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e6cda81f8d
fwupd/plugins/csr/fu-csr-device.c
Richard Hughes 87fb9ff447 Change the quirk file structure to be more efficient 
This pivots the data storage so that the group is used as the preconditon
and the key name is used as the parameter to change. This allows a more natural
data flow, where a new device needs one new group and a few few keys, rather
than multiple groups, each with one key.

This also allows us to remove the key globbing when matching the version format
which is often a source of confusion.

Whilst changing all the quirk files, change the key prefixes to be more familiar
to Windows users (e.g. Hwid -> Smbios, and FuUsbDevice -> DeviceInstanceId)
who have to use the same IDs in Windows Update.

This also allows us to pre-match the desired plugin, rather than calling the
probe() function on each plugin.
2018-06-28 13:32:30 +01:00

595 lines
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/* -*- Mode: C; tab-width: 8; indent-tabs-mode: t; c-basic-offset: 8 -*-
*
* Copyright (C) 2017-2018 Richard Hughes <richard@hughsie.com>
*
* SPDX-License-Identifier: LGPL-2.1+
*/
#include "config.h"
#include <string.h>
#include "fu-csr-device.h"
#include "dfu-common.h"
#include "dfu-chunked.h"
#include "dfu-firmware.h"
/**
* FU_CSR_DEVICE_QUIRK_FLAG_REQUIRE_DELAY:
*
* Respect the write timeout value when performing actions. This is sometimes
* set to a huge amount of time, and so is not used by default.
*
* Since: 1.0.3
*/
#define FU_CSR_DEVICE_FLAG_REQUIRE_DELAY "require-delay"
typedef enum {
FU_CSR_DEVICE_QUIRK_NONE = 0,
FU_CSR_DEVICE_QUIRK_REQUIRE_DELAY = (1 << 0),
FU_CSR_DEVICE_QUIRK_LAST
} FuCsrDeviceQuirks;
struct _FuCsrDevice
{
FuUsbDevice parent_instance;
FuCsrDeviceQuirks quirks;
DfuState dfu_state;
guint32 dnload_timeout;
};
G_DEFINE_TYPE (FuCsrDevice, fu_csr_device, FU_TYPE_USB_DEVICE)
#define FU_CSR_REPORT_ID_COMMAND 0x01
#define FU_CSR_REPORT_ID_STATUS 0x02
#define FU_CSR_REPORT_ID_CONTROL 0x03
#define FU_CSR_COMMAND_HEADER_SIZE 6 /* bytes */
#define FU_CSR_COMMAND_UPGRADE 0x01
#define FU_CSR_STATUS_HEADER_SIZE 7
#define FU_CSR_CONTROL_HEADER_SIZE 2 /* bytes */
#define FU_CSR_CONTROL_CLEAR_STATUS 0x04
#define FU_CSR_CONTROL_RESET 0xff
/* maximum firmware packet, including the command header */
#define FU_CSR_PACKET_DATA_SIZE 1023 /* bytes */
#define FU_CSR_DEVICE_TIMEOUT 5000 /* ms */
static void
fu_csr_device_to_string (FuDevice *device, GString *str)
{
FuCsrDevice *self = FU_CSR_DEVICE (device);
g_string_append (str, " DfuCsrDevice:\n");
g_string_append_printf (str, " state:\t\t%s\n", dfu_state_to_string (self->dfu_state));
g_string_append_printf (str, " timeout:\t\t%" G_GUINT32_FORMAT "\n", self->dnload_timeout);
}
static void
fu_csr_device_dump (const gchar *title, const guint8 *buf, gsize sz)
{
if (g_getenv ("FWUPD_CSR_VERBOSE") == NULL)
return;
g_print ("%s (%" G_GSIZE_FORMAT "):\n", title, sz);
for (gsize i = 0; i < sz; i++)
g_print ("%02x ", buf[i]);
g_print ("\n");
}
static gboolean
fu_csr_device_attach (FuDevice *device, GError **error)
{
FuCsrDevice *self = FU_CSR_DEVICE (device);
GUsbDevice *usb_device = fu_usb_device_get_dev (FU_USB_DEVICE (self));
gsize sz = 0;
guint8 buf[] = { FU_CSR_REPORT_ID_CONTROL, FU_CSR_CONTROL_RESET };
fu_csr_device_dump ("Reset", buf, sz);
if (!g_usb_device_control_transfer (usb_device,
G_USB_DEVICE_DIRECTION_HOST_TO_DEVICE,
G_USB_DEVICE_REQUEST_TYPE_CLASS,
G_USB_DEVICE_RECIPIENT_INTERFACE,
HID_REPORT_SET, /* bRequest */
HID_FEATURE | FU_CSR_REPORT_ID_CONTROL, /* wValue */
0x0000, /* wIndex */
buf, sizeof(buf), &sz,
FU_CSR_DEVICE_TIMEOUT, /* timeout */
NULL, error)) {
g_prefix_error (error, "Failed to ClearStatus: ");
return FALSE;
}
/* check packet */
if (sz != FU_CSR_CONTROL_HEADER_SIZE) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"Reset packet was %" G_GSIZE_FORMAT " expected %i",
sz, FU_CSR_CONTROL_HEADER_SIZE);
return FALSE;
}
return TRUE;
}
static gboolean
fu_csr_device_get_status (FuCsrDevice *self, GError **error)
{
GUsbDevice *usb_device = fu_usb_device_get_dev (FU_USB_DEVICE (self));
gsize sz = 0;
guint8 buf[64] = {0};
/* hit hardware */
if (!g_usb_device_control_transfer (usb_device,
G_USB_DEVICE_DIRECTION_DEVICE_TO_HOST,
G_USB_DEVICE_REQUEST_TYPE_CLASS,
G_USB_DEVICE_RECIPIENT_INTERFACE,
HID_REPORT_GET, /* bRequest */
HID_FEATURE | FU_CSR_REPORT_ID_STATUS, /* wValue */
0x0000, /* wIndex */
buf, sizeof(buf), &sz,
FU_CSR_DEVICE_TIMEOUT,
NULL, error)) {
g_prefix_error (error, "Failed to GetStatus: ");
return FALSE;
}
fu_csr_device_dump ("GetStatus", buf, sz);
/* check packet */
if (sz != FU_CSR_STATUS_HEADER_SIZE) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"GetStatus packet was %" G_GSIZE_FORMAT " expected %i",
sz, FU_CSR_STATUS_HEADER_SIZE);
return FALSE;
}
if (buf[0] != FU_CSR_REPORT_ID_STATUS) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"GetStatus packet-id was %i expected %i",
buf[0], FU_CSR_REPORT_ID_STATUS);
return FALSE;
}
self->dfu_state = buf[5];
self->dnload_timeout = buf[2] + (((guint32) buf[3]) << 8) + (((guint32) buf[4]) << 16);
g_debug ("timeout=%" G_GUINT32_FORMAT, self->dnload_timeout);
g_debug ("state=%s", dfu_state_to_string (self->dfu_state));
g_debug ("status=%s", dfu_status_to_string (buf[6]));
return TRUE;
}
static gboolean
fu_csr_device_clear_status (FuCsrDevice *self, GError **error)
{
GUsbDevice *usb_device = fu_usb_device_get_dev (FU_USB_DEVICE (self));
gsize sz = 0;
guint8 buf[] = { FU_CSR_REPORT_ID_CONTROL,
FU_CSR_CONTROL_CLEAR_STATUS };
/* only clear the status if the state is error */
if (!fu_csr_device_get_status (self, error))
return FALSE;
if (self->dfu_state != DFU_STATE_DFU_ERROR)
return TRUE;
/* hit hardware */
fu_csr_device_dump ("ClearStatus", buf, sz);
if (!g_usb_device_control_transfer (usb_device,
G_USB_DEVICE_DIRECTION_HOST_TO_DEVICE,
G_USB_DEVICE_REQUEST_TYPE_CLASS,
G_USB_DEVICE_RECIPIENT_INTERFACE,
HID_REPORT_SET, /* bRequest */
HID_FEATURE | FU_CSR_REPORT_ID_CONTROL, /* wValue */
0x0000, /* wIndex */
buf, sizeof(buf), &sz,
FU_CSR_DEVICE_TIMEOUT,
NULL, error)) {
g_prefix_error (error, "Failed to ClearStatus: ");
return FALSE;
}
/* check packet */
if (sz != FU_CSR_CONTROL_HEADER_SIZE) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"ClearStatus packet was %" G_GSIZE_FORMAT " expected %i",
sz, FU_CSR_CONTROL_HEADER_SIZE);
return FALSE;
}
/* check the hardware again */
return fu_csr_device_get_status (self, error);
}
static GBytes *
fu_csr_device_upload_chunk (FuCsrDevice *self, GError **error)
{
GUsbDevice *usb_device = fu_usb_device_get_dev (FU_USB_DEVICE (self));
gsize sz = 0;
guint16 data_sz;
guint8 buf[64] = {0};
/* hit hardware */
if (!g_usb_device_control_transfer (usb_device,
G_USB_DEVICE_DIRECTION_DEVICE_TO_HOST,
G_USB_DEVICE_REQUEST_TYPE_CLASS,
G_USB_DEVICE_RECIPIENT_INTERFACE,
HID_REPORT_GET, /* bRequest */
HID_FEATURE | FU_CSR_REPORT_ID_COMMAND, /* wValue */
0x0000, /* wIndex */
buf, sizeof(buf), &sz,
FU_CSR_DEVICE_TIMEOUT,
NULL, error)) {
g_prefix_error (error, "Failed to ReadFirmware: ");
return NULL;
}
fu_csr_device_dump ("ReadFirmware", buf, sz);
/* too small to parse */
if (sz < FU_CSR_COMMAND_HEADER_SIZE) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"ReadFirmware packet too small, got %" G_GSIZE_FORMAT,
sz);
return NULL;
}
/* check command byte */
if (buf[0] != FU_CSR_REPORT_ID_COMMAND) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"wrong report ID %u", buf[0]);
return NULL;
}
/* check the length */
data_sz = fu_common_read_uint16 (&buf[1], G_LITTLE_ENDIAN);
if (data_sz + FU_CSR_COMMAND_HEADER_SIZE != (guint16) sz) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"wrong data length %" G_GUINT16_FORMAT,
data_sz);
return NULL;
}
/* return as bytes */
return g_bytes_new (buf + FU_CSR_COMMAND_HEADER_SIZE,
sz - FU_CSR_COMMAND_HEADER_SIZE);
}
static GBytes *
fu_csr_device_upload (FuDevice *device, GError **error)
{
FuCsrDevice *self = FU_CSR_DEVICE (device);
g_autoptr(GPtrArray) chunks = NULL;
guint32 total_sz = 0;
gsize done_sz = 0;
/* notify UI */
fu_device_set_status (device, FWUPD_STATUS_DEVICE_READ);
chunks = g_ptr_array_new_with_free_func ((GDestroyNotify) g_bytes_unref);
for (guint32 i = 0; i < 0x3ffffff; i++) {
g_autoptr(GBytes) chunk = NULL;
gsize chunk_sz;
/* hit hardware */
chunk = fu_csr_device_upload_chunk (self, error);
if (chunk == NULL)
return NULL;
chunk_sz = g_bytes_get_size (chunk);
/* get the total size using the CSR header */
if (i == 0 && chunk_sz >= 10) {
const guint8 *buf = g_bytes_get_data (chunk, NULL);
if (memcmp (buf, "CSR-dfu", 7) == 0) {
guint16 hdr_ver;
guint16 hdr_len;
hdr_ver = fu_common_read_uint16 (buf + 8, G_LITTLE_ENDIAN);
if (hdr_ver != 0x03) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"CSR header version is "
"invalid %" G_GUINT16_FORMAT,
hdr_ver);
return NULL;
}
total_sz = fu_common_read_uint32 (buf + 10, G_LITTLE_ENDIAN);
if (total_sz == 0) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"CSR header data length "
"invalid %" G_GUINT32_FORMAT,
total_sz);
return NULL;
}
hdr_len = fu_common_read_uint16 (buf + 14, G_LITTLE_ENDIAN);
g_debug ("CSR header length: %" G_GUINT16_FORMAT, hdr_len);
}
}
/* add to chunk array */
done_sz += chunk_sz;
g_ptr_array_add (chunks, g_steal_pointer (&chunk));
fu_device_set_progress_full (device, done_sz, (gsize) total_sz);
/* we're done */
if (chunk_sz < 64 - FU_CSR_COMMAND_HEADER_SIZE)
break;
}
/* notify UI */
fu_device_set_status (device, FWUPD_STATUS_IDLE);
return dfu_utils_bytes_join_array (chunks);
}
static gboolean
fu_csr_device_download_chunk (FuCsrDevice *self, guint16 idx, GBytes *chunk, GError **error)
{
GUsbDevice *usb_device = fu_usb_device_get_dev (FU_USB_DEVICE (self));
const guint8 *chunk_data;
gsize chunk_sz = 0;
gsize write_sz = 0;
guint8 buf[FU_CSR_PACKET_DATA_SIZE] = {0};
/* too large? */
chunk_data = g_bytes_get_data (chunk, &chunk_sz);
if (chunk_sz + FU_CSR_COMMAND_HEADER_SIZE > FU_CSR_PACKET_DATA_SIZE) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"packet was too large: %" G_GSIZE_FORMAT, chunk_sz);
return FALSE;
}
g_debug ("writing %" G_GSIZE_FORMAT " bytes of data", chunk_sz);
/* create packet */
buf[0] = FU_CSR_REPORT_ID_COMMAND;
buf[1] = FU_CSR_COMMAND_UPGRADE;
fu_common_write_uint16 (&buf[2], idx, G_LITTLE_ENDIAN);
fu_common_write_uint16 (&buf[4], chunk_sz, G_LITTLE_ENDIAN);
memcpy (buf + FU_CSR_COMMAND_HEADER_SIZE, chunk_data, chunk_sz);
/* hit hardware */
fu_csr_device_dump ("Upgrade", buf, sizeof(buf));
if (!g_usb_device_control_transfer (usb_device,
G_USB_DEVICE_DIRECTION_HOST_TO_DEVICE,
G_USB_DEVICE_REQUEST_TYPE_CLASS,
G_USB_DEVICE_RECIPIENT_INTERFACE,
HID_REPORT_SET, /* bRequest */
HID_FEATURE | FU_CSR_REPORT_ID_COMMAND, /* wValue */
0x0000, /* wIndex */
buf,
sizeof(buf),
&write_sz,
FU_CSR_DEVICE_TIMEOUT,
NULL, error)) {
g_prefix_error (error, "Failed to Upgrade: ");
return FALSE;
}
/* check packet */
if (write_sz != sizeof(buf)) {
g_set_error (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"Not all packet written for upgrade got "
"%" G_GSIZE_FORMAT " expected %" G_GSIZE_FORMAT,
write_sz, sizeof(buf));
return FALSE;
}
/* wait for hardware */
if (self->quirks & FU_CSR_DEVICE_QUIRK_REQUIRE_DELAY) {
g_debug ("sleeping for %ums", self->dnload_timeout);
g_usleep (self->dnload_timeout * 1000);
}
/* get status */
if (!fu_csr_device_get_status (self, error))
return FALSE;
/* is still busy */
if (self->dfu_state == DFU_STATE_DFU_DNBUSY) {
g_debug ("busy, so sleeping a bit longer");
g_usleep (G_USEC_PER_SEC);
if (!fu_csr_device_get_status (self, error))
return FALSE;
}
/* not correct */
if (self->dfu_state != DFU_STATE_DFU_DNLOAD_IDLE &&
self->dfu_state != DFU_STATE_DFU_IDLE) {
g_set_error_literal (error,
FWUPD_ERROR,
FWUPD_ERROR_INTERNAL,
"device did not return to IDLE");
return FALSE;
}
/* success */
return TRUE;
}
static GBytes *
_dfu_firmware_get_default_element_data (DfuFirmware *firmware)
{
DfuElement *element;
DfuImage *image;
image = dfu_firmware_get_image_default (firmware);
if (image == NULL)
return NULL;
element = dfu_image_get_element_default (image);
if (element == NULL)
return NULL;
return dfu_element_get_contents (element);
}
static gboolean
fu_csr_device_download (FuDevice *device, GBytes *blob, GError **error)
{
FuCsrDevice *self = FU_CSR_DEVICE (device);
GBytes *blob_noftr;
const guint8 *data;
gsize sz = 0;
guint16 idx;
g_autoptr(DfuFirmware) dfu_firmware = dfu_firmware_new ();
g_autoptr(GBytes) blob_empty = NULL;
g_autoptr(GPtrArray) packets = NULL;
/* notify UI */
fu_device_set_status (device, FWUPD_STATUS_DEVICE_WRITE);
/* parse the file */
if (!dfu_firmware_parse_data (dfu_firmware, blob,
DFU_FIRMWARE_PARSE_FLAG_NONE, error))
return FALSE;
if (g_getenv ("FWUPD_CSR_VERBOSE") != NULL) {
g_autofree gchar *fw_str = NULL;
fw_str = dfu_firmware_to_string (dfu_firmware);
g_debug ("%s", fw_str);
}
if (dfu_firmware_get_format (dfu_firmware) != DFU_FIRMWARE_FORMAT_DFU) {
g_set_error_literal (error,
FWUPD_ERROR,
FWUPD_ERROR_NOT_SUPPORTED,
"expected DFU firmware");
return FALSE;
}
/* get the blob from the firmware file */
blob_noftr = _dfu_firmware_get_default_element_data (dfu_firmware);
if (blob_noftr == NULL) {
g_set_error_literal (error,
FWUPD_ERROR,
FWUPD_ERROR_INVALID_FILE,
"firmware contained no data");
return FALSE;
}
/* create packets */
data = g_bytes_get_data (blob_noftr, &sz);
packets = dfu_chunked_new (data, (guint32) sz, 0x0, 0x0,
FU_CSR_PACKET_DATA_SIZE - FU_CSR_COMMAND_HEADER_SIZE);
/* send to hardware */
for (idx = 0; idx < packets->len; idx++) {
DfuChunkedPacket *pkt = g_ptr_array_index (packets, idx);
g_autoptr(GBytes) blob_tmp = g_bytes_new_static (pkt->data, pkt->data_sz);
/* send packet */
if (!fu_csr_device_download_chunk (self, idx, blob_tmp, error))
return FALSE;
/* update progress */
fu_device_set_progress_full (device,
(gsize) idx, (gsize) packets->len);
}
/* all done */
blob_empty = g_bytes_new (NULL, 0);
if (!fu_csr_device_download_chunk (self, idx, blob_empty, error))
return FALSE;
/* notify UI */
fu_device_set_status (device, FWUPD_STATUS_IDLE);
return TRUE;
}
static gboolean
fu_csr_device_probe (FuUsbDevice *device, GError **error)
{
FuCsrDevice *self = FU_CSR_DEVICE (device);
/* devices have to be whitelisted */
if (fu_device_has_custom_flag (FU_DEVICE (device),
FU_CSR_DEVICE_FLAG_REQUIRE_DELAY))
self->quirks = FU_CSR_DEVICE_QUIRK_REQUIRE_DELAY;
/* hardcoded */
fu_device_add_flag (FU_DEVICE (device), FWUPD_DEVICE_FLAG_UPDATABLE);
/* success */
return TRUE;
}
static gboolean
fu_csr_device_open (FuUsbDevice *device, GError **error)
{
FuCsrDevice *self = FU_CSR_DEVICE (device);
GUsbDevice *usb_device = fu_usb_device_get_dev (device);
/* open device and clear status */
if (!g_usb_device_claim_interface (usb_device, 0x00, /* HID */
G_USB_DEVICE_CLAIM_INTERFACE_BIND_KERNEL_DRIVER,
error)) {
g_prefix_error (error, "failed to claim HID interface: ");
return FALSE;
}
if (!fu_csr_device_clear_status (self, error))
return FALSE;
/* success */
return TRUE;
}
static gboolean
fu_csr_device_close (FuUsbDevice *device, GError **error)
{
GUsbDevice *usb_device = fu_usb_device_get_dev (device);
/* we're done here */
if (!g_usb_device_release_interface (usb_device, 0x00, /* HID */
G_USB_DEVICE_CLAIM_INTERFACE_BIND_KERNEL_DRIVER,
error)) {
g_prefix_error (error, "failed to release interface: ");
return FALSE;
}
/* success */
return TRUE;
}
static void
fu_csr_device_init (FuCsrDevice *device)
{
}
static void
fu_csr_device_class_init (FuCsrDeviceClass *klass)
{
FuDeviceClass *klass_device = FU_DEVICE_CLASS (klass);
FuUsbDeviceClass *klass_usb_device = FU_USB_DEVICE_CLASS (klass);
klass_device->to_string = fu_csr_device_to_string;
klass_device->write_firmware = fu_csr_device_download;
klass_device->read_firmware = fu_csr_device_upload;
klass_device->attach = fu_csr_device_attach;
klass_usb_device->open = fu_csr_device_open;
klass_usb_device->close = fu_csr_device_close;
klass_usb_device->probe = fu_csr_device_probe;
}
FuCsrDevice *
fu_csr_device_new (GUsbDevice *usb_device)
{
FuCsrDevice *device = NULL;
device = g_object_new (FU_TYPE_CSR_DEVICE,
"usb-device", usb_device,
NULL);
return device;
}
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