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Move the function to read individual dives into the library.

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A callback function can be provided to process each downloaded dive.
This commit is contained in:
Jef Driesen 2008-03-11 15:58:54 +00:00
parent 02bb6019ee
commit feae81bd45
4 changed files with 191 additions and 188 deletions
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2
suunto.h
View File

@ -8,6 +8,8 @@
#define SUUNTO_ERROR_PROTOCOL -4
#define SUUNTO_ERROR_TIMEOUT -5
typedef void (*dive_callback_t) (const unsigned char *data, unsigned int size, void *userdata);
#include "suunto_vyper.h"
#include "suunto_vyper2.h"
#include "suunto_d9.h"

182
suunto_d9.c
View File

@ -16,12 +16,24 @@
message ("%s:%d: %s\n", __FILE__, __LINE__, expr); \
}
#define DISTANCE(a,b) distance (a, b, SUUNTO_D9_MEMORY_SIZE - 0x019A - 2)
struct d9 {
struct serial *port;
};
static unsigned int
distance (unsigned int a, unsigned int b, unsigned int size)
{
if (a <= b) {
return (b - a) % size;
} else {
return size - (a - b) % size;
}
}
int
suunto_d9_open (d9 **out, const char* name)
{
@ -330,3 +342,173 @@ suunto_d9_write_memory (d9 *device, unsigned int address, const unsigned char da
return SUUNTO_SUCCESS;
}
int
suunto_d9_read_dives (d9 *device, dive_callback_t callback, void *userdata)
{
if (device == NULL)
return SUUNTO_ERROR;
// Read the header bytes.
unsigned char header[8] = {0};
int rc = suunto_d9_read_memory (device, 0x0190, header, sizeof (header));
if (rc != SUUNTO_SUCCESS) {
WARNING ("Cannot read memory header.");
return rc;
}
// Obtain the pointers from the header.
unsigned int last = header[0] + (header[1] << 8);
unsigned int count = header[2] + (header[3] << 8);
unsigned int end = header[4] + (header[5] << 8);
unsigned int begin = header[6] + (header[7] << 8);
message ("Pointers: begin=%04x, last=%04x, end=%04x, count=%i\n", begin, last, end, count);
// Memory buffer to store all the dives.
unsigned int index = 0;
unsigned char data[SUUNTO_D9_MEMORY_SIZE - 0x019A - 2] = {0};
// Calculate the total amount of bytes.
unsigned int remaining = DISTANCE (begin, end);
// To reduce the number of read operations, we always try to read
// packages with the largest possible size. As a consequence, the
// last package of a dive can contain data from more than one dive.
// Therefore, the remaining data of this package (and its size)
// needs to be preserved for the next dive.
// The package buffer also needs some extra space to store the
// pointer bytes (see later on for the reason).
unsigned int available = 0;
unsigned char package[SUUNTO_D9_PACKET_SIZE + 3] = {0};
// The ring buffer is traversed backwards to retrieve the most recent
// dives first. This allows you to download only the new dives. During
// the traversal, the current pointer does always point to the end of
// the dive data and we move to the "next" dive by means of the previous
// pointer.
unsigned int ndives = 0;
unsigned int current = end;
unsigned int previous = last;
while (current != begin) {
// Calculate the size of the current dive.
unsigned int size = DISTANCE (previous, current);
message ("Pointers: dive=%u, current=%04x, previous=%04x, size=%u, remaining=%u\n", ndives + 1, current, previous, size, remaining);
assert (size >= 4);
// Check if the output buffer is large enough to store the entire
// dive. The output buffer does not need space for the previous and
// next pointers (4 bytes).
assert (sizeof (data) >= index + size - 4);
// If there is already some data available from downloading
// the previous dive, it is processed here.
if (available) {
// Calculate the offset to the package data.
unsigned int offset = 0;
if (available > size - 4)
offset = available - (size - 4);
// Prepend the package data to the output buffer.
unsigned int e = index + (size - 4);
unsigned int n = available - offset;
memcpy (data + e - n, package + offset, n);
}
unsigned int nbytes = available;
unsigned int address = current - available;
while (nbytes < size) {
// Calculate the package size. Try with the largest possible
// size first, and adjust when the end of the ringbuffer or
// the end of the profile data is reached.
unsigned int len = SUUNTO_D9_PACKET_SIZE;
if (0x019A + len > address)
len = address - 0x019A; // End of ringbuffer.
if (nbytes + len > remaining)
len = remaining - nbytes; // End of profile.
/*if (nbytes + len > size)
len = size - nbytes;*/ // End of dive (for testing only).
// Calculate the offset to the package data, skipping the
// previous and next pointers (4 bytes) and also the data
// from the next dive (if present). Thus, the offset is only
// non-zero for packages at the end of the dive.
unsigned int offset = 0;
if (nbytes + len > size - 4)
offset = nbytes + len - (size - 4);
message ("Pointers: address=%04x, len=%u, offset=%u\n", address - len, len, offset);
// The previous and next pointers can be split over multiple
// packages. If that is the case, we move those byte(s) from
// the start of the previous package to the end of the current
// package. With this approach, the pointers are preserved when
// reading the current package (in the next step) and they are
// again in a continuous memory area.
if (offset > len) {
message ("Pointers: dst=%u, src=%u, len=%u\n", len, 0, offset - len);
memmove (package + len, package, offset - len);
}
// Read the package.
rc = suunto_d9_read_memory (device, address - len, package, len);
if (rc != SUUNTO_SUCCESS) {
WARNING ("Cannot read memory.");
return rc;
}
// Prepend the package data to the output buffer.
if (offset < len) {
unsigned int e = index + (size - 4) - nbytes;
unsigned int n = len - offset;
memcpy (data + e - n, package + offset, n);
}
// Next package.
nbytes += len;
address -= len;
if (address <= 0x019A)
address = SUUNTO_D9_MEMORY_SIZE - 2;
}
// The last package of the current dive contains the previous and
// next pointers (in a continuous memory area). It can also contain
// a number of bytes from the next dive. The offset to the pointers
// is equal to the number of remaining (or "available") bytes.
available = nbytes - size;
message ("Pointers: nbytes=%u, available=%u\n", nbytes, available);
unsigned int oprevious = package[available + 0x00] + (package[available + 0x01] << 8);
unsigned int onext = package[available + 0x02] + (package[available + 0x03] << 8);
message ("Pointers: previous=%04x, next=%04x\n", oprevious, onext);
assert (current == onext);
// Next dive.
current = previous;
previous = oprevious;
remaining -= size;
ndives++;
#ifndef NDEBUG
message ("D9Profile()=\"");
for (unsigned int i = 0; i < size - 4; ++i) {
message ("%02x", data[i + index]);
}
message ("\"\n");
#endif
if (callback)
callback (data + index, size - 4, userdata);
index += size - 4;
}
assert (remaining == 0);
assert (available == 0);
return SUUNTO_SUCCESS;
}

2
suunto_d9.h
View File

@ -22,6 +22,8 @@ int suunto_d9_read_memory (d9 *device, unsigned int address, unsigned char data[
int suunto_d9_write_memory (d9 *device, unsigned int address, const unsigned char data[], unsigned int size);
int suunto_d9_read_dives (d9 *device, dive_callback_t callback, void *userdata);
#ifdef __cplusplus
}
#endif /* __cplusplus */

193
suunto_d9_test.c
View File

@ -1,6 +1,4 @@
#include <stdio.h> // fopen, fwrite, fclose
#include <assert.h> // assert
#include <string.h> // memcpy, memmove
#include "suunto.h"
#include "utils.h"
@ -10,21 +8,8 @@
message ("%s:%d: %s\n", __FILE__, __LINE__, expr); \
}
#define DISTANCE(a,b) distance (a, b, SUUNTO_D9_MEMORY_SIZE - 0x019A - 2)
unsigned int
distance (unsigned int a, unsigned int b, unsigned int size)
int test_dump_sdm (const char* name)
{
if (a <= b) {
return (b - a) % size;
} else {
return size - (a - b) % size;
}
}
int test_dump_sdm (const char* name, const char* filename)
{
unsigned char data[SUUNTO_D9_MEMORY_SIZE] = {0};
d9 *device = NULL;
message ("suunto_d9_open\n");
@ -43,181 +28,13 @@ int test_dump_sdm (const char* name, const char* filename)
return rc;
}
message ("suunto_d9_read_memory\n");
rc = suunto_d9_read_memory (device, 0x00, data + 0x00, SUUNTO_D9_PACKET_SIZE);
message ("suunto_d9_read_dives\n");
rc = suunto_d9_read_dives (device, NULL, NULL);
if (rc != SUUNTO_SUCCESS) {
WARNING ("Cannot read memory.");
WARNING ("Cannot read dives.");
suunto_d9_close (device);
return rc;
}
rc = suunto_d9_read_memory (device, 0x168, data + 0x168, SUUNTO_D9_PACKET_SIZE);
if (rc != SUUNTO_SUCCESS) {
WARNING ("Cannot read memory.");
suunto_d9_close (device);
return rc;
}
rc = suunto_d9_read_memory (device, 0xF0, data + 0xF0, SUUNTO_D9_PACKET_SIZE);
if (rc != SUUNTO_SUCCESS) {
WARNING ("Cannot read memory.");
suunto_d9_close (device);
return rc;
}
message ("suunto_d9_read_dive\n");
unsigned int last = data[0x0190] + (data[0x0191] << 8);
unsigned int count = data[0x0192] + (data[0x0193] << 8);
unsigned int end = data[0x0194] + (data[0x0195] << 8);
unsigned int begin = data[0x0196] + (data[0x0197] << 8);
message ("Pointers: begin=%04x, last=%04x, end=%04x, count=%i\n", begin, last, end, count);
unsigned int index = 0x019A;
// Calculate the total amount of bytes.
unsigned int remaining = DISTANCE (begin, end);
// To reduce the number of read operations, we always try to read
// packages with the largest possible size. As a consequence, the
// last package of a dive can contain data from more than one dive.
// Therefore, the remaining data of this package (and its size)
// needs to be preserved for the next dive.
// The package buffer also needs some extra space to store the
// pointer bytes (see later on for the reason).
unsigned int available = 0;
unsigned char package[SUUNTO_D9_PACKET_SIZE + 3] = {0};
// The ring buffer is traversed backwards to retrieve the most recent
// dives first. This allows you to download only the new dives. During
// the traversal, the current pointer does always point to the end of
// the dive data and we move to the "next" dive by means of the previous
// pointer.
unsigned int ndives = 0;
unsigned int current = end;
unsigned int previous = last;
while (current != begin) {
// Calculate the size of the current dive.
unsigned int size = DISTANCE (previous, current);
message ("Pointers: dive=%u, current=%04x, previous=%04x, size=%u, remaining=%u\n", ndives + 1, current, previous, size, remaining);
assert (size >= 4);
// Check if the output buffer is large enough to store the entire
// dive. The output buffer does not need space for the previous and
// next pointers (4 bytes).
unsigned char *pointer = data + index + size - 4;
if (sizeof (data) - index < size - 4) {
WARNING ("Insufficient buffer space available.");
return SUUNTO_ERROR_MEMORY;
}
// If there is already some data available from downloading
// the previous dive, it is processed here.
if (available) {
// Calculate the offset to the package data.
unsigned int offset = 0;
if (available > size - 4)
offset = available - (size - 4);
// Prepend the package data to the output buffer.
pointer -= available - offset;
memcpy (pointer, package + offset, available - offset);
}
unsigned int nbytes = available;
unsigned int address = current - available;
while (nbytes < size) {
// Calculate the package size. Try with the largest possible
// size first, and adjust when the end of the ringbuffer or
// the end of the profile data is reached.
unsigned int len = SUUNTO_D9_PACKET_SIZE;
if (0x019A + len > address)
len = address - 0x019A; // End of ringbuffer.
if (nbytes + len > remaining)
len = remaining - nbytes; // End of profile.
/*if (nbytes + len > size)
len = size - nbytes;*/ // End of dive (for testing only).
// Calculate the offset to the package data, skipping the
// previous and next pointers (4 bytes) and also the data
// from the next dive (if present). Thus, the offset is only
// non-zero for packages at the end of the dive.
unsigned int offset = 0;
if (nbytes + len > size - 4)
offset = nbytes + len - (size - 4);
message ("Pointers: address=%04x, len=%u, offset=%u\n", address - len, len, offset);
// The previous and next pointers can be split over multiple
// packages. If that is the case, we move those byte(s) from
// the start of the previous package to the end of the current
// package. With this approach, the pointers are preserved when
// reading the current package (in the next step) and they are
// again in a continuous memory area.
if (offset > len) {
message ("Pointers: dst=%u, src=%u, len=%u\n", len, 0, offset - len);
memmove (package + len, package, offset - len);
}
// Read the package.
rc = suunto_d9_read_memory (device, address - len, package, len);
if (rc != SUUNTO_SUCCESS) {
WARNING ("Cannot read memory.");
suunto_d9_close (device);
return rc;
}
// Prepend the package data to the output buffer.
if (offset < len) {
pointer -= len - offset;
memcpy (pointer, package + offset, len - offset);
}
// Next package.
nbytes += len;
address -= len;
if (address <= 0x019A)
address = SUUNTO_D9_MEMORY_SIZE - 2;
}
// The last package of the current dive contains the previous and
// next pointers (in a continuous memory area). It can also contain
// a number of bytes from the next dive. The offset to the pointers
// is equal to the number of remaining (or "available") bytes.
available = nbytes - size;
message ("Pointers: nbytes=%u, available=%u\n", nbytes, available);
unsigned int oprevious = package[available + 0x00] + (package[available + 0x01] << 8);
unsigned int onext = package[available + 0x02] + (package[available + 0x03] << 8);
message ("Pointers: previous=%04x, next=%04x\n", oprevious, onext);
assert (current == onext);
// Next dive.
current = previous;
previous = oprevious;
remaining -= size;
ndives++;
#ifndef NDEBUG
message ("D9Profile()=\"");
for (unsigned int i = 0; i < size - 4; ++i) {
message ("%02x", data[i + index]);
}
message ("\"\n");
#endif
index += size - 4;
}
assert (remaining == 0);
assert (available == 0);
message ("Dumping data\n");
FILE *fp = fopen (filename, "wb");
if (fp != NULL) {
fwrite (data, sizeof (unsigned char), sizeof (data), fp);
fclose (fp);
}
message ("suunto_d9_close\n");
rc = suunto_d9_close (device);
@ -312,7 +129,7 @@ int main(int argc, char *argv[])
message ("DEVICE=%s\n", name);
int a = test_dump_memory (name, "D9.DMP");
int b = test_dump_sdm (name, "D9.SDM");
int b = test_dump_sdm (name);
message ("\nSUMMARY\n");
message ("-------\n");