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m4api.c
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m4api.c
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/*
* m4api, a tool for M4-ATX DC-DC power supplies
* (c) 2009-2010 Ken Tossell <[email protected]>
*
* This is free software; you can redistribute it and/or modify it
* under the terms of the GNU Lesser General Public License, version 2.1,
* as published by the Free Software Foundation.
*
* This software 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 software; if not, write to the Free Software Foundation,
* Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#include <stdio.h>
#include <string.h>
#include <usb.h>
#include "m4api.h"
static size_t m4TypeLengths[13] = {
1, 1, 1, 1, 1, 1, 1, 2,
1, 2, 2, 1, 1
};
static float m4TypeConversions_v1[13] = {
0.1123, 0.076625, 0.0375, 0.0188136,
1.0, 1.0, 1.0, 1.0,
10.0, 10.0, 1.0, 1.0,
1.0
};
static float m4TypeConversions_v2[13] = {
0.1552, 0.1165, 0.0389, 0.0195,
1.0, 1.0, 1.0, 1.0,
10.0, 10.0, 1.0, 1.0,
1.0
};
static int m4TypeForms[13] = {
M4_FLOAT, M4_FLOAT, M4_FLOAT, M4_FLOAT,
M4_INTEG, M4_INTEG, M4_INTEG, M4_INTEG,
M4_INTEG, M4_INTEG, M4_TIMER, M4_INTEG,
M4_INTEG
};
char* m4TypeDescs[14] = {
"V", "V", "V", "V",
"deg. C", "sec", "ms", "ms",
"ms", "ms", "", "tries",
""
};
struct m4DiagField m4DiagFields[6] = {
{M4_VLT_12_11, 2, "VIN", "Input voltage"},
{M4_VLT_12_11, 3, "IGN", "Ignition voltage"},
{M4_VLT_33_01, 4, "33V", "Voltage on 3.3V rail"},
{M4_VLT_5_03, 5, "5V", "Voltage on 5V rail"},
{M4_VLT_12_07, 6, "12V", "Voltage on 12V rail"},
{M4_DEG, 12, "TEMP", "Temperature"},
};
size_t m4NumDiagFields = sizeof(m4DiagFields) / sizeof(m4DiagFields[0]);
struct m4ConfigField m4ConfigFields[47] = {
{M4_VLT_12_11, 0x00, "IGN_HIGH", "Ignition HIGH limit"},
{M4_VLT_12_11, 0x01, "IGN_LOW", "Ignition LOW limit"},
{M4_MSC_10_1, 0x02, "IGN_DBC", "Ignition debounce"},
{M4_SEC, 0x03, "PSU_DELAY", "Delay before PSU startup"},
{M4_VLT_12_11, 0x04, "VIN_MIN_START", "Min. VIN voltage at PSU startup"},
{M4_VLT_12_11, 0x05, "VIN_MIN_ON", "Min. VIN voltage while all rails are on"},
{M4_VLT_12_11, 0x06, "VIN_MIN_5V", "Min. VIN voltage while 5VSB is on"},
{M4_VLT_12_11, 0x07, "VIN_MAX", "Max. allowed VIN voltage"},
{M4_VLT_12_07, 0x08, "12V_MAX", "Max. limit for 12V"},
{M4_VLT_12_07, 0x09, "12V_MIN", "Min. limit for 12V"},
{M4_VLT_5_03, 0x0a, "5V_MAX", "Max. limit for 5V"},
{M4_VLT_5_03, 0x0b, "5V_MIN", "Min. limit for 5V"},
{M4_VLT_33_01, 0x0c, "33V_MAX", "Max. limit for 3.3V"},
{M4_VLT_33_01, 0x0d, "33V_MIN", "Min. limit for 3.3V"},
{M4_MSC_1_1, 0x0e, "12V_TIME", "12V rail startup time"},
{M4_MSC_1_1, 0x0f, "33V_TIME", "3.3V rail startup time"},
{M4_MSC_10_2, 0x10, "PWRSW", "PWRSW 'push-down' time"},
{M4_TRY, 0x12, "PSU_ON_TIME", "Try to turn ON the PSU for N time"},
{M4_SEC, 0x13, "ON_DELAY", "Delay between ON tries"},
{M4_TRY, 0x14, "PSU_OFF_TIME", "Try to turn OFF the PSU for N time"},
{M4_SEC, 0x15, "OFF_DELAY", "Delay between OFF tries"},
{M4_SEC, 0x16, "EMG_TIME_5VSB", "Emergency shutdown timer for 5VSB"},
{M4_SEC, 0x17, "EMG_TIMER", "Emergency shutdown timer"},
{M4_MSC_10_1, 0x18, "PS_ON_0", "PS ON 0 threshold"},
{M4_MSC_10_1, 0x19, "PS_ON_1", "PS ON 1 threshold"},
{M4_MSC_10_2, 0x1a, "THUMP", "Thump timeout"},
{M4_DEG, 0x1c, "TEMP_MAX", "Max. temperature"},
{M4_DEG, 0x1d, "TEMP_MIN", "Min. temperature"},
{M4_BYT, 0x1e, "EMG_OFF_MODE", "Emergency OFF mode selector"},
{M4_MSC_10_1, 0x1f, "5V_SBY_DLY", "5V standby PSW-on delay"},
{M4_TIM, 0x20, "OFF_DELAY_0", "Off-delay MODE 0"},
{M4_TIM, 0x22, "OFF_HARD_0", "Hard-off MODE 0"},
{M4_TIM, 0x24, "OFF_DELAY_1", "Off-delay MODE 1"},
{M4_TIM, 0x26, "OFF_HARD_1", "Hard-off MODE 1"},
{M4_TIM, 0x28, "OFF_DELAY_2", "Off-delay MODE 2"},
{M4_TIM, 0x2a, "OFF_HARD_2", "Hard-off MODE 2"},
{M4_TIM, 0x2c, "OFF_DELAY_3", "Off-delay MODE 3"},
{M4_TIM, 0x2e, "OFF_HARD_3", "Hard-off MODE 3"},
{M4_TIM, 0x30, "OFF_DELAY_4", "Off-delay MODE 4"},
{M4_TIM, 0x32, "OFF_HARD_4", "Hard-off MODE 4"},
{M4_TIM, 0x34, "OFF_DELAY_5", "Off-delay MODE 5"},
{M4_TIM, 0x36, "OFF_HARD_5", "Hard-off MODE 5"},
{M4_TIM, 0x38, "OFF_DELAY_6", "Off-delay MODE 6"},
{M4_TIM, 0x3a, "OFF_HARD_6", "Hard-off MODE 6"},
{M4_TIM, 0x3c, "OFF_DELAY_7", "Off-delay MODE 7"},
{M4_TIM, 0x3e, "OFF_HARD_7", "Hard-off MODE 7"},
/* big gap with no (known) fields */
{M4_BYT, 0xff, "RESET", "Reset to factory defaults"},
};
#define VENDOR 0x04d8
#define PRODUCT 0xd001
#define READ_ENDPOINT 0x81
#define WRITE_ENDPOINT 0x01
#define TIMEOUT 3000
typedef struct m4Handle {
struct usb_dev_handle *usb_devh;
int version;
} m4Handle;
static float* _m4GetConversionsTable(m4Handle *dev) {
if (dev->version >= 0x20)
return m4TypeConversions_v2;
else
return m4TypeConversions_v1;
}
m4Handle *m4Init() {
struct usb_bus *bus;
struct usb_device *dev;
usb_dev_handle *usb_devh = NULL;
m4Handle *m4_handle = NULL;
char diag_buf[24];
usb_init();
if (usb_find_busses() < 0) {
return NULL;
}
if (usb_find_devices() < 0) {
return NULL;
}
bus = usb_get_busses();
while (bus && !usb_devh) {
dev = bus->devices;
while (dev && !usb_devh) {
if (dev->descriptor.idVendor == VENDOR &&
dev->descriptor.idProduct == PRODUCT) {
usb_devh = usb_open(dev);
if (usb_devh) {
#ifdef LIBUSB_HAS_DETACH_KERNEL_DRIVER_NP
/* Linux usually claims HID devices for its usbhid driver. */
usb_detach_kernel_driver_np(usb_devh, 0);
#endif
if (usb_set_configuration(usb_devh, 1) < 0
|| usb_claim_interface(usb_devh, 0) < 0
|| usb_set_altinterface(usb_devh, 0) < 0) {
usb_close(usb_devh);
usb_devh = NULL;
continue;
}
}
}
dev = dev->next;
}
bus = bus->next;
}
if (!usb_devh)
goto fail;
m4_handle = (m4Handle*) malloc(sizeof(m4Handle));
if (!m4_handle)
goto fail;
memset(m4_handle, 0, sizeof(m4Handle));
m4_handle->usb_devh = usb_devh;
if (m4FetchDiag(m4_handle, diag_buf) < 0)
goto fail;
m4_handle->version = diag_buf[23];
return m4_handle;
fail:
if (m4_handle)
free(m4_handle);
if (usb_devh)
usb_close(usb_devh);
return NULL;
}
void m4Close(m4Handle *dev) {
if (dev->usb_devh)
usb_close(dev->usb_devh);
free(dev);
}
int m4Read(m4Handle *dev, unsigned char *buf, unsigned int len, int timeout) {
return usb_interrupt_read(dev->usb_devh, READ_ENDPOINT, (char*) buf, len, timeout);
}
int m4Write(m4Handle *dev, unsigned char *buf, unsigned int len, int timeout) {
return usb_interrupt_write(dev->usb_devh, WRITE_ENDPOINT, (char*) buf, len, timeout);
}
int m4FetchDiag(m4Handle *dev, char *buf) {
unsigned char pollCmd[] = {0x81, 0x00};
if (m4Write(dev, pollCmd, 2, TIMEOUT) != 2)
return -1;
if (m4Read(dev, buf, 24, TIMEOUT) != 24)
return -1;
if (buf[0] != 0x21)
return -1;
return 0;
}
int m4GetDiag(m4Handle *dev, struct m4Diagnostics *diag) {
char buf[24];
int field_id;
if (m4FetchDiag(dev, buf) < 0)
return -1;
diag->vin = m4GetVal(dev, M4_VLT_12_11, buf + 2);
diag->vign = m4GetVal(dev, M4_VLT_12_11, buf + 3);
diag->v33 = m4GetVal(dev, M4_VLT_33_01, buf + 4);
diag->v5 = m4GetVal(dev, M4_VLT_5_03, buf + 5);
diag->v12 = m4GetVal(dev, M4_VLT_12_07, buf + 6);
diag->temp = m4GetVal(dev, M4_DEG, buf + 12);
return 0;
}
float m4GetVal(m4Handle *dev, enum m4Type type, char *posn) {
float val;
short tmp_sh;
int tmp_i;
float *conversions;
switch (m4TypeLengths[type]) {
case 1:
tmp_i = posn[0];
if (type != M4_DEG) tmp_i &= 0xff;
break;
case 2:
if (type == M4_DEG) {
tmp_sh = (posn[0] << 8) | (posn[1]);
tmp_i = (float) tmp_sh;
} else {
tmp_i = ((unsigned char) posn[0] << 8) | ((unsigned char) posn[1]);
}
break;
default:
printf("ERROR: typeLen(%d) == %lu!\n", type, m4TypeLengths[type]);
exit(-1);
}
// printf("%x ", tmp_i);
conversions = _m4GetConversionsTable(dev);
val = tmp_i * conversions[type];
return val;
}
void m4PrintVal(m4Handle *dev, enum m4Type type, float val) {
int tmp_i, sec, min, hr;
switch (m4TypeForms[type]) {
case M4_INTEG:
if (type == M4_DEG)
printf("%+d", (int) val);
else
printf("%d", (int) val);
break;
case M4_FLOAT:
printf("%0.2f", val);
break;
case M4_TIMER:
tmp_i = (int) val;
if (tmp_i == 0xffff) {
printf("never");
} else {
sec = tmp_i % 60;
min = (tmp_i % 3600) / 60;
hr = tmp_i / 3600;
printf("%02d:%02d:%02d", hr, min, sec);
}
break;
default:
printf("ERROR: typeForm(%d) == %d!\n", type, m4TypeForms[type]);
break;
}
}
int m4GetConfig(m4Handle *dev, struct m4ConfigField *field, char *buf) {
unsigned char cmd[24] = {0xa4, 0xa1};
cmd[2] = field->index;
cmd[3] = m4TypeLengths[field->type];
if (m4Write(dev, cmd, 24, TIMEOUT) != 24)
return -1;
if (m4Read(dev, buf, 24, TIMEOUT) != 24)
return -1;
if (buf[0] != 0x31)
return -1;
return 0;
}
int m4ParseValue(m4Handle *dev, enum m4Type type, char const *strval, char *buf) {
int intval;
float fval;
int hr, min, sec;
float *conversions = _m4GetConversionsTable(dev);
switch(m4TypeForms[type]) {
case M4_INTEG:
intval = atoi(strval) / (int) conversions[type];
break;
case M4_FLOAT:
fval = atof(strval);
intval = fval / conversions[type];
break;
case M4_TIMER:
if (!strcasecmp("never", strval))
intval = 0xffff;
else {
if (sscanf(strval, "%d:%d:%d", &hr, &min, &sec) != 3)
return -1;
else
intval = 3600 * hr + 60 * min + sec;
}
}
if (m4TypeLengths[type] == 2) {
buf[0] = intval >> 8;
buf[1] = intval;
} else {
buf[0] = intval;
buf[1] = 0;
}
return 0;
}
int m4GetFloat(m4Handle *dev, enum m4FieldID fid, float *out) {
char buf[24];
struct m4ConfigField *field;
field = &m4ConfigFields[fid];
if (m4GetConfig(dev, field, buf))
return -1;
*out = m4GetVal(dev, field->type, &buf[4]);
return 0;
}
int m4SetFloat(m4Handle *dev, enum m4FieldID fid, float val) {
char binary[2];
int ival;
struct m4ConfigField *field;
float *conversions;
field = &m4ConfigFields[fid];
conversions = _m4GetConversionsTable(dev);
ival = val / conversions[field->type];
if (m4TypeLengths[field->type] == 2) {
binary[0] = ival >> 8;
binary[1] = ival;
} else {
binary[0] = ival;
binary[1] = 0;
}
return m4SetBinary(dev, field, binary);
}
int m4GetInteger(m4Handle *dev, enum m4FieldID fid, int *out) {
char buf[24];
struct m4ConfigField *field;
field = &m4ConfigFields[fid];
if (m4GetConfig(dev, field, buf))
return -1;
*out = (int) m4GetVal(dev, field->type, &buf[4]);
return 0;
}
int m4SetInteger(m4Handle *dev, enum m4FieldID fid, int val) {
char binary[2];
struct m4ConfigField *field;
float *conversions = _m4GetConversionsTable(dev);
field = &m4ConfigFields[fid];
val /= conversions[field->type];
if (m4TypeLengths[field->type] == 2) {
binary[0] = val >> 8;
binary[1] = val;
} else {
binary[0] = val;
binary[1] = 0;
}
return m4SetBinary(dev, field, binary);
}
int m4SetConfig(m4Handle *dev, struct m4ConfigField *field, char const *strval) {
char binary[] = {0, 0};
if (m4ParseValue(dev, field->type, strval, binary) < 0)
return -1;
return m4SetBinary(dev, field, binary);
}
int m4SetBinary(m4Handle *dev, struct m4ConfigField *field, char const *val) {
char buf[24];
unsigned char cmd[24] = {0xa4, 0xa0};
cmd[2] = field->index;
cmd[3] = m4TypeLengths[field->type];
cmd[4] = val[0];
cmd[5] = val[1];
if (m4Write(dev, cmd, 24, TIMEOUT) != 24)
return -1;
if (m4Read(dev, buf, 24, TIMEOUT) != 24)
return -1;
if (buf[0] != 0x31 || buf[2] != cmd[2]
|| buf[4] != cmd[4] || buf[5] != cmd[5])
return -1;
return 0;
}
void m4PrintDiag(m4Handle *dev, char *buf) {
int field_id;
size_t config_offset = 0;
float value;
for (field_id = 0; field_id < m4NumDiagFields; ++field_id) {
printf("%s:\t", m4DiagFields[field_id].name);
value = m4GetVal(dev, m4DiagFields[field_id].type, buf + m4DiagFields[field_id].index);
m4PrintVal(dev, m4DiagFields[field_id].type, value);
puts("");
}
}
int m4ConfigField(m4Handle *dev, char const *name) {
int field_id;
for (field_id = 0; field_id < M4_NUM_CONFIG_FIELDS; ++field_id) {
if (!strcasecmp(m4ConfigFields[field_id].name, name))
return field_id;
}
return -1;
}