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|
/*
* uemis-downloader.c
*
* Copyright (c) Dirk Hohndel <dirk@hohndel.org>
* released under GPL2
*
* very (VERY) loosely based on the algorithms found in Java code by Fabian Gast <fgast@only640k.net>
* which was released under the BSD-STYLE BEER WARE LICENSE
* I believe that I only used the information about HOW to do this (download data from the Uemis
* Zurich) but did not actually use any of his copyrighted code, therefore the license under which
* he released his code does not apply to this new implementation in C
*/
#include <sys/types.h>
#include <sys/stat.h>
#include <fcntl.h>
#include <stdio.h>
#include <pthread.h>
#include <unistd.h>
#include <string.h>
#include <glib/gi18n.h>
#include "uemis.h"
#include "dive.h"
#include "divelist.h"
#include "display.h"
#include "display-gtk.h"
#define ERR_FS_ALMOST_FULL N_("Uemis Zurich: File System is almost full\nDisconnect/reconnect the dive computer\nand try again")
#define ERR_FS_FULL N_("Uemis Zurich: File System is full\nDisconnect/reconnect the dive computer\nand try again")
#define ERR_FS_SHORT_WRITE N_("Short write to req.txt file\nIs the Uemis Zurich plugged in correctly?")
#define BUFLEN 2048
#define NUM_PARAM_BUFS 10
#define UEMIS_TIMEOUT 50000 /* 50ms */
#define UEMIS_LONG_TIMEOUT 500000 /* 500ms */
#define UEMIS_MAX_TIMEOUT 2000000 /* 2s */
static char *param_buff[NUM_PARAM_BUFS];
static char *reqtxt_path;
static int reqtxt_file;
static int filenr;
static int number_of_files;
static char *mbuf = NULL;
static int mbuf_size = 0;
struct argument_block {
const char *mountpath;
progressbar_t *progress;
gboolean force_download;
};
static int nr_divespots = 0;
static int import_thread_done = 0, import_thread_cancelled;
static const char *progress_bar_text = "";
static double progress_bar_fraction = 0.0;
static GError *error(const char *fmt, ...)
{
va_list args;
GError *error;
va_start(args, fmt);
error = g_error_new_valist(
g_quark_from_string("subsurface"),
DIVE_ERROR_PARSE, fmt, args);
va_end(args);
return error;
}
/* helper function to parse the Uemis data structures */
static void uemis_ts(char *buffer, void *_when)
{
struct tm tm;
timestamp_t *when = _when;
memset(&tm, 0, sizeof(tm));
sscanf(buffer,"%d-%d-%dT%d:%d:%d",
&tm.tm_year, &tm.tm_mon, &tm.tm_mday,
&tm.tm_hour, &tm.tm_min, &tm.tm_sec);
tm.tm_mon -= 1;
tm.tm_year -= 1900;
*when = utc_mktime(&tm);
}
/* float minutes */
static void uemis_duration(char *buffer, duration_t *duration)
{
duration->seconds = atof(buffer) * 60 + 0.5;
}
/* int cm */
static void uemis_depth(char *buffer, depth_t *depth)
{
depth->mm = atoi(buffer) * 10;
}
static void uemis_get_index(char *buffer, int *idx)
{
*idx = atoi(buffer);
}
/* space separated */
static void uemis_add_string(char *buffer, char **text)
{
if (!buffer || !*buffer)
return;
if (!*text) {
*text = strdup(buffer);
} else {
char *buf = malloc(strlen(buffer) + strlen(*text) + 2);
strcpy(buf, *text);
strcat(buf, " ");
strcat(buf, buffer);
free(*text);
*text = buf;
}
}
/* still unclear if it ever reports lbs */
static void uemis_get_weight(char *buffer, weightsystem_t *weight, int diveid)
{
weight->weight.grams = uemis_get_weight_unit(diveid) ?
lbs_to_grams(atof(buffer)) : atof(buffer) * 1000;
weight->description = strdup("unknown");
}
static struct dive *uemis_start_dive(int deviceid)
{
struct dive *dive = alloc_dive();
dive->downloaded = TRUE;
dive->dc.model = strdup("Uemis Zurich");
dive->dc.deviceid = deviceid;
return dive;
}
/* send text to the importer progress bar */
static void uemis_info(const char *fmt, ...)
{
static char buffer[32];
va_list ap;
va_start(ap, fmt);
vsnprintf(buffer, sizeof(buffer), fmt, ap);
va_end(ap);
progress_bar_text = buffer;
}
static long bytes_available(int file)
{
long result;
long now = lseek(file, 0, SEEK_CUR);
result = lseek(file, 0, SEEK_END);
lseek(file, now, SEEK_SET);
return result;
}
static int number_of_file(char *path)
{
int count = 0;
GDir *dir = g_dir_open(path, 0, NULL);
while (g_dir_read_name(dir))
count++;
g_dir_close(dir);
return count;
}
/* Check if there's a req.txt file and get the starting filenr from it.
* Test for the maximum number of ANS files (I believe this is always
* 4000 but in case there are differences depending on firmware, this
* code is easy enough */
static gboolean uemis_init(const char *path)
{
char *ans_path;
int i;
if (!path)
return FALSE;
/* let's check if this is indeed a Uemis DC */
reqtxt_path = g_build_filename(path, "/req.txt", NULL);
reqtxt_file = g_open(reqtxt_path, O_RDONLY, 0666);
if (!reqtxt_file) {
#if UEMIS_DEBUG
fprintf(debugfile, ":EE req.txt can't be opened\n");
#endif
return FALSE;
}
if (bytes_available(reqtxt_file) > 5) {
char tmp[6];
read(reqtxt_file, tmp, 5);
tmp[5] = '\0';
#if UEMIS_DEBUG > 1
fprintf(debugfile, "::r req.txt \"%s\"\n", tmp);
#endif
if (sscanf(tmp + 1, "%d", &filenr) != 1)
return FALSE;
}
else {
filenr = 0;
#if UEMIS_DEBUG > 1
fprintf(debugfile, "::r req.txt skipped as there were fewer than 5 bytes\n");
#endif
}
close (reqtxt_file);
/* It would be nice if we could simply go back to the first set of
* ANS files. But with a FAT filesystem that isn't possible */
ans_path = g_build_filename(path, "ANS", NULL);
number_of_files = number_of_file(ans_path);
g_free(ans_path);
/* initialize the array in which we collect the answers */
for (i = 0; i < NUM_PARAM_BUFS; i++)
param_buff[i] = "";
return TRUE;
}
static void str_append_with_delim(char *s, char *t)
{
int len = strlen(s);
snprintf(s + len, BUFLEN - len, "%s{", t);
}
/* The communication protocoll with the DC is truly funky.
* After you write your request to the req.txt file you call this function.
* It writes the number of the next ANS file at the beginning of the req.txt
* file (prefixed by 'n' or 'r') and then again at the very end of it, after
* the full request (this time without the prefix).
* Then it syncs (not needed on Windows) and closes the file. */
static void trigger_response(int file, char *command, int nr, long tailpos)
{
char fl[10];
snprintf(fl, 8, "%s%04d", command, nr);
#if UEMIS_DEBUG > 2
fprintf(debugfile,":tr %s (after seeks)\n", fl);
#endif
lseek(file, 0, SEEK_SET);
write(file, fl, strlen(fl));
lseek(file, tailpos, SEEK_SET);
write(file, fl + 1, strlen(fl + 1));
#ifndef WIN32
fsync(file);
#endif
close(file);
}
static char *next_token(char **buf)
{
char *q, *p = strchr(*buf, '{');
if (p)
*p = '\0';
else
p = *buf + strlen(*buf) - 1;
q = *buf;
*buf = p + 1;
return q;
}
/* poor man's tokenizer that understands a quoted delimter ('{') */
static char *next_segment(char *buf, int *offset, int size)
{
int i = *offset;
int seg_size;
gboolean done = FALSE;
char *segment;
while (!done) {
if (i < size) {
if (buf[i] == '\\' && i < size - 1 &&
(buf[i+1] == '\\' || buf[i+1] == '{'))
memcpy(buf + i, buf + i + 1, size - i - 1);
else if (buf[i] == '{')
done = TRUE;
i++;
} else {
done = TRUE;
}
}
seg_size = i - *offset - 1;
if (seg_size < 0)
seg_size = 0;
segment = malloc(seg_size + 1);
memcpy(segment, buf + *offset, seg_size);
segment[seg_size] = '\0';
*offset = i;
return segment;
}
/* a dynamically growing buffer to store the potentially massive responses.
* The binary data block can be more than 100k in size (base64 encoded) */
static void buffer_add(char **buffer, int *buffer_size, char *buf)
{
if (!buf)
return;
if (! *buffer) {
*buffer = strdup(buf);
*buffer_size = strlen(*buffer) + 1;
} else {
*buffer_size += strlen(buf);
*buffer = realloc(*buffer, *buffer_size);
strcat(*buffer, buf);
}
#if UEMIS_DEBUG > 5
fprintf(debugfile,"added \"%s\" to buffer - new length %d\n", buf, *buffer_size);
#endif
}
/* are there more ANS files we can check? */
static gboolean next_file(int max)
{
if (filenr >= max)
return FALSE;
filenr++;
return TRUE;
}
/* ultra-simplistic; it doesn't deal with the case when the object_id is
* split across two chunks. It also doesn't deal with the discrepancy between
* object_id and dive number as understood by the dive computer */
static void show_progress(char *buf, char *what)
{
char *object;
object = strstr(buf, "object_id");
if (object) {
/* let the user know what we are working on */
char tmp[10];
char *p = object + 14;
char *t = tmp;
if (p < buf + strlen(buf)) {
while (*p != '{' && t < tmp + 9)
*t++ = *p++;
*t = '\0';
uemis_info(_("Reading %s %s"), what, tmp);
}
}
}
static void uemis_increased_timeout(int *timeout)
{
if (*timeout < UEMIS_MAX_TIMEOUT)
*timeout += UEMIS_LONG_TIMEOUT;
usleep(*timeout);
}
/* send a request to the dive computer and collect the answer */
static gboolean uemis_get_answer(const char *path, char *request, int n_param_in,
int n_param_out, char **error_text)
{
int i = 0, file_length;
char sb[BUFLEN];
char fl[13];
char tmp[101];
char *what = _("data");
gboolean searching = TRUE;
gboolean assembling_mbuf = FALSE;
gboolean ismulti = FALSE;
gboolean found_answer = FALSE;
gboolean more_files = TRUE;
gboolean answer_in_mbuf = FALSE;
char *ans_path;
int ans_file;
int timeout = UEMIS_LONG_TIMEOUT;
reqtxt_file = g_open(reqtxt_path, O_RDWR | O_CREAT, 0666);
snprintf(sb, BUFLEN, "n%04d12345678", filenr);
str_append_with_delim(sb, request);
for (i = 0; i < n_param_in; i++)
str_append_with_delim(sb, param_buff[i]);
if (! strcmp(request, "getDivelogs") || ! strcmp(request, "getDeviceData") || ! strcmp(request, "getDirectory") ||
! strcmp(request, "getDivespot") || strcmp(request, "getDive")) {
answer_in_mbuf = TRUE;
str_append_with_delim(sb, "");
if (! strcmp(request, "getDivelogs"))
what = _("divelog entry id");
else if (!strcmp(request, "getDivespot"))
what = _("divespot data id");
else if (!strcmp(request, "getDive"))
what = _("additional data dive id");
}
str_append_with_delim(sb, "");
file_length = strlen(sb);
snprintf(fl, 10, "%08d", file_length - 13);
memcpy(sb + 5, fl, strlen(fl));
#ifdef UEMIS_DEBUG
fprintf(debugfile,"::w req.txt \"%s\"\n", sb);
#endif
if (write(reqtxt_file, sb, strlen(sb)) != strlen(sb)) {
*error_text = _(ERR_FS_SHORT_WRITE);
return FALSE;
}
if (! next_file(number_of_files)) {
*error_text = _(ERR_FS_FULL);
more_files = FALSE;
}
trigger_response(reqtxt_file, "n", filenr, file_length);
usleep(timeout);
mbuf = NULL;
mbuf_size = 0;
while (searching || assembling_mbuf) {
if (import_thread_cancelled)
return FALSE;
progress_bar_fraction = filenr / 4000.0;
snprintf(fl, 13, "ANS%d.TXT", filenr - 1);
ans_path = g_build_filename(path, "ANS", fl, NULL);
ans_file = g_open(ans_path, O_RDONLY, 0666);
read(ans_file, tmp, 100);
close(ans_file);
#if UEMIS_DEBUG > 3
tmp[100]='\0';
fprintf(debugfile, "::t %s \"%s\"\n", ans_path, tmp);
#elif UEMIS_DEBUG > 1
char pbuf[4];
pbuf[0] = tmp[0];
pbuf[1] = tmp[1];
pbuf[2] = tmp[2];
pbuf[3] = 0;
fprintf(debugfile, "::t %s \"%s...\"\n", ans_path, pbuf);
#endif
g_free(ans_path);
if (tmp[0] == '1') {
searching = FALSE;
if (tmp[1] == 'm') {
assembling_mbuf = TRUE;
ismulti = TRUE;
}
if (tmp[2] == 'e')
assembling_mbuf = FALSE;
if (assembling_mbuf) {
if (! next_file(number_of_files)) {
*error_text = _(ERR_FS_FULL);
more_files = FALSE;
assembling_mbuf = FALSE;
}
reqtxt_file = g_open(reqtxt_path, O_RDWR | O_CREAT, 0666);
trigger_response(reqtxt_file, "n", filenr, file_length);
}
} else {
if (! next_file(number_of_files - 1)) {
*error_text = _(ERR_FS_FULL);
more_files = FALSE;
assembling_mbuf = FALSE;
searching = FALSE;
}
reqtxt_file = g_open(reqtxt_path, O_RDWR | O_CREAT, 0666);
trigger_response(reqtxt_file, "r", filenr, file_length);
uemis_increased_timeout(&timeout);
}
if (ismulti && more_files && tmp[0] == '1') {
int size;
snprintf(fl, 13, "ANS%d.TXT", assembling_mbuf ? filenr - 2 : filenr - 1);
ans_path = g_build_filename(path, "ANS", fl, NULL);
ans_file = g_open(ans_path, O_RDONLY, 0666);
size = bytes_available(ans_file);
if (size > 3) {
char *buf = malloc(size - 2);
lseek(ans_file, 3, SEEK_CUR);
read(ans_file, buf, size - 3);
buf[size - 3] = '\0';
buffer_add(&mbuf, &mbuf_size, buf);
show_progress(buf, what);
free(buf);
param_buff[3]++;
}
close(ans_file);
timeout = UEMIS_TIMEOUT;
usleep(UEMIS_TIMEOUT);
}
}
if (more_files) {
int size = 0, j = 0;
char *buf = NULL;
if (!ismulti) {
snprintf(fl, 13, "ANS%d.TXT", filenr - 1);
ans_path = g_build_filename(path, "ANS", fl, NULL);
ans_file = g_open(ans_path, O_RDONLY, 0666);
size = bytes_available(ans_file);
if (size > 3) {
buf = malloc(size - 2);
lseek(ans_file, 3, SEEK_CUR);
read(ans_file, buf, size - 3);
buf[size - 3] = '\0';
buffer_add(&mbuf, &mbuf_size, buf);
show_progress(buf, what);
#if UEMIS_DEBUG > 3
fprintf(debugfile, "::r %s \"%s\"\n", ans_path, buf);
#endif
}
size -= 3;
close(ans_file);
free(ans_path);
} else {
ismulti = FALSE;
}
#if UEMIS_DEBUG > 3
fprintf(debugfile,":r: %s\n", buf);
#endif
if (!answer_in_mbuf)
for (i = 0; i < n_param_out && j < size; i++)
param_buff[i] = next_segment(buf, &j, size);
found_answer = TRUE;
free(buf);
}
#if UEMIS_DEBUG
for (i = 0; i < n_param_out; i++)
fprintf(debugfile,"::: %d: %s\n", i, param_buff[i]);
#endif
return found_answer;
}
static void parse_divespot(char *buf)
{
char *bp = buf + 1;
char *tp = next_token(&bp);
char *tag, *type, *val;
char locationstring[255] = "";
int divespot, len;
double latitude, longitude;
if (strcmp(tp, "divespot"))
return;
do
tag = next_token(&bp);
while (*tag && strcmp(tag, "object_id"));
if (! *tag)
return;
type = next_token(&bp);
val = next_token(&bp);
divespot = atoi(val);
do {
tag = next_token(&bp);
type = next_token(&bp);
val = next_token(&bp);
if (!strcmp(type, "string") && *val && strcmp(val, " ")) {
len = strlen(locationstring);
snprintf(locationstring + len, sizeof(locationstring) - len,
"%s%s", len ? ", " : "", val);
} else if (!strcmp(type, "float")) {
if (!strcmp(tag, "longitude"))
longitude = atof(val);
else if (!strcmp(tag, "latitude"))
latitude = atof(val);
}
} while (tag && *tag);
uemis_set_divelocation(divespot, strdup(locationstring), latitude, longitude);
}
static void track_divespot(char *val, int diveid, char **location, double *latitude, double *longitude)
{
int id = atoi(val);
if (id >= 0 && id > nr_divespots)
nr_divespots = id;
uemis_mark_divelocation(diveid, id, location, latitude, longitude);
return;
}
static char *suit[] = { "", "wetsuit", "semidry", "drysuit" };
static char *suit_type[] = { "", "shorty", "vest", "long john", "jacket", "full suit", "2 pcs full suit" };
static char *suit_thickness[] = { "", "0.5-2mm", "2-3mm", "3-5mm", "5-7mm", "8mm+", "membrane" };
static void parse_tag(struct dive *dive, char *tag, char *val)
{
/* we can ignore computer_id, water and gas as those are redundant
* with the binary data and would just get overwritten */
if (! strcmp(tag, "date"))
uemis_ts(val, &dive->when);
else if (!strcmp(tag, "duration"))
uemis_duration(val, &dive->duration);
else if (!strcmp(tag, "depth"))
uemis_depth(val, &dive->maxdepth);
else if (!strcmp(tag, "file_content"))
uemis_parse_divelog_binary(val, dive);
else if (!strcmp(tag, "altitude"))
uemis_get_index(val, &dive->surface_pressure.mbar);
else if (!strcmp(tag, "f32Weight"))
uemis_get_weight(val, &dive->weightsystem[0], dive->dc.diveid);
else if (!strcmp(tag, "notes"))
uemis_add_string(val, &dive->notes);
else if (!strcmp(tag, "u8DiveSuit"))
uemis_add_string(suit[atoi(val)], &dive->suit);
else if (!strcmp(tag, "u8DiveSuitType"))
uemis_add_string(suit_type[atoi(val)], &dive->suit);
else if (!strcmp(tag, "u8SuitThickness"))
uemis_add_string(suit_thickness[atoi(val)], &dive->suit);
}
/* This function is called for both divelog and dive information that we get
* from the SDA (what an insane design, btw). The object_id in the divelog
* matches the logfilenr in the dive information (which has its own, often
* different object_id) - we use this as the diveid.
* We create the dive when parsing the divelog and then later, when we parse
* the dive information we locate the already created dive via its diveid.
* Most things just get parsed and converted into our internal data structures,
* but the dive location API is even more crazy. We just get an id that is an
* index into yet another data store that we read out later. In order to
* correctly populate the location and gps data from that we need to remember
* the adresses of those fields for every dive that references the divespot. */
static void process_raw_buffer(int deviceid, char *inbuf, char **max_divenr)
{
char *buf = strdup(inbuf);
char *tp, *bp, *tag, *type, *val;
gboolean done = FALSE;
int inbuflen = strlen(inbuf);
char *endptr = buf + inbuflen;
gboolean log = FALSE;
char *sections[10];
int s, nr_sections = 0;
struct dive *dive = NULL;
bp = buf + 1;
tp = next_token(&bp);
if (strcmp(tp, "divelog") == 0) {
/* this is a divelog */
log = TRUE;
tp = next_token(&bp);
if (strcmp(tp,"1.0") != 0)
return;
} else if (strcmp(tp, "dive") == 0) {
/* this is dive detail */
tp = next_token(&bp);
if (strcmp(tp,"1.0") != 0)
return;
} else {
/* don't understand the buffer */
return;
}
if (log)
dive = uemis_start_dive(deviceid);
while (!done) {
/* the valid buffer ends with a series of delimiters */
if (bp >= endptr - 2 || !strcmp(bp, "{{"))
break;
tag = next_token(&bp);
/* we also end if we get an empty tag */
if (*tag == '\0')
break;
for (s = 0; s < nr_sections; s++)
if (!strcmp(tag, sections[s])) {
tag = next_token(&bp);
break;
}
type = next_token(&bp);
if (!strcmp(type, "1.0")) {
/* this tells us the sections that will follow; the tag here
* is of the format dive-<section> */
sections[nr_sections] = strchr(tag, '-') + 1;
#if UEMIS_DEBUG > 2
fprintf(debugfile, "Expect to find section %s\n", sections[nr_sections]);
#endif
if (nr_sections < sizeof(sections) - 1)
nr_sections++;
continue;
}
val = next_token(&bp);
if (log && ! strcmp(tag, "object_id")) {
free(*max_divenr);
*max_divenr = strdup(val);
dive->dc.diveid = atoi(val);
} else if (!log && ! strcmp(tag, "logfilenr")) {
/* this one tells us which dive we are adding data to */
dive = get_dive_by_diveid(atoi(val), deviceid);
} else if (!log && dive && ! strcmp(tag, "divespot_id")) {
track_divespot(val, dive->dc.diveid, &dive->location, &dive->latitude, &dive->longitude);
} else if (dive) {
parse_tag(dive, tag, val);
}
if (log && ! strcmp(tag, "file_content"))
done = TRUE;
/* done with one dive (got the file_content tag), but there could be more:
* a '{' indicates the end of the record - but we need to see another "{{"
* later in the buffer to know that the next record is complete (it could
* be a short read because of some error */
if (done && ++bp < endptr && *bp != '{' && strstr(bp, "{{")) {
done = FALSE;
record_dive(dive);
mark_divelist_changed(TRUE);
dive = uemis_start_dive(deviceid);
}
}
if (log) {
if (dive->dc.diveid) {
record_dive(dive);
mark_divelist_changed(TRUE);
} else { /* partial dive */
free(dive);
}
}
free(buf);
return;
}
static char *get_divenr(char *deviceidstr)
{
int deviceid, i, maxdiveid = 0;
char divenr[10];
deviceid = atoi(deviceidstr);
for (i = 0; i < dive_table.nr; i++) {
struct divecomputer *dc = &dive_table.dives[i]->dc;
if (dc->deviceid == deviceid && dc->diveid > maxdiveid)
maxdiveid = dc->diveid;
}
snprintf(divenr, 10, "%d", maxdiveid);
return strdup(divenr);
}
static char *do_uemis_download(struct argument_block *args)
{
const char *mountpath = args->mountpath;
char *newmax = NULL;
int start, end, i, deviceidnr;
char objectid[10];
char *deviceid = NULL;
char *result = NULL;
char *endptr;
gboolean success;
uemis_info("Init Communication");
if (! uemis_init(mountpath))
return _("Uemis init failed");
if (! uemis_get_answer(mountpath, "getDeviceId", 0, 1, &result))
goto bail;
deviceid = strdup(param_buff[0]);
deviceidnr = atoi(deviceid);
/* the answer from the DeviceId call becomes the input parameter for getDeviceData */
if (! uemis_get_answer(mountpath, "getDeviceData", 1, 0, &result))
goto bail;
/* param_buff[0] is still valid */
if (! uemis_get_answer(mountpath, "initSession", 1, 6, &result))
goto bail;
uemis_info("Start download");
if (! uemis_get_answer(mountpath, "processSync", 0, 2, &result))
goto bail;
/* before starting the long download, check if user pressed cancel */
if (import_thread_cancelled)
goto bail;
param_buff[1] = "notempty";
/* if we have an empty divelist or force it, then we start downloading from the
* first dive on the Uemis; otherwise check which was the last dive downloaded */
if (!args->force_download && dive_table.nr > 0)
newmax = get_divenr(deviceid);
else
newmax = strdup("0");
start = atoi(newmax);
for (;;) {
param_buff[2] = newmax;
param_buff[3] = 0;
success = uemis_get_answer(mountpath, "getDivelogs", 3, 0, &result);
/* process the buffer we have assembled */
if (mbuf)
process_raw_buffer(deviceidnr, mbuf, &newmax);
/* if the user clicked cancel, exit gracefully */
if (import_thread_cancelled)
goto bail;
/* if we got an error or got nothing back, stop trying */
if (!success || !param_buff[3])
break;
/* finally, if the memory is getting too full, maybe we better stop, too */
if (progress_bar_fraction > 0.85) {
result = _(ERR_FS_ALMOST_FULL);
break;
}
/* clean up mbuf */
endptr = strstr(mbuf, "{{{");
if (endptr)
*(endptr + 2) = '\0';
}
if (sscanf(newmax, "%d", &end) != 1)
end = start;
#if UEMIS_DEBUG > 1
fprintf(debugfile, "done: read from object_id %d to %d\n", start, end);
#endif
free(newmax);
for (i = start; i < end; i++) {
snprintf(objectid, sizeof(objectid), "%d", i);
param_buff[2] = objectid;
success = uemis_get_answer(mountpath, "getDive", 3, 0, &result);
if (mbuf)
process_raw_buffer(deviceidnr, mbuf, &newmax);
if (!success || import_thread_cancelled)
break;
}
success = TRUE;
for (i = 0; i <= nr_divespots; i++) {
char divespotnr[10];
snprintf(divespotnr, sizeof(divespotnr), "%d", i);
param_buff[2] = divespotnr;
success = uemis_get_answer(mountpath, "getDivespot", 3, 0, &result);
if (mbuf)
parse_divespot(mbuf);
}
bail:
(void) uemis_get_answer(mountpath, "terminateSync", 0, 3, &result);
if (! strcmp(param_buff[0], "error")) {
if (! strcmp(param_buff[2],"Out of Memory"))
result = _(ERR_FS_FULL);
else
result = param_buff[2];
}
free(deviceid);
return result;
}
static void *pthread_wrapper(void *_data)
{
struct argument_block *args = _data;
const char *err_string = do_uemis_download(args);
import_thread_done = 1;
return (void *)err_string;
}
/* this simply ends the dialog without a response and asks not to be fired again
* as we set this function up in every loop while uemis_download is waiting for
* the download to finish */
static gboolean timeout_func(gpointer _data)
{
GtkDialog *dialog = _data;
if (!import_thread_cancelled)
gtk_dialog_response(dialog, GTK_RESPONSE_NONE);
return FALSE;
}
GError *uemis_download(const char *mountpath, progressbar_t *progress,
GtkDialog *dialog, gboolean force_download)
{
pthread_t pthread;
void *retval;
struct argument_block args = {mountpath, progress, force_download};
/* I'm sure there is some better interface for waiting on a thread in a UI main loop */
import_thread_done = 0;
progress_bar_text = "";
progress_bar_fraction = 0.0;
pthread_create(&pthread, NULL, pthread_wrapper, &args);
/* loop here until the import is done or was cancelled by the user;
* in order to get control back from gtk we register a timeout function
* that ends the dialog with no response every 100ms; we then update the
* progressbar and setup the timeout again - unless of course the user
* pressed cancel, in which case we just wait for the download thread
* to react to that and exit */
while (!import_thread_done) {
if (!import_thread_cancelled) {
int result;
g_timeout_add(100, timeout_func, dialog);
update_progressbar(args.progress, progress_bar_fraction);
update_progressbar_text(args.progress, progress_bar_text);
result = gtk_dialog_run(dialog);
if (result == GTK_RESPONSE_CANCEL)
import_thread_cancelled = TRUE;
} else {
update_progressbar(args.progress, progress_bar_fraction);
update_progressbar_text(args.progress, "Cancelled, exiting cleanly...");
usleep(100000);
}
}
if (pthread_join(pthread, &retval) < 0)
return error("Pthread return with error");
if (retval)
return error(retval);
return NULL;
}
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