /* 5001 */ {PTP_DPC_FNumber, 0, 0.01, 0.0, "f/%.2g"}, /* 5007 */ {PTP_DPC_FocalLength, 0, 0.01, 0.0, "%.0f mm"}, /* 5008 */ {PTP_DPC_FocusDistance, 0, 0.01, 0.0, "%.0f mm"}, /* 5009 */ {PTP_DPC_ExposureTime, 0, 0.00001, 0.0, "%.2g sec"}, /* 500D */ {PTP_DPC_ExposureIndex, 0, 1.0, 0.0, "ISO %.0f"}, /* 500F */ {PTP_DPC_ExposureBiasCompensation, 0, 0.001, 0.0, N_("%.1f stops")},/* 5010 */ {PTP_DPC_CaptureDelay, 0, 0.001, 0.0, "%.1fs"}, /* 5012 */ {PTP_DPC_DigitalZoom, 0, 0.1, 0.0, "%.1f"}, /* 5016 */ {PTP_DPC_BurstInterval, 0, 0.001, 0.0, "%.1fs"}, /* 5019 */ /* Nikon device properties */ {PTP_DPC_NIKON_LightMeter, PTP_VENDOR_NIKON, 0.08333, 0.0, N_("%.1f stops")},/* D10A */ {PTP_DPC_NIKON_FlashExposureCompensation, PTP_VENDOR_NIKON, 0.16666, 0.0, N_("%.1f stops")}, /* D126 */ {PTP_DPC_NIKON_CenterWeightArea, PTP_VENDOR_NIKON, 2.0, 6.0, N_("%.0f mm")},/* D059 */ {PTP_DPC_NIKON_FocalLengthMin, PTP_VENDOR_NIKON, 0.01, 0.0, "%.0f mm"}, /* D0E3 */ {PTP_DPC_NIKON_FocalLengthMax, PTP_VENDOR_NIKON, 0.01, 0.0, "%.0f mm"}, /* D0E4 */ {PTP_DPC_NIKON_MaxApAtMinFocalLength, PTP_VENDOR_NIKON, 0.01, 0.0, "f/%.2g"}, /* D0E5 */ {PTP_DPC_NIKON_MaxApAtMaxFocalLength, PTP_VENDOR_NIKON, 0.01, 0.0, "f/%.2g"}, /* D0E6 */ {PTP_DPC_NIKON_ExternalFlashCompensation, PTP_VENDOR_NIKON, 1.0/6.0, 0.0,"%.0f"}, /* D124 */ {PTP_DPC_NIKON_ExposureIndicateStatus, PTP_VENDOR_NIKON, 0.08333, 0.0, N_("%.1f stops")},/* D1B1 - FIXME: check if correct. */ {PTP_DPC_NIKON_AngleLevel, PTP_VENDOR_NIKON, 1.0/65536, 0.0, "%.1f'"},/* 0xD067 */ {0, 0, 0.0, 0.0, NULL} }; struct { uint16_t dpc; uint16_t vendor; int64_t key; char *value; } ptp_value_list[] = { {PTP_DPC_CompressionSetting, 0, 0, N_("JPEG Basic")}, /* 5004 */ {PTP_DPC_CompressionSetting, 0, 1, N_("JPEG Norm")}, {PTP_DPC_CompressionSetting, 0, 2, N_("JPEG Fine")}, {PTP_DPC_CompressionSetting, 0, 4, N_("RAW")}, {PTP_DPC_CompressionSetting, 0, 5, N_("RAW + JPEG Basic")}, {PTP_DPC_WhiteBalance, 0, 1, N_("Manual")}, {PTP_DPC_WhiteBalance, 0, 2, N_("Automatic")}, /* 5005 */ {PTP_DPC_WhiteBalance, 0, 3, N_("One-push Automatic")}, {PTP_DPC_WhiteBalance, 0, 4, N_("Daylight")}, {PTP_DPC_WhiteBalance, 0, 5, N_("Fluorescent")}, {PTP_DPC_WhiteBalance, 0, 6, N_("Incandescent")}, {PTP_DPC_WhiteBalance, 0, 7, N_("Flash")}, {PTP_DPC_WhiteBalance, PTP_VENDOR_NIKON, 32784, N_("Cloudy")}, {PTP_DPC_WhiteBalance, PTP_VENDOR_NIKON, 32785, N_("Shade")}, {PTP_DPC_WhiteBalance, PTP_VENDOR_NIKON, 32786, N_("Color Temperature")}, {PTP_DPC_WhiteBalance, PTP_VENDOR_NIKON, 32787, N_("Preset")}, {PTP_DPC_FocusMode, 0, 1, N_("Manual Focus")}, /* 500A */ {PTP_DPC_FocusMode, 0, 2, N_("Automatic")}, {PTP_DPC_FocusMode, 0, 3, N_("Automatic Macro (close-up)")}, {PTP_DPC_FocusMode, PTP_VENDOR_NIKON, 32784, "AF-S"}, {PTP_DPC_FocusMode, PTP_VENDOR_NIKON, 32785, "AF-C"}, {PTP_DPC_FocusMode, PTP_VENDOR_NIKON, 32786, "AF-A"}, {PTP_DPC_ExposureMeteringMode, 0, 1, N_("Average")}, /* 500B */ {PTP_DPC_ExposureMeteringMode, 0, 2, N_("Center Weighted Average")}, {PTP_DPC_ExposureMeteringMode, 0, 3, N_("Multi-spot")}, {PTP_DPC_ExposureMeteringMode, 0, 4, N_("Center-spot")}, {PTP_DPC_FlashMode, 0, 0, N_("Undefined")}, /* 500C */ {PTP_DPC_FlashMode, 0, 1, N_("Automatic flash")}, {PTP_DPC_FlashMode, 0, 2, N_("Flash off")}, {PTP_DPC_FlashMode, 0, 3, N_("Fill flash")}, {PTP_DPC_FlashMode, 0, 4, N_("Automatic Red-eye Reduction")}, {PTP_DPC_FlashMode, 0, 5, N_("Red-eye fill flash")}, {PTP_DPC_FlashMode, 0, 6, N_("External sync")}, {PTP_DPC_FlashMode, PTP_VENDOR_NIKON, 32784, N_("Auto")}, {PTP_DPC_FlashMode, PTP_VENDOR_NIKON, 32785, N_("Auto Slow Sync")}, {PTP_DPC_FlashMode, PTP_VENDOR_NIKON, 32786, N_("Rear Curtain Sync + Slow Sync")}, {PTP_DPC_FlashMode, PTP_VENDOR_NIKON, 32787, N_("Red-eye Reduction + Slow Sync")}, {PTP_DPC_ExposureProgramMode, 0, 1, "M"}, /* 500E */ {PTP_DPC_ExposureProgramMode, 0, 3, "A"}, {PTP_DPC_ExposureProgramMode, 0, 4, "S"}, {PTP_DPC_ExposureProgramMode, 0, 2, "P"}, {PTP_DPC_ExposureProgramMode, PTP_VENDOR_NIKON, 32784, N_("Auto")}, {PTP_DPC_ExposureProgramMode, PTP_VENDOR_NIKON, 32785, N_("Portrait")}, {PTP_DPC_ExposureProgramMode, PTP_VENDOR_NIKON, 32786, N_("Landscape")}, {PTP_DPC_ExposureProgramMode, PTP_VENDOR_NIKON, 32787, N_("Macro")}, {PTP_DPC_ExposureProgramMode, PTP_VENDOR_NIKON, 32788, N_("Sports")}, {PTP_DPC_ExposureProgramMode, PTP_VENDOR_NIKON, 32790, N_("Night Landscape")}, {PTP_DPC_ExposureProgramMode, PTP_VENDOR_NIKON, 32789, N_("Night Portrait")}, {PTP_DPC_StillCaptureMode, 0, 1, N_("Single Shot")}, /* 5013 */ {PTP_DPC_StillCaptureMode, 0, 2, N_("Power Wind")}, {PTP_DPC_StillCaptureMode, 0, 3, N_("Timelapse")}, {PTP_DPC_StillCaptureMode, PTP_VENDOR_NIKON, 32784, N_("Continuous Low Speed")}, {PTP_DPC_StillCaptureMode, PTP_VENDOR_NIKON, 32785, N_("Timer")}, {PTP_DPC_StillCaptureMode, PTP_VENDOR_NIKON, 32787, N_("Remote")}, {PTP_DPC_StillCaptureMode, PTP_VENDOR_NIKON, 32787, N_("Mirror Up")}, {PTP_DPC_StillCaptureMode, PTP_VENDOR_NIKON, 32788, N_("Timer + Remote")}, {PTP_DPC_FocusMeteringMode, 0, 1, N_("Centre-spot")}, /* 501C */ {PTP_DPC_FocusMeteringMode, 0, 2, N_("Multi-spot")}, {PTP_DPC_FocusMeteringMode, PTP_VENDOR_NIKON, 32784, N_("Single Area")}, {PTP_DPC_FocusMeteringMode, PTP_VENDOR_NIKON, 32785, N_("Closest Subject")}, {PTP_DPC_FocusMeteringMode, PTP_VENDOR_NIKON, 32786, N_("Group Dynamic")}, /* Nikon specific device properties */ {PTP_DPC_NIKON_ImageSharpening, PTP_VENDOR_NIKON, 0, N_("Auto")}, /* D02A */ {PTP_DPC_NIKON_ImageSharpening, PTP_VENDOR_NIKON, 1, N_("Normal")}, {PTP_DPC_NIKON_ImageSharpening, PTP_VENDOR_NIKON, 2, N_("Low")}, {PTP_DPC_NIKON_ImageSharpening, PTP_VENDOR_NIKON, 3, N_("Medium Low")}, {PTP_DPC_NIKON_ImageSharpening, PTP_VENDOR_NIKON, 4, N_("Medium high")}, {PTP_DPC_NIKON_ImageSharpening, PTP_VENDOR_NIKON, 5, N_("High")}, {PTP_DPC_NIKON_ImageSharpening, PTP_VENDOR_NIKON, 6, N_("None")}, {PTP_DPC_NIKON_ToneCompensation, PTP_VENDOR_NIKON, 0, N_("Auto")}, /* D02B */ {PTP_DPC_NIKON_ToneCompensation, PTP_VENDOR_NIKON, 1, N_("Normal")}, {PTP_DPC_NIKON_ToneCompensation, PTP_VENDOR_NIKON, 2, N_("Low contrast")}, {PTP_DPC_NIKON_ToneCompensation, PTP_VENDOR_NIKON, 3, N_("Medium Low")}, {PTP_DPC_NIKON_ToneCompensation, PTP_VENDOR_NIKON, 4, N_("Medium High")}, {PTP_DPC_NIKON_ToneCompensation, PTP_VENDOR_NIKON, 5, N_("High control")}, {PTP_DPC_NIKON_ToneCompensation, PTP_VENDOR_NIKON, 6, N_("Custom")}, {PTP_DPC_NIKON_ColorModel, PTP_VENDOR_NIKON, 0, "sRGB"}, /* D02C */ {PTP_DPC_NIKON_ColorModel, PTP_VENDOR_NIKON, 1, "AdobeRGB"}, {PTP_DPC_NIKON_ColorModel, PTP_VENDOR_NIKON, 2, "sRGB"}, PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_AutoDXCrop,PTP_VENDOR_NIKON), /* D033 */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_FocusAreaWrap,PTP_VENDOR_NIKON), /* D04F */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_EnableCopyright,PTP_VENDOR_NIKON), /* D053 */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_ISOAuto,PTP_VENDOR_NIKON), /* D054 */ /* FIXME! this is not ISO Auto (which is a bool) Perhaps ISO Auto Time?*/ {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 0, "1/125"}, /* D054 */ {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 1, "1/60"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 2, "1/30"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 3, "1/15"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 4, "1/8"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 5, "1/4"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 6, "1/2"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 7, "1"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 8, "2"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 9, "4"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 10, "8"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 11, "15"}, {PTP_DPC_NIKON_ISOAuto, PTP_VENDOR_NIKON, 12, "30"}, {PTP_DPC_NIKON_EVStep, PTP_VENDOR_NIKON, 0, "1/3"}, /* D056 */ {PTP_DPC_NIKON_EVStep, PTP_VENDOR_NIKON, 1, "1/2"}, PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_ExposureCompensation,PTP_VENDOR_NIKON),/*D058 */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_AELockMode,PTP_VENDOR_NIKON), /* D05E */ {PTP_DPC_NIKON_AELAFLMode, PTP_VENDOR_NIKON, 0, N_("AE/AF Lock")}, /* D05F */ {PTP_DPC_NIKON_AELAFLMode, PTP_VENDOR_NIKON, 1, N_("AF Lock only")}, {PTP_DPC_NIKON_AELAFLMode, PTP_VENDOR_NIKON, 2, N_("AE Lock only")}, {PTP_DPC_NIKON_AELAFLMode, PTP_VENDOR_NIKON, 3, N_("AF Lock Hold")}, {PTP_DPC_NIKON_AELAFLMode, PTP_VENDOR_NIKON, 4, N_("AF On")}, {PTP_DPC_NIKON_AELAFLMode, PTP_VENDOR_NIKON, 5, N_("Flash Lock")}, {PTP_DPC_NIKON_MeterOff, PTP_VENDOR_NIKON, 0, N_("4 seconds")}, /* D062 */ {PTP_DPC_NIKON_MeterOff, PTP_VENDOR_NIKON, 1, N_("6 seconds")}, {PTP_DPC_NIKON_MeterOff, PTP_VENDOR_NIKON, 2, N_("8 seconds")}, {PTP_DPC_NIKON_MeterOff, PTP_VENDOR_NIKON, 3, N_("16 seconds")}, {PTP_DPC_NIKON_MeterOff, PTP_VENDOR_NIKON, 4, N_("30 minutes")}, {PTP_DPC_NIKON_MeterOff, PTP_VENDOR_NIKON, 5, N_("30 seconds")}, {PTP_DPC_NIKON_SelfTimer, PTP_VENDOR_NIKON, 0, N_("2 seconds")}, /* D063 */ {PTP_DPC_NIKON_SelfTimer, PTP_VENDOR_NIKON, 1, N_("5 seconds")}, {PTP_DPC_NIKON_SelfTimer, PTP_VENDOR_NIKON, 2, N_("10 seconds")}, {PTP_DPC_NIKON_SelfTimer, PTP_VENDOR_NIKON, 3, N_("20 seconds")}, {PTP_DPC_NIKON_MonitorOff, PTP_VENDOR_NIKON, 0, N_("10 seconds")}, /* D064 */ {PTP_DPC_NIKON_MonitorOff, PTP_VENDOR_NIKON, 1, N_("20 seconds")}, {PTP_DPC_NIKON_MonitorOff, PTP_VENDOR_NIKON, 2, N_("1 minute")}, {PTP_DPC_NIKON_MonitorOff, PTP_VENDOR_NIKON, 3, N_("5 minutes")}, {PTP_DPC_NIKON_MonitorOff, PTP_VENDOR_NIKON, 4, N_("10 minutes")}, {PTP_DPC_NIKON_MonitorOff, PTP_VENDOR_NIKON, 5, N_("5 seconds")}, /* d80 observed */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_ExposureDelayMode,PTP_VENDOR_NIKON), /* D06A */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_LongExposureNoiseReduction,PTP_VENDOR_NIKON), /* D06B */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_FileNumberSequence,PTP_VENDOR_NIKON), /* D06C */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_D7Illumination,PTP_VENDOR_NIKON), /* D06F */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_SHSET_CH_GUID_DISP,PTP_VENDOR_NIKON), /* D071 */ {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 0, "1/60s"}, /* D075 */ {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 1, "1/30s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 2, "1/15s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 3, "1/8s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 4, "1/4s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 5, "1/2s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 6, "1s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 7, "2s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 8, "4s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 9, "8s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 10, "15s"}, {PTP_DPC_NIKON_FlashShutterSpeed, PTP_VENDOR_NIKON, 11, "30s"}, PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_E4ModelingFlash,PTP_VENDOR_NIKON), /* D077 */ {PTP_DPC_NIKON_BracketSet, PTP_VENDOR_NIKON, 0, N_("AE & Flash")}, /* D078 */ {PTP_DPC_NIKON_BracketSet, PTP_VENDOR_NIKON, 1, N_("AE only")}, {PTP_DPC_NIKON_BracketSet, PTP_VENDOR_NIKON, 2, N_("Flash only")}, {PTP_DPC_NIKON_BracketSet, PTP_VENDOR_NIKON, 3, N_("WB bracketing")}, {PTP_DPC_NIKON_BracketOrder, PTP_VENDOR_NIKON, 0, N_("MTR > Under")}, /* D07A */ {PTP_DPC_NIKON_BracketOrder, PTP_VENDOR_NIKON, 1, N_("Under > MTR")}, {PTP_DPC_NIKON_F1CenterButtonShootingMode, PTP_VENDOR_NIKON, 0, N_("Reset focus point to center")}, /* D080 */ {PTP_DPC_NIKON_F1CenterButtonShootingMode, PTP_VENDOR_NIKON, 1, N_("Highlight active focus point")}, {PTP_DPC_NIKON_F1CenterButtonShootingMode, PTP_VENDOR_NIKON, 2, N_("Unused")}, PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_F3PhotoInfoPlayback,PTP_VENDOR_NIKON),/* D083 */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_F5CustomizeCommDials,PTP_VENDOR_NIKON),/* D085 */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_ReverseCommandDial,PTP_VENDOR_NIKON), /* D086 */ PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_F6ButtonsAndDials,PTP_VENDOR_NIKON), /* D089 */ PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_NoCFCard,PTP_VENDOR_NIKON), /* D08A */ PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_AFAreaPoint,PTP_VENDOR_NIKON), /* D08D */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_ImageCommentEnable,PTP_VENDOR_NIKON), /* D091 */ PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_ImageRotation,PTP_VENDOR_NIKON), /* D092 */ PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_MovVoice,PTP_VENDOR_NIKON), /* D0A1 */ PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_Bracketing,PTP_VENDOR_NIKON), /* D0C0 */ /* http://www.rottmerhusen.com/objektives/lensid/nikkor.html is complete */ {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 0, N_("Unknown")}, /* D0E0 */ {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 38, "Sigma 70-300mm 1:4-5.6 D APO Macro"}, {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 83, "AF Nikkor 80-200mm 1:2.8 D ED"}, {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 118, "AF Nikkor 50mm 1:1.8 D"}, {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 127, "AF-S Nikkor 18-70mm 1:3.5-4.5G ED DX"}, {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 139, "AF-S Nikkor 18-200mm 1:3.5-5.6 GED DX VR"}, {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 147, "AF-S Nikkor 24-70mm 1:2.8G ED DX"}, {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 154, "AF-S Nikkor 18-55mm 1:3.5-F5.6G DX VR"}, {PTP_DPC_NIKON_LensID, PTP_VENDOR_NIKON, 159, "AF-S Nikkor 35mm 1:1.8G DX"}, {PTP_DPC_NIKON_FinderISODisp, PTP_VENDOR_NIKON, 0, "Show ISO sensitivity"},/* 0xD0F0 */ {PTP_DPC_NIKON_FinderISODisp, PTP_VENDOR_NIKON, 1, "Show ISO/Easy ISO"}, {PTP_DPC_NIKON_FinderISODisp, PTP_VENDOR_NIKON, 2, "Show frame count"}, {PTP_DPC_NIKON_RawCompression, PTP_VENDOR_NIKON, 0, N_("Lossless")}, /* D016 */ {PTP_DPC_NIKON_RawCompression, PTP_VENDOR_NIKON, 1, N_("Lossy")}, PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_ACPower,PTP_VENDOR_NIKON), /* D101 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_AFLockStatus,PTP_VENDOR_NIKON), /* D104 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_AELockStatus,PTP_VENDOR_NIKON), /* D105 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_FVLockStatus,PTP_VENDOR_NIKON), /* D106 */ {PTP_DPC_NIKON_AutofocusArea, PTP_VENDOR_NIKON, 0, N_("Centre")}, /* D108 */ {PTP_DPC_NIKON_AutofocusArea, PTP_VENDOR_NIKON, 1, N_("Top")}, {PTP_DPC_NIKON_AutofocusArea, PTP_VENDOR_NIKON, 2, N_("Bottom")}, {PTP_DPC_NIKON_AutofocusArea, PTP_VENDOR_NIKON, 3, N_("Left")}, {PTP_DPC_NIKON_AutofocusArea, PTP_VENDOR_NIKON, 4, N_("Right")}, {PTP_DPC_NIKON_RecordingMedia, PTP_VENDOR_NIKON, 0, N_("Card")}, /* D10B */ {PTP_DPC_NIKON_RecordingMedia, PTP_VENDOR_NIKON, 1, N_("SDRam")}, {PTP_DPC_NIKON_USBSpeed, PTP_VENDOR_NIKON, 0, N_("USB 1.1")}, /* D10C */ {PTP_DPC_NIKON_USBSpeed, PTP_VENDOR_NIKON, 1, N_("USB 2.0")}, {PTP_DPC_NIKON_CameraOrientation, PTP_VENDOR_NIKON, 0, "0'"}, /* D10E */ {PTP_DPC_NIKON_CameraOrientation, PTP_VENDOR_NIKON, 1, "270'"}, {PTP_DPC_NIKON_CameraOrientation, PTP_VENDOR_NIKON, 2, "90'"}, {PTP_DPC_NIKON_CameraOrientation, PTP_VENDOR_NIKON, 3, "180'"}, PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_FNumberLock,PTP_VENDOR_NIKON), /* D110 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_ExposureApertureLock,PTP_VENDOR_NIKON), /* D111 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_TVLockSetting,PTP_VENDOR_NIKON), /* D112 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_AVLockSetting,PTP_VENDOR_NIKON), /* D113 */ {PTP_DPC_NIKON_IllumSetting,PTP_VENDOR_NIKON,0,N_("LCD Backlight")}, /* D114 */ {PTP_DPC_NIKON_IllumSetting,PTP_VENDOR_NIKON,1,N_("LCD Backlight and Info Display")}, PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_ExternalFlashAttached,PTP_VENDOR_NIKON),/* D120 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_ExternalFlashStatus,PTP_VENDOR_NIKON), /* D121 */ {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 0, N_("Normal")}, /* D140 */ {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 1, N_("Vivid")}, {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 2, N_("Sharper")}, {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 3, N_("Softer")}, {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 4, N_("Direct Print")}, {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 5, N_("Portrait")}, {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 6, N_("Landscape")}, {PTP_DPC_NIKON_OptimizeImage, PTP_VENDOR_NIKON, 7, N_("Custom")}, {PTP_DPC_NIKON_Saturation, PTP_VENDOR_NIKON, 0, N_("Normal")}, /* D142 */ {PTP_DPC_NIKON_Saturation, PTP_VENDOR_NIKON, 1, N_("Moderate")}, {PTP_DPC_NIKON_Saturation, PTP_VENDOR_NIKON, 2, N_("Enhanced")}, PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_BeepOff,PTP_VENDOR_NIKON), /* D160 */ {PTP_DPC_NIKON_AutofocusMode, PTP_VENDOR_NIKON, 0, N_("AF-S")}, /* D161 */ {PTP_DPC_NIKON_AutofocusMode, PTP_VENDOR_NIKON, 1, N_("AF-C")}, {PTP_DPC_NIKON_AutofocusMode, PTP_VENDOR_NIKON, 2, N_("AF-A")}, {PTP_DPC_NIKON_AutofocusMode, PTP_VENDOR_NIKON, 3, N_("MF (fixed)")}, {PTP_DPC_NIKON_AutofocusMode, PTP_VENDOR_NIKON, 4, N_("MF (selection)")}, PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_AFAssist,PTP_VENDOR_NIKON), /* D163 */ {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 0, "1/125"}, /* D164 */ {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 1, "1/60"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 2, "1/30"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 3, "1/15"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 4, "1/8"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 5, "1/4"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 6, "1/2"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 7, "1"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 8, "2"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 9, "4"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 10, "8"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 11, "15"}, {PTP_DPC_NIKON_PADVPMode, PTP_VENDOR_NIKON, 12, "30"}, PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_ImageReview,PTP_VENDOR_NIKON), /* D165 */ {PTP_DPC_NIKON_AFAreaIllumination, PTP_VENDOR_NIKON, 0, N_("Auto")}, /* D166 */ {PTP_DPC_NIKON_AFAreaIllumination, PTP_VENDOR_NIKON, 1, N_("Off")}, {PTP_DPC_NIKON_AFAreaIllumination, PTP_VENDOR_NIKON, 2, N_("On")}, {PTP_DPC_NIKON_FlashMode, PTP_VENDOR_NIKON, 0, "iTTL"}, /* D167 */ {PTP_DPC_NIKON_FlashMode, PTP_VENDOR_NIKON, 1, N_("Manual")}, {PTP_DPC_NIKON_FlashMode, PTP_VENDOR_NIKON, 2, N_("Commander")}, {PTP_DPC_NIKON_FlashCommanderMode, PTP_VENDOR_NIKON, 0, N_("TTL")}, /* D168 */ {PTP_DPC_NIKON_FlashCommanderMode, PTP_VENDOR_NIKON, 1, N_("Auto Aperture")}, {PTP_DPC_NIKON_FlashCommanderMode, PTP_VENDOR_NIKON, 2, N_("Full Manual")}, PTP_VENDOR_VAL_RBOOL(PTP_DPC_NIKON_FlashSign,PTP_VENDOR_NIKON), /* D169 */ {PTP_DPC_NIKON_RemoteTimeout, PTP_VENDOR_NIKON, 0, N_("1 min")}, /* D16B */ {PTP_DPC_NIKON_RemoteTimeout, PTP_VENDOR_NIKON, 1, N_("5 mins")}, {PTP_DPC_NIKON_RemoteTimeout, PTP_VENDOR_NIKON, 2, N_("10 mins")}, {PTP_DPC_NIKON_RemoteTimeout, PTP_VENDOR_NIKON, 3, N_("15 mins")}, PTP_VENDOR_VAL_BOOL(PTP_DPC_NIKON_GridDisplay,PTP_VENDOR_NIKON), /* D16C */ {PTP_DPC_NIKON_FlashModeManualPower, PTP_VENDOR_NIKON, 0, N_("Full")}, /* D16D */ {PTP_DPC_NIKON_FlashModeManualPower, PTP_VENDOR_NIKON, 1, "1/2"}, {PTP_DPC_NIKON_FlashModeManualPower, PTP_VENDOR_NIKON, 2, "1/4"}, {PTP_DPC_NIKON_FlashModeManualPower, PTP_VENDOR_NIKON, 3, "1/8"}, {PTP_DPC_NIKON_FlashModeManualPower, PTP_VENDOR_NIKON, 4, "1/16"}, {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 0, N_("Full")},/* D16E */ {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 1, "1/2"}, {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 2, "1/4"}, {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 3, "1/8"}, {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 4, "1/16"}, {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 5, "1/32"}, {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 6, "1/64"}, {PTP_DPC_NIKON_FlashModeCommanderPower, PTP_VENDOR_NIKON, 7, "1/128"}, PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_CSMMenu,PTP_VENDOR_NIKON), /* D180 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_WarningDisplay,PTP_VENDOR_NIKON), /* D181 */ {PTP_DPC_NIKON_BatteryCellKind, PTP_VENDOR_NIKON, 0, "LR6 (AA alkaline)"},/* D182 */ {PTP_DPC_NIKON_BatteryCellKind, PTP_VENDOR_NIKON, 1, "HR6 (AA Ni-Mh)"}, {PTP_DPC_NIKON_BatteryCellKind, PTP_VENDOR_NIKON, 2, "FR6 (AA Lithium)"}, {PTP_DPC_NIKON_BatteryCellKind, PTP_VENDOR_NIKON, 3, "ZR6 (AA Ni-Mn)"}, {PTP_DPC_NIKON_ISOAutoHiLimit, PTP_VENDOR_NIKON, 0, "400"}, /* D183 */ {PTP_DPC_NIKON_ISOAutoHiLimit, PTP_VENDOR_NIKON, 1, "800"}, {PTP_DPC_NIKON_ISOAutoHiLimit, PTP_VENDOR_NIKON, 2, "1600"}, {PTP_DPC_NIKON_ISOAutoHiLimit, PTP_VENDOR_NIKON, 3, "3200"}, {PTP_DPC_NIKON_ISOAutoHiLimit, PTP_VENDOR_NIKON, 4, "Hi 1"}, {PTP_DPC_NIKON_ISOAutoHiLimit, PTP_VENDOR_NIKON, 5, "Hi 2"}, {PTP_DPC_NIKON_InfoDispSetting, PTP_VENDOR_NIKON, 0, N_("Auto")}, /* 0xD187 */ {PTP_DPC_NIKON_InfoDispSetting, PTP_VENDOR_NIKON, 1, N_("Dark on light")}, {PTP_DPC_NIKON_InfoDispSetting, PTP_VENDOR_NIKON, 2, N_("Light on dark")}, PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_IndicatorDisp,PTP_VENDOR_NIKON), /* D18D */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_LiveViewStatus,PTP_VENDOR_NIKON), /* D1A2 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_ExposureDisplayStatus,PTP_VENDOR_NIKON),/* D1B0 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_InfoDispErrStatus,PTP_VENDOR_NIKON), /* D1B2 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_ExposureIndicateLightup,PTP_VENDOR_NIKON),/* D1B3 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_FlashOpen,PTP_VENDOR_NIKON), /* D1C0 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_FlashCharged,PTP_VENDOR_NIKON), /* D1C1 */ PTP_VENDOR_VAL_YN(PTP_DPC_NIKON_ManualMovieSetting,PTP_VENDOR_NIKON), /* 0xD0A6 */ {PTP_DPC_NIKON_FlickerReduction, PTP_VENDOR_NIKON, 0, "50Hz"}, /* 0xD034 */ {PTP_DPC_NIKON_FlickerReduction, PTP_VENDOR_NIKON, 1, "60Hz"}, {PTP_DPC_NIKON_RemoteMode, PTP_VENDOR_NIKON, 0, N_("Delayed Remote")}, /* 0xD035 */ {PTP_DPC_NIKON_RemoteMode, PTP_VENDOR_NIKON, 1, N_("Quick Response")}, /* 0xD035 */ {PTP_DPC_NIKON_RemoteMode, PTP_VENDOR_NIKON, 2, N_("Remote Mirror Up")},/* 0xD035 */ {PTP_DPC_NIKON_MonitorOffDelay, PTP_VENDOR_NIKON, 0, "5min"}, /* 0xD0b3 */ {PTP_DPC_NIKON_MonitorOffDelay, PTP_VENDOR_NIKON, 1, "10min"}, /* 0xD0b3 */ {PTP_DPC_NIKON_MonitorOffDelay, PTP_VENDOR_NIKON, 2, "15min"}, /* 0xD0b3 */ {PTP_DPC_NIKON_MonitorOffDelay, PTP_VENDOR_NIKON, 3, "20min"}, /* 0xD0b3 */ {PTP_DPC_NIKON_MonitorOffDelay, PTP_VENDOR_NIKON, 4, "30min"}, /* 0xD0b3 */ /* Canon stuff */ PTP_VENDOR_VAL_BOOL(PTP_DPC_CANON_AssistLight,PTP_VENDOR_CANON), PTP_VENDOR_VAL_RBOOL(PTP_DPC_CANON_RotationScene,PTP_VENDOR_CANON), PTP_VENDOR_VAL_RBOOL(PTP_DPC_CANON_BeepMode,PTP_VENDOR_CANON), PTP_VENDOR_VAL_BOOL(PTP_DPC_CANON_Beep,PTP_VENDOR_CANON), {PTP_DPC_CANON_RotationAngle, PTP_VENDOR_CANON, 0, "0'"}, {PTP_DPC_CANON_RotationAngle, PTP_VENDOR_CANON, 3, "270'"}, {PTP_DPC_CANON_RotationAngle, PTP_VENDOR_CANON, 1, "90'"}, {PTP_DPC_CANON_BatteryKind, PTP_VENDOR_CANON, 0, N_("Unknown")}, {PTP_DPC_CANON_BatteryKind, PTP_VENDOR_CANON, 1, N_("AC")}, {PTP_DPC_CANON_BatteryKind, PTP_VENDOR_CANON, 2, N_("Lithium Ion")}, {PTP_DPC_CANON_BatteryKind, PTP_VENDOR_CANON, 3, N_("Nickel hydride")}, {PTP_DPC_CANON_BatteryKind, PTP_VENDOR_CANON, 4, N_("Nickel cadmium")}, {PTP_DPC_CANON_BatteryKind, PTP_VENDOR_CANON, 5, N_("Alkalium manganese")}, {PTP_DPC_CANON_BatteryStatus, PTP_VENDOR_CANON, 0, N_("Undefined")}, {PTP_DPC_CANON_BatteryStatus, PTP_VENDOR_CANON, 1, N_("Normal")}, {PTP_DPC_CANON_BatteryStatus, PTP_VENDOR_CANON, 2, N_("Warning Level 1")}, {PTP_DPC_CANON_BatteryStatus, PTP_VENDOR_CANON, 3, N_("Emergency")}, {PTP_DPC_CANON_BatteryStatus, PTP_VENDOR_CANON, 4, N_("Warning Level 0")}, {PTP_DPC_CANON_ImageQuality, PTP_VENDOR_CANON, 0, N_("Undefined")}, {PTP_DPC_CANON_ImageQuality, PTP_VENDOR_CANON, 1, N_("Economy")}, {PTP_DPC_CANON_ImageQuality, PTP_VENDOR_CANON, 2, N_("Normal")}, {PTP_DPC_CANON_ImageQuality, PTP_VENDOR_CANON, 3, N_("Fine")}, {PTP_DPC_CANON_ImageQuality, PTP_VENDOR_CANON, 4, N_("Lossless")}, {PTP_DPC_CANON_ImageQuality, PTP_VENDOR_CANON, 5, N_("SuperFine")}, {PTP_DPC_CANON_FullViewFileFormat, PTP_VENDOR_CANON, 0, N_("Undefined")}, {PTP_DPC_CANON_FullViewFileFormat, PTP_VENDOR_CANON, 1, N_("JPEG")}, {PTP_DPC_CANON_FullViewFileFormat, PTP_VENDOR_CANON, 2, N_("CRW")}, {PTP_DPC_CANON_ImageSize, PTP_VENDOR_CANON, 0, N_("Large")}, {PTP_DPC_CANON_ImageSize, PTP_VENDOR_CANON, 1, N_("Medium 1")}, {PTP_DPC_CANON_ImageSize, PTP_VENDOR_CANON, 2, N_("Small")}, {PTP_DPC_CANON_ImageSize, PTP_VENDOR_CANON, 3, N_("Medium 2")}, {PTP_DPC_CANON_ImageSize, PTP_VENDOR_CANON, 7, N_("Medium 3")}, {PTP_DPC_CANON_SelfTime, PTP_VENDOR_CANON, 0, N_("Not used")}, {PTP_DPC_CANON_SelfTime, PTP_VENDOR_CANON, 100, N_("10 seconds")}, {PTP_DPC_CANON_SelfTime, PTP_VENDOR_CANON, 20, N_("2 seconds")}, {PTP_DPC_CANON_FlashMode, PTP_VENDOR_CANON, 0, N_("Off")}, {PTP_DPC_CANON_FlashMode, PTP_VENDOR_CANON, 1, N_("Auto")}, {PTP_DPC_CANON_FlashMode, PTP_VENDOR_CANON, 2, N_("On")}, {PTP_DPC_CANON_FlashMode, PTP_VENDOR_CANON, 3, N_("Red Eye Suppression")}, {PTP_DPC_CANON_FlashMode, PTP_VENDOR_CANON, 4, N_("Low Speed Synchronization")}, {PTP_DPC_CANON_FlashMode, PTP_VENDOR_CANON, 5, N_("Auto + Red Eye Suppression")}, {PTP_DPC_CANON_FlashMode, PTP_VENDOR_CANON, 6, N_("On + Red Eye Suppression")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 0, N_("Auto")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 1, N_("P")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 2, N_("Tv")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 3, N_("Av")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 4, N_("M")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 5, N_("A_DEP")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 6, N_("M_DEP")}, {PTP_DPC_CANON_ShootingMode, PTP_VENDOR_CANON, 7, N_("Bulb")}, /* more actually */ {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 0, N_("Auto")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 1, N_("Manual")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 2, N_("Distant View")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 3, N_("High-Speed Shutter")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 4, N_("Low-Speed Shutter")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 5, N_("Night View")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 6, N_("Grayscale")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 7, N_("Sepia")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 8, N_("Portrait")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 9, N_("Sports")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 10, N_("Macro")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 11, N_("Monochrome")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 12, N_("Pan Focus")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 13, N_("Neutral")}, {PTP_DPC_CANON_ImageMode, PTP_VENDOR_CANON, 14, N_("Soft")}, {PTP_DPC_CANON_DriveMode, PTP_VENDOR_CANON, 0, N_("Single-Frame Shooting")}, {PTP_DPC_CANON_DriveMode, PTP_VENDOR_CANON, 1, N_("Continuous Shooting")}, {PTP_DPC_CANON_DriveMode, PTP_VENDOR_CANON, 2, N_("Timer (Single) Shooting")}, {PTP_DPC_CANON_DriveMode, PTP_VENDOR_CANON, 4, N_("Continuous Low-speed Shooting")}, {PTP_DPC_CANON_DriveMode, PTP_VENDOR_CANON, 5, N_("Continuous High-speed Shooting")}, {PTP_DPC_CANON_EZoom, PTP_VENDOR_CANON, 0, N_("Off")}, {PTP_DPC_CANON_EZoom, PTP_VENDOR_CANON, 1, N_("2x")}, {PTP_DPC_CANON_EZoom, PTP_VENDOR_CANON, 2, N_("4x")}, {PTP_DPC_CANON_EZoom, PTP_VENDOR_CANON, 3, N_("Smooth")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 0, N_("Center-weighted Metering")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 1, N_("Spot Metering")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 2, N_("Average Metering")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 3, N_("Evaluative Metering")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 4, N_("Partial Metering")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 5, N_("Center-weighted Average Metering")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 6, N_("Spot Metering Interlocked with AF Frame")}, {PTP_DPC_CANON_MeteringMode, PTP_VENDOR_CANON, 7, N_("Multi-Spot Metering")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 0, N_("Manual")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 1, N_("Auto")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 2, N_("Unknown")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 3, N_("Zone Focus (Close-up)")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 4, N_("Zone Focus (Very Close)")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 5, N_("Zone Focus (Close)")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 6, N_("Zone Focus (Medium)")}, {PTP_DPC_CANON_AFDistance, PTP_VENDOR_CANON, 7, N_("Zone Focus (Far)")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0, N_("Invalid")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0x1000, N_("Focusing Point on Center Only, Manual")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0x1001, N_("Focusing Point on Center Only, Auto")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0x3000, N_("Multiple Focusing Points (No Specification), Manual")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0x3001, N_("Multiple Focusing Points, Auto")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0x3002, N_("Multiple Focusing Points (Right)")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0x3003, N_("Multiple Focusing Points (Center)")}, {PTP_DPC_CANON_FocusingPoint, PTP_VENDOR_CANON, 0x3004, N_("Multiple Focusing Points (Left)")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 0, N_("Auto")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 1, N_("Daylight")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 2, N_("Cloudy")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 3, N_("Tungsten")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 4, N_("Fluorescent")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 6, N_("Preset")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 7, N_("Fluorescent H")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 9, N_("Color Temperature")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 10, N_("Custom Whitebalance PC-1")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 11, N_("Custom Whitebalance PC-2")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 12, N_("Custom Whitebalance PC-3")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 13, N_("Missing Number")}, {PTP_DPC_CANON_WhiteBalance, PTP_VENDOR_CANON, 14, N_("Fluorescent H")}, /* dup? */ {PTP_DPC_CANON_SlowShutterSetting, PTP_VENDOR_CANON, 0, N_("Off")}, {PTP_DPC_CANON_SlowShutterSetting, PTP_VENDOR_CANON, 1, N_("Night View")}, {PTP_DPC_CANON_SlowShutterSetting, PTP_VENDOR_CANON, 2, N_("On")}, {PTP_DPC_CANON_SlowShutterSetting, PTP_VENDOR_CANON, 3, N_("Low-speed shutter function not available")}, {PTP_DPC_CANON_AFMode, PTP_VENDOR_CANON, 0, N_("Single Shot")}, {PTP_DPC_CANON_AFMode, PTP_VENDOR_CANON, 1, N_("AI Servo")}, {PTP_DPC_CANON_AFMode, PTP_VENDOR_CANON, 2, N_("AI Focus")}, {PTP_DPC_CANON_AFMode, PTP_VENDOR_CANON, 3, N_("Manual")}, {PTP_DPC_CANON_AFMode, PTP_VENDOR_CANON, 4, N_("Continuous")}, PTP_VENDOR_VAL_BOOL(PTP_DPC_CANON_ImageStabilization,PTP_VENDOR_CANON), {PTP_DPC_CANON_Contrast, PTP_VENDOR_CANON, -2, N_("Low 2")}, {PTP_DPC_CANON_Contrast, PTP_VENDOR_CANON, -1, N_("Low")}, {PTP_DPC_CANON_Contrast, PTP_VENDOR_CANON, 0, N_("Standard")}, {PTP_DPC_CANON_Contrast, PTP_VENDOR_CANON, 1, N_("High")}, {PTP_DPC_CANON_Contrast, PTP_VENDOR_CANON, 2, N_("High 2")}, {PTP_DPC_CANON_ColorGain, PTP_VENDOR_CANON, -2, N_("Low 2")}, {PTP_DPC_CANON_ColorGain, PTP_VENDOR_CANON, -1, N_("Low")}, {PTP_DPC_CANON_ColorGain, PTP_VENDOR_CANON, 0, N_("Standard")}, {PTP_DPC_CANON_ColorGain, PTP_VENDOR_CANON, 1, N_("High")}, {PTP_DPC_CANON_ColorGain, PTP_VENDOR_CANON, 2, N_("High 2")}, {PTP_DPC_CANON_Sharpness, PTP_VENDOR_CANON, -2, N_("Low 2")}, {PTP_DPC_CANON_Sharpness, PTP_VENDOR_CANON, -1, N_("Low")}, {PTP_DPC_CANON_Sharpness, PTP_VENDOR_CANON, 0, N_("Standard")}, {PTP_DPC_CANON_Sharpness, PTP_VENDOR_CANON, 1, N_("High")}, {PTP_DPC_CANON_Sharpness, PTP_VENDOR_CANON, 2, N_("High 2")}, {PTP_DPC_CANON_Sensitivity, PTP_VENDOR_CANON, 0, N_("Standard")}, {PTP_DPC_CANON_Sensitivity, PTP_VENDOR_CANON, 1, N_("Upper 1")}, {PTP_DPC_CANON_Sensitivity, PTP_VENDOR_CANON, 2, N_("Upper 2")}, {PTP_DPC_CANON_ParameterSet, PTP_VENDOR_CANON, 0x08, N_("Standard Development Parameters")}, {PTP_DPC_CANON_ParameterSet, PTP_VENDOR_CANON, 0x10, N_("Development Parameters 1")}, {PTP_DPC_CANON_ParameterSet, PTP_VENDOR_CANON, 0x20, N_("Development Parameters 2")}, {PTP_DPC_CANON_ParameterSet, PTP_VENDOR_CANON, 0x40, N_("Development Parameters 3")}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x00, N_("Auto")}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x28, "6"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x30, "12"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x38, "25"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x40, "50"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x43, "64"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x48, "100"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x50, "200"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x58, "400"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x60, "800"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x68, "1600"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x70, "3200"}, {PTP_DPC_CANON_ISOSpeed, PTP_VENDOR_CANON, 0x78, "6400"}, /* 0xd01d - PTP_DPC_CANON_Aperture */ /* 0xd01e - PTP_DPC_CANON_ShutterSpeed */ /* 0xd01f - PTP_DPC_CANON_ExpCompensation */ /* 0xd020 - PTP_DPC_CANON_FlashCompensation */ /* 0xd021 - PTP_DPC_CANON_AEBExposureCompensation */ /* 0xd023 - PTP_DPC_CANON_AvOpen */ /* 0xd024 - PTP_DPC_CANON_AvMax */ {PTP_DPC_CANON_CameraOutput, PTP_VENDOR_CANON, 0, N_("Undefined")}, {PTP_DPC_CANON_CameraOutput, PTP_VENDOR_CANON, 1, N_("LCD")}, {PTP_DPC_CANON_CameraOutput, PTP_VENDOR_CANON, 2, N_("Video OUT")}, {PTP_DPC_CANON_CameraOutput, PTP_VENDOR_CANON, 3, N_("Off")}, {PTP_DPC_CANON_MlSpotPos, PTP_VENDOR_CANON, 0, N_("MlSpotPosCenter")}, {PTP_DPC_CANON_MlSpotPos, PTP_VENDOR_CANON, 1, N_("MlSpotPosAfLink")}, {PTP_DPC_CANON_PhotoEffect, PTP_VENDOR_CANON, 0, N_("Off")}, {PTP_DPC_CANON_PhotoEffect, PTP_VENDOR_CANON, 1, N_("Vivid")}, {PTP_DPC_CANON_PhotoEffect, PTP_VENDOR_CANON, 2, N_("Neutral")}, {PTP_DPC_CANON_PhotoEffect, PTP_VENDOR_CANON, 3, N_("Soft")}, {PTP_DPC_CANON_PhotoEffect, PTP_VENDOR_CANON, 4, N_("Sepia")}, {PTP_DPC_CANON_PhotoEffect, PTP_VENDOR_CANON, 5, N_("Monochrome")}, {0, 0, 0, NULL} }; for (i=0; ptp_value_trans[i].dpc!=0; i++) { if ((ptp_value_trans[i].dpc == dpc) && (((ptp_value_trans[i].dpc & 0xf000) == 0x5000) || (ptp_value_trans[i].vendor == params->deviceinfo.VendorExtensionID)) ) { double value = _value_to_num(&(dpd->CurrentValue), dpd->DataType); return snprintf(out, length, _(ptp_value_trans[i].format), value * ptp_value_trans[i].coef + ptp_value_trans[i].bias); } } kval = _value_to_num(&(dpd->CurrentValue), dpd->DataType); for (i=0; ptp_value_list[i].dpc!=0; i++) { if ((ptp_value_list[i].dpc == dpc) && (((ptp_value_list[i].dpc & 0xf000) == 0x5000) || (ptp_value_list[i].vendor == params->deviceinfo.VendorExtensionID)) && (ptp_value_list[i].key==kval) ) { return snprintf(out, length, "%s", _(ptp_value_list[i].value)); } } if (params->deviceinfo.VendorExtensionID==PTP_VENDOR_MICROSOFT || params->deviceinfo.VendorExtensionID==PTP_VENDOR_MTP) { switch (dpc) { case PTP_DPC_MTP_SynchronizationPartner: case PTP_DPC_MTP_DeviceFriendlyName: if (dpd->DataType == PTP_DTC_STR) return snprintf(out, length, "%s", dpd->CurrentValue.str); else return snprintf(out, length, "invalid type, expected STR"); case PTP_DPC_MTP_SecureTime: case PTP_DPC_MTP_DeviceCertificate: { if (dpd->DataType != PTP_DTC_AUINT16) return snprintf(out, length, "invalid type, expected AUINT16"); /* FIXME: Convert to use unicode demux functions */ for (i=0;(iCurrentValue.a.count) && (iCurrentValue.a.v[i].u16; if ( dpd->CurrentValue.a.count && (dpd->CurrentValue.a.count < length)) { out[dpd->CurrentValue.a.count-1] = 0; return dpd->CurrentValue.a.count-1; } else { out[length-1] = 0; return length; } break; } default: break; } } return 0; } struct { uint16_t ofc; const char *format; } ptp_ofc_trans[] = { {PTP_OFC_Undefined,"Undefined Type"}, {PTP_OFC_Defined,"Defined Type"}, {PTP_OFC_Association,"Association/Directory"}, {PTP_OFC_Script,"Script"}, {PTP_OFC_Executable,"Executable"}, {PTP_OFC_Text,"Text"}, {PTP_OFC_HTML,"HTML"}, {PTP_OFC_DPOF,"DPOF"}, {PTP_OFC_AIFF,"AIFF"}, {PTP_OFC_WAV,"MS Wave"}, {PTP_OFC_MP3,"MP3"}, {PTP_OFC_AVI,"MS AVI"}, {PTP_OFC_MPEG,"MPEG"}, {PTP_OFC_ASF,"ASF"}, {PTP_OFC_QT,"Apple Quicktime"}, {PTP_OFC_EXIF_JPEG,"JPEG"}, {PTP_OFC_TIFF_EP,"TIFF EP"}, {PTP_OFC_FlashPix,"FlashPix"}, {PTP_OFC_BMP,"BMP"}, {PTP_OFC_CIFF,"CIFF"}, {PTP_OFC_GIF,"GIF"}, {PTP_OFC_JFIF,"JFIF"}, {PTP_OFC_PCD,"PCD"}, {PTP_OFC_PICT,"PICT"}, {PTP_OFC_PNG,"PNG"}, {PTP_OFC_TIFF,"TIFF"}, {PTP_OFC_TIFF_IT,"TIFF_IT"}, {PTP_OFC_JP2,"JP2"}, {PTP_OFC_JPX,"JPX"}, {PTP_OFC_DNG,"DNG"}, }; struct { uint16_t ofc; const char *format; } ptp_ofc_mtp_trans[] = { {PTP_OFC_MTP_MediaCard,N_("Media Card")}, {PTP_OFC_MTP_MediaCardGroup,N_("Media Card Group")}, {PTP_OFC_MTP_Encounter,N_("Encounter")}, {PTP_OFC_MTP_EncounterBox,N_("Encounter Box")}, {PTP_OFC_MTP_M4A,N_("M4A")}, {PTP_OFC_MTP_Firmware,N_("Firmware")}, {PTP_OFC_MTP_WindowsImageFormat,N_("Windows Image Format")}, {PTP_OFC_MTP_UndefinedAudio,N_("Undefined Audio")}, {PTP_OFC_MTP_WMA,"WMA"}, {PTP_OFC_MTP_OGG,"OGG"}, {PTP_OFC_MTP_AAC,"AAC"}, {PTP_OFC_MTP_AudibleCodec,N_("Audible.com Codec")}, {PTP_OFC_MTP_FLAC,"FLAC"}, {PTP_OFC_MTP_SamsungPlaylist,N_("Samsung Playlist")}, {PTP_OFC_MTP_UndefinedVideo,N_("Undefined Video")}, {PTP_OFC_MTP_WMV,"WMV"}, {PTP_OFC_MTP_MP4,"MP4"}, {PTP_OFC_MTP_MP2,"MP2"}, {PTP_OFC_MTP_3GP,"3GP"}, {PTP_OFC_MTP_UndefinedCollection,N_("Undefined Collection")}, {PTP_OFC_MTP_AbstractMultimediaAlbum,N_("Abstract Multimedia Album")}, {PTP_OFC_MTP_AbstractImageAlbum,N_("Abstract Image Album")}, {PTP_OFC_MTP_AbstractAudioAlbum,N_("Abstract Audio Album")}, {PTP_OFC_MTP_AbstractVideoAlbum,N_("Abstract Video Album")}, {PTP_OFC_MTP_AbstractAudioVideoPlaylist,N_("Abstract Audio Video Playlist")}, {PTP_OFC_MTP_AbstractContactGroup,N_("Abstract Contact Group")}, {PTP_OFC_MTP_AbstractMessageFolder,N_("Abstract Message Folder")}, {PTP_OFC_MTP_AbstractChapteredProduction,N_("Abstract Chaptered Production")}, {PTP_OFC_MTP_AbstractAudioPlaylist,N_("Abstract Audio Playlist")}, {PTP_OFC_MTP_AbstractVideoPlaylist,N_("Abstract Video Playlist")}, {PTP_OFC_MTP_AbstractMediacast,N_("Abstract Mediacast")}, {PTP_OFC_MTP_WPLPlaylist,N_("WPL Playlist")}, {PTP_OFC_MTP_M3UPlaylist,N_("M3U Playlist")}, {PTP_OFC_MTP_MPLPlaylist,N_("MPL Playlist")}, {PTP_OFC_MTP_ASXPlaylist,N_("ASX Playlist")}, {PTP_OFC_MTP_PLSPlaylist,N_("PLS Playlist")}, {PTP_OFC_MTP_UndefinedDocument,N_("Undefined Document")}, {PTP_OFC_MTP_AbstractDocument,N_("Abstract Document")}, {PTP_OFC_MTP_XMLDocument,N_("XMLDocument")}, {PTP_OFC_MTP_MSWordDocument,N_("Microsoft Word Document")}, {PTP_OFC_MTP_MHTCompiledHTMLDocument,N_("MHT Compiled HTML Document")}, {PTP_OFC_MTP_MSExcelSpreadsheetXLS,N_("Microsoft Excel Spreadsheet (.xls)")}, {PTP_OFC_MTP_MSPowerpointPresentationPPT,N_("Microsoft Powerpoint (.ppt)")}, {PTP_OFC_MTP_UndefinedMessage,N_("Undefined Message")}, {PTP_OFC_MTP_AbstractMessage,N_("Abstract Message")}, {PTP_OFC_MTP_UndefinedContact,N_("Undefined Contact")}, {PTP_OFC_MTP_AbstractContact,N_("Abstract Contact")}, {PTP_OFC_MTP_vCard2,N_("vCard2")}, {PTP_OFC_MTP_vCard3,N_("vCard3")}, {PTP_OFC_MTP_UndefinedCalendarItem,N_("Undefined Calendar Item")}, {PTP_OFC_MTP_AbstractCalendarItem,N_("Abstract Calendar Item")}, {PTP_OFC_MTP_vCalendar1,N_("vCalendar1")}, {PTP_OFC_MTP_vCalendar2,N_("vCalendar2")}, {PTP_OFC_MTP_UndefinedWindowsExecutable,N_("Undefined Windows Executable")}, {PTP_OFC_MTP_MediaCast,N_("Media Cast")}, {PTP_OFC_MTP_Section,N_("Section")}, }; int ptp_render_ofc(PTPParams* params, uint16_t ofc, int spaceleft, char *txt) { unsigned int i; if (!(ofc & 0x8000)) { for (i=0;ideviceinfo.VendorExtensionID) { case PTP_VENDOR_EASTMAN_KODAK: switch (ofc) { case PTP_OFC_EK_M3U: return snprintf (txt, spaceleft,"M3U"); default: break; } break; case PTP_VENDOR_CANON: switch (ofc) { case PTP_OFC_CANON_CRW: return snprintf (txt, spaceleft,"CRW"); default: break; } break; case PTP_VENDOR_SONY: switch (ofc) { case PTP_OFC_SONY_RAW: return snprintf (txt, spaceleft,"ARW"); default: break; } break; case PTP_VENDOR_MICROSOFT: case PTP_VENDOR_MTP: for (i=0;ideviceinfo.VendorExtensionID) { case PTP_VENDOR_MICROSOFT: case PTP_VENDOR_MTP: RETURN_NAME_FROM_TABLE(ptp_opcode_mtp_trans, opcode); case PTP_VENDOR_NIKON: RETURN_NAME_FROM_TABLE(ptp_opcode_nikon_trans, opcode); case PTP_VENDOR_CANON: RETURN_NAME_FROM_TABLE(ptp_opcode_canon_trans, opcode); case PTP_VENDOR_SONY: RETURN_NAME_FROM_TABLE(ptp_opcode_sony_trans, opcode); case PTP_VENDOR_PARROT: RETURN_NAME_FROM_TABLE(ptp_opcode_parrot_trans, opcode); default: break; } #undef RETURN_NAME_FROM_TABLE return _("Unknown VendorExtensionID"); } struct { uint16_t id; const char *name; } ptp_opc_trans[] = { {PTP_OPC_StorageID,"StorageID"}, {PTP_OPC_ObjectFormat,"ObjectFormat"}, {PTP_OPC_ProtectionStatus,"ProtectionStatus"}, {PTP_OPC_ObjectSize,"ObjectSize"}, {PTP_OPC_AssociationType,"AssociationType"}, {PTP_OPC_AssociationDesc,"AssociationDesc"}, {PTP_OPC_ObjectFileName,"ObjectFileName"}, {PTP_OPC_DateCreated,"DateCreated"}, {PTP_OPC_DateModified,"DateModified"}, {PTP_OPC_Keywords,"Keywords"}, {PTP_OPC_ParentObject,"ParentObject"}, {PTP_OPC_AllowedFolderContents,"AllowedFolderContents"}, {PTP_OPC_Hidden,"Hidden"}, {PTP_OPC_SystemObject,"SystemObject"}, {PTP_OPC_PersistantUniqueObjectIdentifier,"PersistantUniqueObjectIdentifier"}, {PTP_OPC_SyncID,"SyncID"}, {PTP_OPC_PropertyBag,"PropertyBag"}, {PTP_OPC_Name,"Name"}, {PTP_OPC_CreatedBy,"CreatedBy"}, {PTP_OPC_Artist,"Artist"}, {PTP_OPC_DateAuthored,"DateAuthored"}, {PTP_OPC_Description,"Description"}, {PTP_OPC_URLReference,"URLReference"}, {PTP_OPC_LanguageLocale,"LanguageLocale"}, {PTP_OPC_CopyrightInformation,"CopyrightInformation"}, {PTP_OPC_Source,"Source"}, {PTP_OPC_OriginLocation,"OriginLocation"}, {PTP_OPC_DateAdded,"DateAdded"}, {PTP_OPC_NonConsumable,"NonConsumable"}, {PTP_OPC_CorruptOrUnplayable,"CorruptOrUnplayable"}, {PTP_OPC_ProducerSerialNumber,"ProducerSerialNumber"}, {PTP_OPC_RepresentativeSampleFormat,"RepresentativeSampleFormat"}, {PTP_OPC_RepresentativeSampleSize,"RepresentativeSampleSize"}, {PTP_OPC_RepresentativeSampleHeight,"RepresentativeSampleHeight"}, {PTP_OPC_RepresentativeSampleWidth,"RepresentativeSampleWidth"}, {PTP_OPC_RepresentativeSampleDuration,"RepresentativeSampleDuration"}, {PTP_OPC_RepresentativeSampleData,"RepresentativeSampleData"}, {PTP_OPC_Width,"Width"}, {PTP_OPC_Height,"Height"}, {PTP_OPC_Duration,"Duration"}, {PTP_OPC_Rating,"Rating"}, {PTP_OPC_Track,"Track"}, {PTP_OPC_Genre,"Genre"}, {PTP_OPC_Credits,"Credits"}, {PTP_OPC_Lyrics,"Lyrics"}, {PTP_OPC_SubscriptionContentID,"SubscriptionContentID"}, {PTP_OPC_ProducedBy,"ProducedBy"}, {PTP_OPC_UseCount,"UseCount"}, {PTP_OPC_SkipCount,"SkipCount"}, {PTP_OPC_LastAccessed,"LastAccessed"}, {PTP_OPC_ParentalRating,"ParentalRating"}, {PTP_OPC_MetaGenre,"MetaGenre"}, {PTP_OPC_Composer,"Composer"}, {PTP_OPC_EffectiveRating,"EffectiveRating"}, {PTP_OPC_Subtitle,"Subtitle"}, {PTP_OPC_OriginalReleaseDate,"OriginalReleaseDate"}, {PTP_OPC_AlbumName,"AlbumName"}, {PTP_OPC_AlbumArtist,"AlbumArtist"}, {PTP_OPC_Mood,"Mood"}, {PTP_OPC_DRMStatus,"DRMStatus"}, {PTP_OPC_SubDescription,"SubDescription"}, {PTP_OPC_IsCropped,"IsCropped"}, {PTP_OPC_IsColorCorrected,"IsColorCorrected"}, {PTP_OPC_ImageBitDepth,"ImageBitDepth"}, {PTP_OPC_Fnumber,"Fnumber"}, {PTP_OPC_ExposureTime,"ExposureTime"}, {PTP_OPC_ExposureIndex,"ExposureIndex"}, {PTP_OPC_DisplayName,"DisplayName"}, {PTP_OPC_BodyText,"BodyText"}, {PTP_OPC_Subject,"Subject"}, {PTP_OPC_Priority,"Priority"}, {PTP_OPC_GivenName,"GivenName"}, {PTP_OPC_MiddleNames,"MiddleNames"}, {PTP_OPC_FamilyName,"FamilyName"}, {PTP_OPC_Prefix,"Prefix"}, {PTP_OPC_Suffix,"Suffix"}, {PTP_OPC_PhoneticGivenName,"PhoneticGivenName"}, {PTP_OPC_PhoneticFamilyName,"PhoneticFamilyName"}, {PTP_OPC_EmailPrimary,"EmailPrimary"}, {PTP_OPC_EmailPersonal1,"EmailPersonal1"}, {PTP_OPC_EmailPersonal2,"EmailPersonal2"}, {PTP_OPC_EmailBusiness1,"EmailBusiness1"}, {PTP_OPC_EmailBusiness2,"EmailBusiness2"}, {PTP_OPC_EmailOthers,"EmailOthers"}, {PTP_OPC_PhoneNumberPrimary,"PhoneNumberPrimary"}, {PTP_OPC_PhoneNumberPersonal,"PhoneNumberPersonal"}, {PTP_OPC_PhoneNumberPersonal2,"PhoneNumberPersonal2"}, {PTP_OPC_PhoneNumberBusiness,"PhoneNumberBusiness"}, {PTP_OPC_PhoneNumberBusiness2,"PhoneNumberBusiness2"}, {PTP_OPC_PhoneNumberMobile,"PhoneNumberMobile"}, {PTP_OPC_PhoneNumberMobile2,"PhoneNumberMobile2"}, {PTP_OPC_FaxNumberPrimary,"FaxNumberPrimary"}, {PTP_OPC_FaxNumberPersonal,"FaxNumberPersonal"}, {PTP_OPC_FaxNumberBusiness,"FaxNumberBusiness"}, {PTP_OPC_PagerNumber,"PagerNumber"}, {PTP_OPC_PhoneNumberOthers,"PhoneNumberOthers"}, {PTP_OPC_PrimaryWebAddress,"PrimaryWebAddress"}, {PTP_OPC_PersonalWebAddress,"PersonalWebAddress"}, {PTP_OPC_BusinessWebAddress,"BusinessWebAddress"}, {PTP_OPC_InstantMessengerAddress,"InstantMessengerAddress"}, {PTP_OPC_InstantMessengerAddress2,"InstantMessengerAddress2"}, {PTP_OPC_InstantMessengerAddress3,"InstantMessengerAddress3"}, {PTP_OPC_PostalAddressPersonalFull,"PostalAddressPersonalFull"}, {PTP_OPC_PostalAddressPersonalFullLine1,"PostalAddressPersonalFullLine1"}, {PTP_OPC_PostalAddressPersonalFullLine2,"PostalAddressPersonalFullLine2"}, {PTP_OPC_PostalAddressPersonalFullCity,"PostalAddressPersonalFullCity"}, {PTP_OPC_PostalAddressPersonalFullRegion,"PostalAddressPersonalFullRegion"}, {PTP_OPC_PostalAddressPersonalFullPostalCode,"PostalAddressPersonalFullPostalCode"}, {PTP_OPC_PostalAddressPersonalFullCountry,"PostalAddressPersonalFullCountry"}, {PTP_OPC_PostalAddressBusinessFull,"PostalAddressBusinessFull"}, {PTP_OPC_PostalAddressBusinessLine1,"PostalAddressBusinessLine1"}, {PTP_OPC_PostalAddressBusinessLine2,"PostalAddressBusinessLine2"}, {PTP_OPC_PostalAddressBusinessCity,"PostalAddressBusinessCity"}, {PTP_OPC_PostalAddressBusinessRegion,"PostalAddressBusinessRegion"}, {PTP_OPC_PostalAddressBusinessPostalCode,"PostalAddressBusinessPostalCode"}, {PTP_OPC_PostalAddressBusinessCountry,"PostalAddressBusinessCountry"}, {PTP_OPC_PostalAddressOtherFull,"PostalAddressOtherFull"}, {PTP_OPC_PostalAddressOtherLine1,"PostalAddressOtherLine1"}, {PTP_OPC_PostalAddressOtherLine2,"PostalAddressOtherLine2"}, {PTP_OPC_PostalAddressOtherCity,"PostalAddressOtherCity"}, {PTP_OPC_PostalAddressOtherRegion,"PostalAddressOtherRegion"}, {PTP_OPC_PostalAddressOtherPostalCode,"PostalAddressOtherPostalCode"}, {PTP_OPC_PostalAddressOtherCountry,"PostalAddressOtherCountry"}, {PTP_OPC_OrganizationName,"OrganizationName"}, {PTP_OPC_PhoneticOrganizationName,"PhoneticOrganizationName"}, {PTP_OPC_Role,"Role"}, {PTP_OPC_Birthdate,"Birthdate"}, {PTP_OPC_MessageTo,"MessageTo"}, {PTP_OPC_MessageCC,"MessageCC"}, {PTP_OPC_MessageBCC,"MessageBCC"}, {PTP_OPC_MessageRead,"MessageRead"}, {PTP_OPC_MessageReceivedTime,"MessageReceivedTime"}, {PTP_OPC_MessageSender,"MessageSender"}, {PTP_OPC_ActivityBeginTime,"ActivityBeginTime"}, {PTP_OPC_ActivityEndTime,"ActivityEndTime"}, {PTP_OPC_ActivityLocation,"ActivityLocation"}, {PTP_OPC_ActivityRequiredAttendees,"ActivityRequiredAttendees"}, {PTP_OPC_ActivityOptionalAttendees,"ActivityOptionalAttendees"}, {PTP_OPC_ActivityResources,"ActivityResources"}, {PTP_OPC_ActivityAccepted,"ActivityAccepted"}, {PTP_OPC_Owner,"Owner"}, {PTP_OPC_Editor,"Editor"}, {PTP_OPC_Webmaster,"Webmaster"}, {PTP_OPC_URLSource,"URLSource"}, {PTP_OPC_URLDestination,"URLDestination"}, {PTP_OPC_TimeBookmark,"TimeBookmark"}, {PTP_OPC_ObjectBookmark,"ObjectBookmark"}, {PTP_OPC_ByteBookmark,"ByteBookmark"}, {PTP_OPC_LastBuildDate,"LastBuildDate"}, {PTP_OPC_TimetoLive,"TimetoLive"}, {PTP_OPC_MediaGUID,"MediaGUID"}, {PTP_OPC_TotalBitRate,"TotalBitRate"}, {PTP_OPC_BitRateType,"BitRateType"}, {PTP_OPC_SampleRate,"SampleRate"}, {PTP_OPC_NumberOfChannels,"NumberOfChannels"}, {PTP_OPC_AudioBitDepth,"AudioBitDepth"}, {PTP_OPC_ScanDepth,"ScanDepth"}, {PTP_OPC_AudioWAVECodec,"AudioWAVECodec"}, {PTP_OPC_AudioBitRate,"AudioBitRate"}, {PTP_OPC_VideoFourCCCodec,"VideoFourCCCodec"}, {PTP_OPC_VideoBitRate,"VideoBitRate"}, {PTP_OPC_FramesPerThousandSeconds,"FramesPerThousandSeconds"}, {PTP_OPC_KeyFrameDistance,"KeyFrameDistance"}, {PTP_OPC_BufferSize,"BufferSize"}, {PTP_OPC_EncodingQuality,"EncodingQuality"}, {PTP_OPC_EncodingProfile,"EncodingProfile"}, {PTP_OPC_BuyFlag,"BuyFlag"}, }; int ptp_render_mtp_propname(uint16_t propid, int spaceleft, char *txt) { unsigned int i; for (i=0;iproperty = PTP_OPC_StorageID; /* Should be "unknown" */ prop->datatype = PTP_DTC_UNDEF; prop->ObjectHandle = 0x00000000U; prop->propval.str = NULL; (*props) = newprops; (*nrofprops)++; return prop; } void ptp_destroy_object_prop(MTPProperties *prop) { if (!prop) return; if (prop->datatype == PTP_DTC_STR && prop->propval.str != NULL) free(prop->propval.str); else if ((prop->datatype == PTP_DTC_AINT8 || prop->datatype == PTP_DTC_AINT16 || prop->datatype == PTP_DTC_AINT32 || prop->datatype == PTP_DTC_AINT64 || prop->datatype == PTP_DTC_AINT128 || prop->datatype == PTP_DTC_AUINT8 || prop->datatype == PTP_DTC_AUINT16 || prop->datatype == PTP_DTC_AUINT32 || prop->datatype == PTP_DTC_AUINT64 || prop->datatype == PTP_DTC_AUINT128) && prop->propval.a.v != NULL) free(prop->propval.a.v); } void ptp_destroy_object_prop_list(MTPProperties *props, int nrofprops) { int i; MTPProperties *prop = props; for (i=0;imtpprops; for (i=0;inrofmtpprops;i++) { if (attribute_id == prop->property) return prop; prop++; } return NULL; } uint16_t ptp_remove_object_from_cache(PTPParams *params, uint32_t handle) { unsigned int i; PTPObject *ob; CHECK_PTP_RC(ptp_object_find (params, handle, &ob)); i = ob-params->objects; /* remove object from object info cache */ ptp_free_object (ob); if (i < params->nrofobjects-1) memmove (ob,ob+1,(params->nrofobjects-1-i)*sizeof(PTPObject)); params->nrofobjects--; /* We use less memory than before so this shouldn't fail */ params->objects = realloc(params->objects, sizeof(PTPObject)*params->nrofobjects); return PTP_RC_OK; } static int _cmp_ob (const void *a, const void *b) { PTPObject *oa = (PTPObject*)a; PTPObject *ob = (PTPObject*)b; /* Do not subtract the oids and return ... * the unsigned int -> int conversion will overflow in cases * like 0xfffc0000 vs 0x0004000. */ if (oa->oid > ob->oid) return 1; if (oa->oid < ob->oid) return -1; return 0; } void ptp_objects_sort (PTPParams *params) { qsort (params->objects, params->nrofobjects, sizeof(PTPObject), _cmp_ob); } /* Binary search in objects. Needs "objects" to be a sorted by objectid list! */ uint16_t ptp_object_find (PTPParams *params, uint32_t handle, PTPObject **retob) { PTPObject tmpob; tmpob.oid = handle; *retob = bsearch (&tmpob, params->objects, params->nrofobjects, sizeof(tmpob), _cmp_ob); if (!*retob) return PTP_RC_GeneralError; return PTP_RC_OK; } /* Binary search in objects + insert of not found. Needs "objects" to be a sorted by objectid list! */ uint16_t ptp_object_find_or_insert (PTPParams *params, uint32_t handle, PTPObject **retob) { unsigned int begin, end, cursor; unsigned int insertat; PTPObject *newobs; if (!handle) return PTP_RC_GeneralError; *retob = NULL; if (!params->nrofobjects) { params->objects = calloc(1,sizeof(PTPObject)); params->nrofobjects = 1; params->objects[0].oid = handle; *retob = ¶ms->objects[0]; return PTP_RC_OK; } begin = 0; end = params->nrofobjects-1; /*ptp_debug (params, "searching %08x, total=%d", handle, params->nrofobjects);*/ while (1) { cursor = (end-begin)/2+begin; /*ptp_debug (params, "ob %d: %08x [%d-%d]", cursor, params->objects[cursor].oid, begin, end);*/ if (params->objects[cursor].oid == handle) { *retob = ¶ms->objects[cursor]; return PTP_RC_OK; } if (params->objects[cursor].oid < handle) begin = cursor; else end = cursor; if ((end - begin) <= 1) break; } if (params->objects[begin].oid == handle) { *retob = ¶ms->objects[begin]; return PTP_RC_OK; } if (params->objects[end].oid == handle) { *retob = ¶ms->objects[end]; return PTP_RC_OK; } if ((begin == 0) && (handle < params->objects[0].oid)) { insertat=begin; } else { if ((end == params->nrofobjects-1) && (handle > params->objects[end].oid)) insertat=end+1; else insertat=begin+1; } /*ptp_debug (params, "inserting oid %x at [%x,%x], begin=%d, end=%d, insertat=%d\n", handle, params->objects[begin].oid, params->objects[end].oid, begin, end, insertat);*/ newobs = realloc (params->objects, sizeof(PTPObject)*(params->nrofobjects+1)); if (!newobs) return PTP_RC_GeneralError; params->objects = newobs; if (insertatnrofobjects) memmove (¶ms->objects[insertat+1],¶ms->objects[insertat],(params->nrofobjects-insertat)*sizeof(PTPObject)); memset(¶ms->objects[insertat],0,sizeof(PTPObject)); params->objects[insertat].oid = handle; *retob = ¶ms->objects[insertat]; params->nrofobjects++; return PTP_RC_OK; } uint16_t ptp_object_want (PTPParams *params, uint32_t handle, unsigned int want, PTPObject **retob) { uint16_t ret; PTPObject *ob; /*Camera *camera = ((PTPData *)params->data)->camera;*/ /* If GetObjectInfo is broken, force GetPropList */ if (params->device_flags & DEVICE_FLAG_PROPLIST_OVERRIDES_OI) want |= PTPOBJECT_MTPPROPLIST_LOADED; *retob = NULL; if (!handle) { ptp_debug (params, "ptp_object_want: querying handle 0?\n"); return PTP_RC_GeneralError; } CHECK_PTP_RC(ptp_object_find_or_insert (params, handle, &ob)); *retob = ob; /* Do we have all of it already? */ if ((ob->flags & want) == want) return PTP_RC_OK; #define X (PTPOBJECT_OBJECTINFO_LOADED|PTPOBJECT_STORAGEID_LOADED|PTPOBJECT_PARENTOBJECT_LOADED) if ((want & X) && ((ob->flags & X) != X)) { uint32_t saveparent = 0; /* One EOS issue, where getobjecthandles(root) returns obs without root flag. */ if (ob->flags & PTPOBJECT_PARENTOBJECT_LOADED) saveparent = ob->oi.ParentObject; ret = ptp_getobjectinfo (params, handle, &ob->oi); if (ret != PTP_RC_OK) { /* kill it from the internal list ... */ ptp_remove_object_from_cache(params, handle); return ret; } if (!ob->oi.Filename) ob->oi.Filename=strdup(""); if (ob->flags & PTPOBJECT_PARENTOBJECT_LOADED) ob->oi.ParentObject = saveparent; /* Second EOS issue, 0x20000000 has 0x20000000 as parent */ if (ob->oi.ParentObject == handle) ob->oi.ParentObject = 0; /* Read out the canon special flags */ if ((params->deviceinfo.VendorExtensionID == PTP_VENDOR_CANON) && ptp_operation_issupported(params,PTP_OC_CANON_GetObjectInfoEx)) { PTPCANONFolderEntry *ents = NULL; uint32_t numents = 0; ret = ptp_canon_getobjectinfo(params, ob->oi.StorageID,0, ob->oi.ParentObject,handle, &ents,&numents ); if ((ret == PTP_RC_OK) && (numents >= 1)) ob->canon_flags = ents[0].Flags; free (ents); } ob->flags |= X; } #undef X if ( (want & PTPOBJECT_MTPPROPLIST_LOADED) && (!(ob->flags & PTPOBJECT_MTPPROPLIST_LOADED)) ) { int nrofprops = 0; MTPProperties *props = NULL; if (params->device_flags & DEVICE_FLAG_BROKEN_MTPGETOBJPROPLIST) { want &= ~PTPOBJECT_MTPPROPLIST_LOADED; goto fallback; } /* Microsoft/MTP has fast directory retrieval. */ if (!ptp_operation_issupported(params,PTP_OC_MTP_GetObjPropList)) { want &= ~PTPOBJECT_MTPPROPLIST_LOADED; goto fallback; } ptp_debug (params, "ptp2/mtpfast: reading mtp proplist of %08x", handle); /* We just want this one object, not all at once. */ ret = ptp_mtp_getobjectproplist_single (params, handle, &props, &nrofprops); if (ret != PTP_RC_OK) goto fallback; ob->mtpprops = props; ob->nrofmtpprops = nrofprops; /* Override the ObjectInfo data with data from properties */ if (params->device_flags & DEVICE_FLAG_PROPLIST_OVERRIDES_OI) { unsigned int i; MTPProperties *prop = ob->mtpprops; for (i=0;inrofmtpprops;i++,prop++) { /* in case we got all subtree objects */ if (prop->ObjectHandle != handle) continue; switch (prop->property) { case PTP_OPC_StorageID: ob->oi.StorageID = prop->propval.u32; break; case PTP_OPC_ObjectFormat: ob->oi.ObjectFormat = prop->propval.u16; break; case PTP_OPC_ProtectionStatus: ob->oi.ProtectionStatus = prop->propval.u16; break; case PTP_OPC_ObjectSize: if (prop->datatype == PTP_DTC_UINT64) { if (prop->propval.u64 > 0xFFFFFFFFU) ob->oi.ObjectCompressedSize = 0xFFFFFFFFU; else ob->oi.ObjectCompressedSize = (uint32_t)prop->propval.u64; } else if (prop->datatype == PTP_DTC_UINT32) { ob->oi.ObjectCompressedSize = prop->propval.u32; } break; case PTP_OPC_AssociationType: ob->oi.AssociationType = prop->propval.u16; break; case PTP_OPC_AssociationDesc: ob->oi.AssociationDesc = prop->propval.u32; break; case PTP_OPC_ObjectFileName: if (prop->propval.str) { free(ob->oi.Filename); ob->oi.Filename = strdup(prop->propval.str); } break; case PTP_OPC_DateCreated: ob->oi.CaptureDate = ptp_unpack_PTPTIME(prop->propval.str); break; case PTP_OPC_DateModified: ob->oi.ModificationDate = ptp_unpack_PTPTIME(prop->propval.str); break; case PTP_OPC_Keywords: if (prop->propval.str) { free(ob->oi.Keywords); ob->oi.Keywords = strdup(prop->propval.str); } break; case PTP_OPC_ParentObject: ob->oi.ParentObject = prop->propval.u32; break; } } } #if 0 MTPProperties *xpl; int j; PTPObjectInfo oinfo; memset (&oinfo,0,sizeof(oinfo)); /* hmm, not necessary ... only if we would use it */ for (j=0;jproperty) { case PTP_OPC_ParentObject: if (xpl->datatype != PTP_DTC_UINT32) { ptp_debug (params, "ptp2/mtpfast: parentobject has type 0x%x???", xpl->datatype); break; } oinfo.ParentObject = xpl->propval.u32; ptp_debug (params, "ptp2/mtpfast: parent 0x%x", xpl->propval.u32); break; case PTP_OPC_ObjectFormat: if (xpl->datatype != PTP_DTC_UINT16) { ptp_debug (params, "ptp2/mtpfast: objectformat has type 0x%x???", xpl->datatype); break; } oinfo.ObjectFormat = xpl->propval.u16; ptp_debug (params, "ptp2/mtpfast: ofc 0x%x", xpl->propval.u16); break; case PTP_OPC_ObjectSize: switch (xpl->datatype) { case PTP_DTC_UINT32: oinfo.ObjectCompressedSize = xpl->propval.u32; break; case PTP_DTC_UINT64: oinfo.ObjectCompressedSize = xpl->propval.u64; break; default: ptp_debug (params, "ptp2/mtpfast: objectsize has type 0x%x???", xpl->datatype); break; } ptp_debug (params, "ptp2/mtpfast: objectsize %u", xpl->propval.u32); break; case PTP_OPC_StorageID: if (xpl->datatype != PTP_DTC_UINT32) { ptp_debug (params, "ptp2/mtpfast: storageid has type 0x%x???", xpl->datatype); break; } oinfo.StorageID = xpl->propval.u32; ptp_debug (params, "ptp2/mtpfast: storageid 0x%x", xpl->propval.u32); break; case PTP_OPC_ProtectionStatus:/*UINT16*/ if (xpl->datatype != PTP_DTC_UINT16) { ptp_debug (params, "ptp2/mtpfast: protectionstatus has type 0x%x???", xpl->datatype); break; } oinfo.ProtectionStatus = xpl->propval.u16; ptp_debug (params, "ptp2/mtpfast: protection 0x%x", xpl->propval.u16); break; case PTP_OPC_ObjectFileName: if (xpl->datatype != PTP_DTC_STR) { ptp_debug (params, "ptp2/mtpfast: filename has type 0x%x???", xpl->datatype); break; } if (xpl->propval.str) { ptp_debug (params, "ptp2/mtpfast: filename %s", xpl->propval.str); oinfo.Filename = strdup(xpl->propval.str); } else { oinfo.Filename = NULL; } break; case PTP_OPC_DateCreated: if (xpl->datatype != PTP_DTC_STR) { ptp_debug (params, "ptp2/mtpfast: datecreated has type 0x%x???", xpl->datatype); break; } ptp_debug (params, "ptp2/mtpfast: capturedate %s", xpl->propval.str); oinfo.CaptureDate = ptp_unpack_PTPTIME (xpl->propval.str); break; case PTP_OPC_DateModified: if (xpl->datatype != PTP_DTC_STR) { ptp_debug (params, "ptp2/mtpfast: datemodified has type 0x%x???", xpl->datatype); break; } ptp_debug (params, "ptp2/mtpfast: moddate %s", xpl->propval.str); oinfo.ModificationDate = ptp_unpack_PTPTIME (xpl->propval.str); break; default: if ((xpl->property & 0xfff0) == 0xdc00) ptp_debug (params, "ptp2/mtpfast:case %x type %x unhandled", xpl->property, xpl->datatype); break; } } if (!oinfo.Filename) /* i have one such file on my Creative */ oinfo.Filename = strdup(""); #endif ob->flags |= PTPOBJECT_MTPPROPLIST_LOADED; fallback: ; } if ((ob->flags & want) == want) return PTP_RC_OK; ptp_debug (params, "ptp_object_want: oid 0x%08x, want flags %x, have only %x?", handle, want, ob->flags); return PTP_RC_GeneralError; } uint16_t ptp_add_object_to_cache(PTPParams *params, uint32_t handle) { PTPObject *ob; return ptp_object_want (params, handle, PTPOBJECT_OBJECTINFO_LOADED|PTPOBJECT_MTPPROPLIST_LOADED, &ob); }