Request USBTMC capabilities from device

[rigol] / usbtmc.c

#include <string.h>
#include <stdio.h>
#include <stdint.h>
#include <usb.h>
#include <arpa/inet.h>

#include "scope.h"
#include "usbtmc.h"

#define USB_TIMEOUT 50000

#if BYTE_ORDER == LITTLE_ENDIAN
#define LE32(x) x
#elif BYTE_ORDER == BIG_ENDIAN
#define LE32(x) ((uint32_t)((((uint32_t)x)>>24) | ((((uint32_t)x)>>8) & 0xff00) | ((((uint32_t)x)<<8) & 0xff0000) | (((uint32_t)x)<<24)))
#else
#error BYTE_ORDER not defined/known!
#endif

/* TODO: fix memory leak here: */
#define USB_ERROR(s, x) do { if (x < 0) { fprintf(stderr, "usb %s: %s\n", s, usb_strerror()); usb_reset(sc->usb.dev); return 0; } } while(0)

/* This routine locates a scope by VID/PID and returns a struct scope* for it */
static struct scope* usbtmc_find_scope() {
        struct usb_bus *bus;
        struct usb_device *dev=NULL;
        struct usb_dev_handle *devh;

        struct scope *sc;

        usb_find_busses();
        usb_find_devices();

        for (bus=usb_busses; bus; bus=bus->next) {
                for (dev=bus->devices; dev; dev=dev->next) {
                        if (dev->descriptor.idVendor == 0x400 && dev->descriptor.idProduct == 0x5dc) {
                                devh = usb_open(dev);
                                if (devh == NULL)
                                        return NULL;

                                sc = calloc(1, sizeof(struct scope));
                                if (sc == NULL) {
                                        perror("calloc");
                                        exit(EXIT_FAILURE);
                                }

                                sc->usb.dev = devh;

                                /* TODO: FIXME */
                                sc->usb.brokenRigol = 1;
                                sc->usb.ep_bulk_out = 0x01;
                                sc->usb.ep_bulk_in = 0x82;
                                sc->usb.wMaxPacketSize_in = 0x40;
                                
                                return sc;
                        }
                }
        }

        return NULL;
}

static unsigned char usbtmc_status(struct scope *sc)
{
        int r;
        unsigned char status[3];

        sc->usb.bTag++;

        r = usb_control_msg(sc->usb.dev, 0xA1,
                USB488_CTL_READ_STATUS_BYTE,
                (sc->usb.bTag & 0x7f), 0, (char*)status, 3,
                USB_TIMEOUT);

        if ((r != 3) || (status[0] != 0x01) || (status[1] != (sc->usb.bTag & 0x7f))) {
                printf("READ_STATUS_BYTE failed: %d 0x%x 0x%x 0x%x\n", r, status[0], status[1], status[2]);
                return 0xff;
        }

        return status[2];
}

static struct usbtmc_capabilities* usbtmc_get_capabilities(struct scope *sc)
{
        int r;
        static struct usbtmc_capabilities res;

        r = usb_control_msg(sc->usb.dev, 0xA1, 
                USBTMC_CTL_GET_CAPABILITIES,
                0, 0, (char*)&res, sizeof(struct usbtmc_capabilities),
                USB_TIMEOUT);
        if (r != sizeof(struct usbtmc_capabilities)) {
                printf("GET_CAPABILITIES failed: %s\n", usb_strerror());
                return NULL;
        }

        printf("USBTMC Version %x.%x Capabilities:\n", res.bcdUSBTMC[0], res.bcdUSBTMC[1]);
        if (res.USBTMCIFcapabilities & USBTMC_CAP_IF_INDICATOR_PULSE)
                printf("\tInterface supports indicator pulse\n");

        if (res.USBTMCIFcapabilities & USBTMC_CAP_IF_TALKONLY)
                printf("\tInterface is talk only\n");

        if (res.USBTMCIFcapabilities & USBTMC_CAP_IF_LISTENONLY)
                printf("\tInterface is listen only\n");

        if (res.USBTMCDEVcapabilities & USBTMC_CAP_DEV_TERMCHAR_SUPP)
                printf("\tDevice supports Termchar\n");

        printf("USB488 Version %x.%x Capabilities:\n", res.bcdUSB488[0], res.bcdUSB488[1]);

        if (res.USB488IFcapabilities & USB488_CAP_IF_4882)
                printf("\tInterface is 488.2 compliant\n");

        if (res.USB488IFcapabilities & USB488_CAP_IF_LOCKOUT)
                printf("\tInterface supports local lockout\n");

        if (res.USB488IFcapabilities & USB488_CAP_IF_TRIGGER)
                printf("\tInterface supports TRIGGER\n");

        if (res.USB488DEVcapabilities & USB488_CAP_DEV_SCPI)
                printf("\tDevice is SCPI compliant\n");

        if (res.USB488DEVcapabilities & USB488_CAP_DEV_SR1)
                printf("\tDevice is SR1 capable\n");

        if (res.USB488DEVcapabilities & USB488_CAP_DEV_RL1)
                printf("\tDevice is RL1 capable\n");

        if (res.USB488DEVcapabilities & USB488_CAP_DEV_DT1)
                printf("\tDevice is DT1 capable\n");

        return &res;
}

/*
 * Send a scpi-command to the scope. The response goes into the buffer
 * called resp, with a size of resplen. If resp==NULL, no response
 * is requested.
 */
int usbtmc_sendscpi(struct scope *sc, char* cmd, 
                unsigned char *resp, int resplen) {
        int len,r;
        int cmdlen = strlen(cmd);
        struct usbtmc_header *req;

        sc->usb.bTag++;

        len = sizeof(struct usbtmc_header) + cmdlen;
        if (len%4)
                len += 4 - (len%4);
        
        req = calloc(1, len);
        if (req == NULL) {
                perror("calloc");
                exit(EXIT_FAILURE);
        }

        req->MsgID = USBTMC_DEV_DEP_MSG_OUT;
        req->bTag = sc->usb.bTag;
        req->bTagInverse = ~sc->usb.bTag;
        req->TransferSize = LE32(cmdlen);
        req->bmTransferAttributes = USBTMC_TRANSFERATTRIB_EOM;
        memcpy(req->msg, cmd, cmdlen);

        if (sc->usb.brokenRigol) {
                r=usb_bulk_write(sc->usb.dev, sc->usb.ep_bulk_out,
                        (char*)req, sizeof(struct usbtmc_header),
                        USB_TIMEOUT);
                USB_ERROR("USBTMC_DEV_DEP_MSG_OUT1", r);

                r=usb_bulk_write(sc->usb.dev, sc->usb.ep_bulk_out,
                        (char*)&(req->msg), len - sizeof(struct usbtmc_header),
                        USB_TIMEOUT);
                USB_ERROR("USBTMC_DEV_DEP_MSG_OUT2", r);
        } else {
                r=usb_bulk_write(sc->usb.dev, sc->usb.ep_bulk_out,
                        (char*)req, len, USB_TIMEOUT);
                USB_ERROR("USBTMC_DEV_DEP_MSG_OUT", r);
        }

        free(req);

        if (resp != NULL && resplen != 0) {
                unsigned char *buff;
                struct usbtmc_header *res;
                int bytes_read;

                sc->usb.bTag++;

                req = calloc(1, sizeof(struct usbtmc_header));
                if (req == NULL) {
                        perror("calloc");
                        exit(EXIT_FAILURE);
                }

                req->MsgID = USBTMC_REQUEST_DEV_DEP_MSG_IN;
                req->bTag = sc->usb.bTag;
                req->bTagInverse = ~sc->usb.bTag;
                req->TransferSize = LE32(sc->usb.wMaxPacketSize_in);
                req->bmTransferAttributes = USBTMC_TRANSFERATTRIB_EOM;
                req->TermChar = 0;

                /* send read command */
                r=usb_bulk_write(sc->usb.dev, sc->usb.ep_bulk_out,
                        (char*)req, sizeof(struct usbtmc_header), USB_TIMEOUT);
                USB_ERROR("USBTMC_REQUEST_DEV_DEP_MSG_IN", r);

                free(req);

                buff=malloc(sc->usb.wMaxPacketSize_in);
                if (buff == NULL) {
                        perror("malloc");
                        exit(EXIT_FAILURE);
                }

                r=usb_bulk_read(sc->usb.dev, sc->usb.ep_bulk_in,
                        (char*)buff, sc->usb.wMaxPacketSize_in, USB_TIMEOUT);
                USB_ERROR("USBTMC_DEV_DEP_MSG_IN1", r);

                if (r < sizeof(struct usbtmc_header)) {
                        fprintf(stderr, "Short read!\n");
                        return 0;
                }

                bytes_read = r - sizeof(struct usbtmc_header);
                
                res = (struct usbtmc_header*)buff;
                len = LE32(res->TransferSize);

                memmove(buff, buff + sizeof(struct usbtmc_header), bytes_read);

                buff = realloc(buff, len);
                if (buff == NULL) {
                        perror("realloc");
                        exit(EXIT_FAILURE);
                }

                while ((len - bytes_read) > 0) {
                        r=usb_bulk_read(sc->usb.dev, sc->usb.ep_bulk_in,
                                (char*)buff + bytes_read, len - bytes_read,
                                USB_TIMEOUT);
                        USB_ERROR("USBTMC_DEV_DEP_MSG_INx", r);

                        bytes_read += r;
                }

                /* TODO: FIXME */
                if (bytes_read > resplen) {
                        fprintf(stderr, "Response buffer to small: %d instead of %d bytes!\n",
                                resplen, bytes_read);
                        bytes_read = resplen;
                }

                memcpy(resp, buff, bytes_read);
                free(buff);

                return bytes_read;
        }
        return 0;
}

void usbtmc_claim(struct scope *sc)
{
        usb_claim_interface(sc->usb.dev, 0);
}

void usbtmc_release(struct scope *sc)
{
        usb_release_interface(sc->usb.dev, 0);
}

/* Initialize the scope. */
struct scope* usbtmc_initscope(void) {
        int r;
        uint32_t vidpid;
        struct scope *sc;

        /* Init libusb */
        usb_init();
        /* Locate and open the scope */
        sc = usbtmc_find_scope();
        if (!sc) {
                return NULL;
        }

        usbtmc_claim(sc);
        usbtmc_get_capabilities(sc);
        printf("Device status: 0x%x\n", usbtmc_status(sc));
        /* The following code isn't really necessary, the program works
           OK without it too. */
        r=usb_control_msg(sc->usb.dev, 0xC8, 9, 0, 0, (char*)&vidpid, 4, USB_TIMEOUT);
        usbtmc_release(sc);
        if (r < 0) {
                fprintf (stderr, "Error %d sending init message: %s\n", 
                                r, strerror (-r));
                fprintf (stderr, "Do you have permission on the USB device?\n");
                exit (1);
        }
        if (LE32(vidpid)!=0x40005dc) {
                fprintf(stderr,"Init: buff[%i]=%x\n",r,LE32(vidpid));
        }
        return sc;
}

void usbtmc_close(struct scope *sc)
{
        /* Free up and exit */
        usb_close(sc->usb.dev);
}