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segatools-hay1tsme/board/sg-nfc.c

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#include <windows.h>
#include <assert.h>
#include <stdarg.h>
#include <stddef.h>
#include <stdint.h>
#include <string.h>
#include "board/sg-cmd.h"
#include "board/sg-nfc.h"
#include "board/sg-nfc-cmd.h"
#include "util/dprintf.h"
static HRESULT sg_nfc_dispatch(
void *ctx,
const void *v_req,
void *v_resp);
static HRESULT sg_nfc_cmd_reset(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_resp_header *resp);
static HRESULT sg_nfc_cmd_get_fw_version(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_nfc_resp_get_fw_version *resp);
static HRESULT sg_nfc_cmd_get_hw_version(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_nfc_resp_get_hw_version *resp);
static HRESULT sg_nfc_cmd_mifare_poll(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_nfc_resp_mifare_poll *resp);
static HRESULT sg_nfc_cmd_mifare_read_block(
const struct sg_nfc *nfc,
const struct sg_nfc_req_mifare_read_block *req,
struct sg_nfc_resp_mifare_read_block *resp);
static HRESULT sg_nfc_mifare_read_block_1(
const struct sg_nfc *nfc,
uint32_t uid,
uint8_t *block);
static HRESULT sg_nfc_mifare_read_block_2(
const struct sg_nfc *nfc,
uint32_t uid,
uint8_t *block);
static HRESULT sg_nfc_cmd_dummy(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_resp_header *resp);
static const uint8_t sg_nfc_block_1[] = {
'S', 'B', 'D', 'T', 0x00, 0x00, 0x00, 0x00,
0x00, 0x00, 0x00, 0x00, 0x00, 0x4E, 0xC6, 0x22,
};
void sg_nfc_init(
struct sg_nfc *nfc,
uint8_t addr,
const struct sg_nfc_ops *ops,
void *ops_ctx)
{
assert(nfc != NULL);
assert(ops != NULL);
nfc->ops = ops;
nfc->ops_ctx = ops_ctx;
nfc->addr = addr;
}
#ifdef NDEBUG
#define sg_nfc_dprintfv(nfc, fmt, ap)
#define sg_nfc_dprintf(nfc, fmt, ...)
#else
static void sg_nfc_dprintfv(
const struct sg_nfc *nfc,
const char *fmt,
va_list ap)
{
dprintf("NFC %02x: ", nfc->addr);
dprintfv(fmt, ap);
}
static void sg_nfc_dprintf(
const struct sg_nfc *nfc,
const char *fmt,
...)
{
va_list ap;
va_start(ap, fmt);
sg_nfc_dprintfv(nfc, fmt, ap);
va_end(ap);
}
#endif
void sg_nfc_transact(
struct sg_nfc *nfc,
struct iobuf *resp_frame,
const void *req_bytes,
size_t req_nbytes)
{
assert(nfc != NULL);
assert(resp_frame != NULL);
assert(req_bytes != NULL);
sg_req_transact(resp_frame, req_bytes, req_nbytes, sg_nfc_dispatch, nfc);
}
static HRESULT sg_nfc_dispatch(
void *ctx,
const void *v_req,
void *v_resp)
{
const struct sg_nfc *nfc;
const union sg_nfc_req_any *req;
union sg_nfc_resp_any *resp;
nfc = ctx;
req = v_req;
resp = v_resp;
if (req->simple.hdr.addr != nfc->addr) {
/* Not addressed to us, don't send a response */
return S_FALSE;
}
switch (req->simple.hdr.cmd) {
case SG_NFC_CMD_RESET:
return sg_nfc_cmd_reset(nfc, &req->simple, &resp->simple);
case SG_NFC_CMD_GET_FW_VERSION:
return sg_nfc_cmd_get_fw_version(
nfc,
&req->simple,
&resp->get_fw_version);
case SG_NFC_CMD_GET_HW_VERSION:
return sg_nfc_cmd_get_hw_version(
nfc,
&req->simple,
&resp->get_hw_version);
case SG_NFC_CMD_MIFARE_POLL:
return sg_nfc_cmd_mifare_poll(
nfc,
&req->simple,
&resp->mifare_poll);
case SG_NFC_CMD_MIFARE_READ_BLOCK:
return sg_nfc_cmd_mifare_read_block(
nfc,
&req->mifare_read_block,
&resp->mifare_read_block);
case SG_NFC_CMD_40_POLL:
case SG_NFC_CMD_41_POLL:
case SG_NFC_CMD_MIFARE_SET_KEY:
case SG_NFC_CMD_MIFARE_SELECT_TAG:
case SG_NFC_CMD_MIFARE_50:
case SG_NFC_CMD_MIFARE_55:
return sg_nfc_cmd_dummy(nfc, &req->simple, &resp->simple);
default:
sg_nfc_dprintf(nfc, "Unimpl command %02x\n", req->simple.hdr.cmd);
return E_NOTIMPL;
}
}
static HRESULT sg_nfc_cmd_reset(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_resp_header *resp)
{
sg_nfc_dprintf(nfc, "Reset\n");
sg_resp_init(resp, req, 0);
resp->status = 3;
return S_OK;
}
static HRESULT sg_nfc_cmd_get_fw_version(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_nfc_resp_get_fw_version *resp)
{
/* Dest version is not NUL terminated, this is intentional */
sg_resp_init(&resp->resp, req, sizeof(resp->version));
memcpy(resp->version, "TN32MSEC003S F/W Ver1.2E", sizeof(resp->version));
return S_OK;
}
static HRESULT sg_nfc_cmd_get_hw_version(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_nfc_resp_get_hw_version *resp)
{
/* Dest version is not NUL terminated, this is intentional */
sg_resp_init(&resp->resp, req, sizeof(resp->version));
memcpy(resp->version, "TN32MSEC003S H/W Ver3.0J", sizeof(resp->version));
return S_OK;
}
static HRESULT sg_nfc_cmd_mifare_poll(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_nfc_resp_mifare_poll *resp)
{
uint32_t uid;
HRESULT hr;
uid = 0;
hr = nfc->ops->mifare_poll(nfc->ops_ctx, &uid);
if (hr == S_OK) {
if (uid == 0 || uid == -1) {
sg_nfc_dprintf(nfc, "nfc->ops->mifare_poll returned bad uid\n");
return E_UNEXPECTED;
}
sg_nfc_dprintf(nfc, "Mifare card is present\n");
sg_resp_init(&resp->resp, req, sizeof(resp->payload.some));
resp->payload.some[0] = 0x01; /* Chunk size? */
resp->payload.some[1] = 0x10; /* Unknown */
resp->payload.some[2] = 0x04; /* Chunk size? */
resp->payload.some[3] = uid >> 24; /* UID byte 0 */
resp->payload.some[4] = uid >> 16; /* UID byte 1 */
resp->payload.some[5] = uid >> 8; /* UID byte 2 */
resp->payload.some[6] = uid ; /* UID byte 3 */
return S_OK;
} else if (hr == S_FALSE) {
sg_resp_init(&resp->resp, req, sizeof(resp->payload.none));
resp->payload.none = 0x00;
return S_OK;
} else if (FAILED(hr)) {
sg_nfc_dprintf(nfc, "nfc->ops->mifare_poll error: %x\n", (int) hr);
return hr;
} else {
sg_nfc_dprintf(nfc, "nfc->ops->mifare_poll bad return: %x\n", (int) hr);
return E_UNEXPECTED;
}
}
static HRESULT sg_nfc_cmd_mifare_read_block(
const struct sg_nfc *nfc,
const struct sg_nfc_req_mifare_read_block *req,
struct sg_nfc_resp_mifare_read_block *resp)
{
uint32_t uid;
if (req->req.payload_len != sizeof(req->payload)) {
sg_nfc_dprintf(nfc, "%s: Payload size is incorrect\n", __func__);
return E_FAIL;
}
uid = (req->payload.uid[0] << 24) |
(req->payload.uid[1] << 16) |
(req->payload.uid[2] << 8) |
(req->payload.uid[3] ) ;
sg_nfc_dprintf(nfc, "Read uid %08x block %i\n", uid, req->payload.block_no);
sg_resp_init(&resp->resp, &req->req, sizeof(resp->block));
switch (req->payload.block_no) {
case 1:
return sg_nfc_mifare_read_block_1(nfc, uid, resp->block);
case 2:
return sg_nfc_mifare_read_block_2(nfc, uid, resp->block);
case 0:
case 3:
sg_nfc_dprintf(
nfc,
"Block %i access not implemented\n",
req->payload.block_no);
return E_NOTIMPL;
default:
sg_nfc_dprintf(
nfc,
"Read from invalid mifare block nr %i\n",
req->payload.block_no);
return E_INVALIDARG;
}
}
static HRESULT sg_nfc_mifare_read_block_1(
const struct sg_nfc *nfc,
uint32_t uid,
uint8_t *block)
{
memcpy(block, sg_nfc_block_1, sizeof(sg_nfc_block_1));
return S_OK;
}
static HRESULT sg_nfc_mifare_read_block_2(
const struct sg_nfc *nfc,
uint32_t uid,
uint8_t *block)
{
HRESULT hr;
hr = nfc->ops->mifare_read_luid(nfc->ops_ctx, uid, &block[6], 10);
if (FAILED(hr)) {
return hr;
}
memset(block, 0, 6);
return S_OK;
}
static HRESULT sg_nfc_cmd_dummy(
const struct sg_nfc *nfc,
const struct sg_req_header *req,
struct sg_resp_header *resp)
{
sg_resp_init(resp, req, 0);
return S_OK;
}