implemented msd read

This commit is contained in:
Bernd Herzog 2023-04-01 17:21:57 +02:00
parent fc1b676ce6
commit 50859171f4
10 changed files with 1353 additions and 352 deletions

View File

@ -31,7 +31,7 @@ SdOverUsbView::SdOverUsbView(NavigationView& nav) : nav_ (nav) {
sdcStop(&SDCD1);
portapack::shutdown();
m4_init(portapack::spi_flash::image_tag_usb_sd, portapack::memory::map::m4_code, true);
m4_init(portapack::spi_flash::image_tag_usb_sd, portapack::memory::map::m4_code, false);
//m4_init(portapack::spi_flash::image_tag_hackrf, portapack::memory::map::m4_code_hackrf, true);
m0_halt(); /* will not return*/
//baseband::run_image();

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@ -515,7 +515,7 @@ set(MODE_CPPSRC
)
DeclareTargets(PFUT flash_utility)
### SD over USB ${PATH_HACKRF_FIRMWARE}
### SD over USB
set(MODE_INCDIR
${HACKRF_PATH}/firmware
@ -526,17 +526,18 @@ set(MODE_CPPSRC
sd_over_usb/proc_sd_over_usb.cpp
sd_over_usb/scsi.c
sd_over_usb/diskio.c
sd_over_usb/sd_over_usb.c
sd_over_usb/usb_descriptor.c
sd_over_usb/usb_device.c
sd_over_usb/usb_endpoint.c
sd_over_usb/usb.c
sd_over_usb/hackrf_core.c
${HACKRF_PATH}/firmware/common/usb_queue.c
${HACKRF_PATH}/firmware/common/usb_request.c
${HACKRF_PATH}/firmware/common/usb_standard_request.c
${HACKRF_PATH}/firmware/common/platform_detect.c
${HACKRF_PATH}/firmware/common/hackrf_core.c
${HACKRF_PATH}/firmware/common/gpio_lpc.c
${HACKRF_PATH}/firmware/common/firmware_info.c
${HACKRF_PATH}/firmware/common/si5351c.c
@ -558,7 +559,6 @@ set(MODE_CPPSRC
${HACKRF_PATH}/firmware/libopencm3/lib/lpc43xx/scu.c
${HACKRF_PATH}/firmware/libopencm3/lib/lpc43xx/timer.c
${HACKRF_PATH}/firmware/libopencm3/lib/lpc43xx/i2c.c
)
DeclareTargets(PUSB sd_over_usb)

View File

@ -119,7 +119,7 @@
* @brief Enables the SDC subsystem.
*/
#if !defined(HAL_USE_SDC) || defined(__DOXYGEN__)
#ifdef BASEBAND_flash_utility
#if defined(BASEBAND_flash_utility) || defined(BASEBAND_sd_over_usb)
#define HAL_USE_SDC TRUE
#else
#define HAL_USE_SDC FALSE

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@ -0,0 +1,12 @@
#include "diskio.h"
#include "ch.h"
#include "hal.h"
uint32_t get_capacity(void) {
return mmcsdGetCardCapacity(&SDCD1);
}
bool_t read_block(uint32_t startblk, uint8_t *buf, uint32_t n) {
return sdcRead(&SDCD1, startblk, buf, n);
}

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@ -0,0 +1,10 @@
#ifndef __DISKIO_H__
#define __DISKIO_H__
#include <stdint.h>
#include <chtypes.h>
uint32_t get_capacity(void);
bool_t read_block(uint32_t startblk, uint8_t *buf, uint32_t n);
#endif /* __DISKIO_H__ */

File diff suppressed because it is too large Load Diff

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@ -27,7 +27,6 @@
#include "debug.hpp"
#include "portapack_shared_memory.hpp"
#include "event_m4.hpp"
extern "C" {
void start_usb(void);
@ -40,34 +39,22 @@ CH_IRQ_HANDLER(Vector60) {
}
}
//uint8_t buf[512];
int main() {
//EventDispatcher event_dispatcher { std::make_unique<USBProcessor>() };
//HALT_UNTIL_DEBUGGING();
sdcStart(&SDCD1, nullptr);
if (sdcConnect(&SDCD1) == CH_FAILED) chDbgPanic("no sd card #1");
// memset(&buf[0], 0, 512);
// if (sdcRead(&SDCD1, 0, &buf[0], 1) == CH_FAILED) chDbgPanic("no sd card #2");
//LPC_CGU->PLL0USB_CTRL.PD = 1;
//LPC_CGU->PLL0USB_CTRL.AUTOBLOCK = 1;
//LPC_CGU->PLL0USB_CTRL.CLK_SEL = 0x06;
//
//while (LPC_CGU->PLL0USB_STAT.LOCK) {}
//
//LPC_CGU->PLL0USB_MDIV = 0x06167FFA; // 0x71A7FAA; //
//LPC_CGU->PLL0USB_NP_DIV = 0x00302062;
//
////LPC_CGU->PLL0USB_CTRL.PD |= 1;
//LPC_CGU->PLL0USB_CTRL.DIRECTI = 1;
//LPC_CGU->PLL0USB_CTRL.DIRECTO = 1;
//LPC_CGU->PLL0USB_CTRL.CLKEN = 1;
//
//LPC_CGU->PLL0USB_CTRL.PD = 0;
//
//while (!(LPC_CGU->PLL0USB_STAT.LOCK)) {}
////chThdSleepMilliseconds(800);
//
//LPC_CGU->BASE_USB0_CLK.AUTOBLOCK = 1;
//LPC_CGU->BASE_USB0_CLK.CLK_SEL = 0x07;
start_usb();
// memset(&buf[0], 0, 512);
// if (sdcRead(&SDCD1, 0, &buf[0], 1) == CH_FAILED) chDbgPanic("no sd card #3");
//event_dispatcher.run();
while (true) {
usb_transfer();

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@ -1,210 +1,125 @@
#include "scsi.h"
#include "diskio.h"
#define HALT_UNTIL_DEBUGGING() \
while (!((*(volatile uint32_t *)0xE000EDF0) & (1 << 0))) {} \
__asm__ __volatile__("bkpt 1")
typedef struct {
uint8_t peripheral;
uint8_t removable;
uint8_t version;
uint8_t response_data_format;
uint8_t additional_length;
uint8_t sccstp;
uint8_t bqueetc;
uint8_t cmdque;
uint8_t vendorID[8];
uint8_t productID[16];
uint8_t productRev[4];
} scsi_inquiry_response_t;
volatile bool usb_bulk_block_send = false;
static const scsi_inquiry_response_t default_scsi_inquiry_response = {
0x00, /* direct access block device */
0x80, /* removable */
0x04, /* SPC-2 */
0x02, /* response data format */
0x20, /* response has 0x20 + 4 bytes */
0x00,
0x00,
0x00,
"Mayhem",
"Mass Storage",
{'v','1','.','6'}
};
void usb_bulk_block_cb(void* user_data, unsigned int bytes_transferred) {
usb_bulk_block_send = true;
typedef struct {
uint32_t signature;
uint32_t tag;
uint32_t data_residue;
uint8_t status;
} __attribute__((packed)) msd_csw_t;
#define MSD_CBW_SIGNATURE 0x43425355
#define MSD_CSW_SIGNATURE 0x53425355
// void handle_inquiry_4(void* user_data, unsigned int bytes_transferred) {
// HALT_UNTIL_DEBUGGING();
// }
// void handle_inquiry_3(void* user_data, unsigned int bytes_transferred)
// {
// //msd_cbw_t *msd_cbw_data = (msd_cbw_t *)user_data;
// //HALT_UNTIL_DEBUGGING();
// }
volatile bool inquiry_stage_one_send = false;
void inquiry_cb(void* user_data, unsigned int bytes_transferred)
{
inquiry_stage_one_send = true;
(void)user_data;
(void)bytes_transferred;
}
void handle_inquiry(msd_cbw_t *msd_cbw_data) {
inquiry_stage_one_send = false;
memcpy(&usb_bulk_buffer[0], &default_scsi_inquiry_response, sizeof(scsi_inquiry_response_t));
void usb_send_bulk(void* const data, const uint32_t maximum_length) {
usb_bulk_block_send = false;
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0],
sizeof(scsi_inquiry_response_t),
inquiry_cb,
msd_cbw_data);
data,
maximum_length,
usb_bulk_block_cb,
NULL);
while (!inquiry_stage_one_send);
while (!usb_bulk_block_send);
}
void usb_send_csw(msd_cbw_t *msd_cbw_data, uint8_t status) {
msd_csw_t csw = {
.signature = MSD_CSW_SIGNATURE,
.tag = msd_cbw_data->tag,
.data_residue = 0,
.status = 0
.status = status
};
memcpy(&usb_bulk_buffer[0x4000], &csw, sizeof(msd_csw_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0x4000],
sizeof(msd_csw_t),
NULL,
NULL);
memcpy(&usb_bulk_buffer[0], &csw, sizeof(msd_csw_t));
usb_send_bulk(&usb_bulk_buffer[0], sizeof(msd_csw_t));
}
typedef struct {
uint8_t header[4];
uint8_t blocknum[4];
uint8_t blocklen[4];
} scsi_read_format_capacities_response_t;
uint8_t handle_inquiry(msd_cbw_t *msd_cbw_data) {
(void)msd_cbw_data;
volatile bool capacities_stage_one_send = false;
void capacities_cb(void* user_data, unsigned int bytes_transferred)
{
capacities_stage_one_send = true;
scsi_inquiry_response_t ret = {
0x00, /* direct access block device */
0x80, /* removable */
0x00, //0x04, /* SPC-2 */
0x00, //0x02, /* response data format */
0x20, /* response has 0x20 + 4 bytes */
0x00,
0x00,
0x00,
"Mayhem",
"Portapack MSD",
{'v','1','.','6'}
};
memcpy(&usb_bulk_buffer[0], &ret, sizeof(scsi_inquiry_response_t));
usb_send_bulk(&usb_bulk_buffer[0], sizeof(scsi_inquiry_response_t));
return 0;
}
void read_format_capacities(msd_cbw_t *msd_cbw_data) {
uint8_t handle_inquiry_serial_number(msd_cbw_t *msd_cbw_data) {
(void)msd_cbw_data;
scsi_unit_serial_number_inquiry_response_t ret = {
.peripheral = 0x00,
.page_code = 0x80,
.reserved = 0,
.page_length = 0x08,
.serialNumber = "Mayhem"
};
memcpy(&usb_bulk_buffer[0], &ret, sizeof(scsi_unit_serial_number_inquiry_response_t));
usb_send_bulk(&usb_bulk_buffer[0], sizeof(scsi_unit_serial_number_inquiry_response_t));
return 0;
}
uint8_t read_format_capacities(msd_cbw_t *msd_cbw_data) {
uint16_t len = msd_cbw_data->cmd_data[7] << 8 | msd_cbw_data->cmd_data[8];
if (len != 0) {
size_t num_blocks = get_capacity();
scsi_read_format_capacities_response_t ret = {
.header = {0, 0, 0, 1 * 8 /* num_entries * 8 */},
.blocknum = {0, 0, (1024 * 8) >> 8, 0}, // 32GB
.blocklen = {0b10 /* formated */, 0, (512) >> 8, 0}
.blocknum = {((num_blocks) >> 24)& 0xff, ((num_blocks) >> 16)& 0xff, ((num_blocks) >> 8)& 0xff, num_blocks & 0xff},
.blocklen = {0b10 /* formated */, 0, (512) >> 8, 0},
// .blocknum2 = {((num_blocks) >> 24)& 0xff, ((num_blocks) >> 16)& 0xff, ((num_blocks) >> 8)& 0xff, num_blocks & 0xff},
// .blocklen2 = {0 /* formated */, 0, (512) >> 8, 0}
};
capacities_stage_one_send = false;
memcpy(&usb_bulk_buffer[0], &ret, sizeof(scsi_read_format_capacities_response_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0],
sizeof(scsi_inquiry_response_t),
capacities_cb,
msd_cbw_data);
while (!capacities_stage_one_send);
usb_send_bulk(&usb_bulk_buffer[0], sizeof(scsi_read_format_capacities_response_t));
}
msd_csw_t csw = {
.signature = MSD_CSW_SIGNATURE,
.tag = msd_cbw_data->tag,
.data_residue = 0,
.status = 0
};
memcpy(&usb_bulk_buffer[0x4000], &csw, sizeof(msd_csw_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0x4000],
sizeof(msd_csw_t),
NULL,
NULL);
return 0;
}
typedef struct {
uint32_t last_block_addr;
uint32_t block_size;
} scsi_read_capacity10_response_t;
uint8_t read_capacity10(msd_cbw_t *msd_cbw_data) {
(void)msd_cbw_data;
volatile bool capacity10_stage_one_send = false;
void capacity10_cb(void* user_data, unsigned int bytes_transferred)
{
capacity10_stage_one_send = true;
}
void read_capacity10(msd_cbw_t *msd_cbw_data) {
capacity10_stage_one_send = false;
size_t num_blocks = get_capacity();
scsi_read_capacity10_response_t ret = {
.last_block_addr = cpu_to_be32(8 * 1024 * 1024 - 1),
.last_block_addr = cpu_to_be32(num_blocks - 1),
.block_size = cpu_to_be32(512)
};
memcpy(&usb_bulk_buffer[0], &ret, sizeof(scsi_read_capacity10_response_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0],
sizeof(scsi_read_capacity10_response_t),
capacity10_cb,
msd_cbw_data);
while (!capacity10_stage_one_send);
msd_csw_t csw = {
.signature = MSD_CSW_SIGNATURE,
.tag = msd_cbw_data->tag,
.data_residue = 0,
.status = 0
};
memcpy(&usb_bulk_buffer[0x4000], &csw, sizeof(msd_csw_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0x4000],
sizeof(msd_csw_t),
NULL,
NULL);
usb_send_bulk(&usb_bulk_buffer[0], sizeof(scsi_read_capacity10_response_t));
return 0;
}
typedef struct {
uint8_t byte[18];
} scsi_sense_response_t;
volatile bool sense_stage_one_send = false;
void sense_cb(void* user_data, unsigned int bytes_transferred)
{
sense_stage_one_send = true;
}
void request_sense(msd_cbw_t *msd_cbw_data) {
sense_stage_one_send = false;
uint8_t request_sense(msd_cbw_t *msd_cbw_data) {
(void)msd_cbw_data;
scsi_sense_response_t ret = {
.byte = { 0x70, 0, SCSI_SENSE_KEY_GOOD, 0,
@ -215,83 +130,28 @@ void request_sense(msd_cbw_t *msd_cbw_data) {
};
memcpy(&usb_bulk_buffer[0], &ret, sizeof(scsi_sense_response_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0],
sizeof(scsi_sense_response_t),
sense_cb,
msd_cbw_data);
usb_send_bulk(&usb_bulk_buffer[0], sizeof(scsi_sense_response_t));
while (!sense_stage_one_send);
msd_csw_t csw = {
.signature = MSD_CSW_SIGNATURE,
.tag = msd_cbw_data->tag,
.data_residue = 0,
.status = 0
};
memcpy(&usb_bulk_buffer[0x4000], &csw, sizeof(msd_csw_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0x4000],
sizeof(msd_csw_t),
NULL,
NULL);
return 0;
}
typedef struct {
uint8_t byte[4];
} scsi_mode_sense6_response_t;
uint8_t mode_sense6 (msd_cbw_t *msd_cbw_data) {
(void)msd_cbw_data;
volatile bool sense6_stage_one_send = false;
void sense6_cb(void* user_data, unsigned int bytes_transferred)
{
sense6_stage_one_send = true;
}
void mode_sense6 (msd_cbw_t *msd_cbw_data) {
sense6_stage_one_send = false;
scsi_mode_sense6_response_t ret = {
scsi_mode_sense6_response_t ret = {
.byte = {
sizeof(scsi_mode_sense6_response_t) - 1,
0,
0x01 << 7, // 0 for not write protected
0, // 0x01 << 7, // 0 for not write protected
0 }
};
memcpy(&usb_bulk_buffer[0], &ret, sizeof(scsi_mode_sense6_response_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0],
sizeof(scsi_mode_sense6_response_t),
sense6_cb,
msd_cbw_data);
usb_send_bulk(&usb_bulk_buffer[0], sizeof(scsi_mode_sense6_response_t));
while (!sense6_stage_one_send);
msd_csw_t csw = {
.signature = MSD_CSW_SIGNATURE,
.tag = msd_cbw_data->tag,
.data_residue = 0,
.status = 0
};
memcpy(&usb_bulk_buffer[0x4000], &csw, sizeof(msd_csw_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0x4000],
sizeof(msd_csw_t),
NULL,
NULL);
return 0;
}
typedef struct {
uint32_t first_lba;
uint16_t blk_cnt;
} data_request_t;
static data_request_t decode_data_request(const uint8_t *cmd) {
data_request_t req;
@ -307,122 +167,102 @@ static data_request_t decode_data_request(const uint8_t *cmd) {
return req;
}
volatile uint32_t read10_blocks_send = 0;
void read10_cb(void* user_data, unsigned int bytes_transferred)
{
read10_blocks_send++;
uint8_t data_read10(msd_cbw_t *msd_cbw_data) {
data_request_t req = decode_data_request(msd_cbw_data->cmd_data);
for (size_t block_index = 0; block_index < req.blk_cnt; block_index++) {
read_block(req.first_lba + block_index, &usb_bulk_buffer[0], 1 /* n blocks */);
usb_send_bulk(&usb_bulk_buffer[0], 512);
}
return 0;
}
volatile uint32_t write10_blocks_send = 0;
void write10_cb(void* user_data, unsigned int bytes_transferred)
{
write10_blocks_send++;
void data_read10(msd_cbw_t *msd_cbw_data) {
read10_blocks_send = 0;
(void)user_data;
(void)bytes_transferred;
}
uint8_t data_write10(msd_cbw_t *msd_cbw_data) {
write10_blocks_send = 0;
data_request_t req = decode_data_request(msd_cbw_data->cmd_data);
for (size_t block_index = 0; block_index < req.blk_cnt; block_index++) {
memset(&usb_bulk_buffer[0], 0, 512);
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_endpoint_bulk_out,
&usb_bulk_buffer[0],
512,
read10_cb,
write10_cb,
msd_cbw_data);
while (read10_blocks_send <= block_index);
while (write10_blocks_send <= block_index);
//TODO: write to SD
}
msd_csw_t csw = {
.signature = MSD_CSW_SIGNATURE,
.tag = msd_cbw_data->tag,
.data_residue = 0,
.status = 0
};
memcpy(&usb_bulk_buffer[0x4000], &csw, sizeof(msd_csw_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0x4000],
sizeof(msd_csw_t),
NULL,
NULL);
}
void test_unit_ready(msd_cbw_t *msd_cbw_data) {
msd_csw_t csw = {
.signature = MSD_CSW_SIGNATURE,
.tag = msd_cbw_data->tag,
.data_residue = 0,
.status = 0
};
memcpy(&usb_bulk_buffer[0x4000], &csw, sizeof(msd_csw_t));
usb_transfer_schedule_block(
&usb_endpoint_bulk_in,
&usb_bulk_buffer[0x4000],
sizeof(msd_csw_t),
NULL,
NULL);
return 0;
}
void scsi_command(msd_cbw_t *msd_cbw_data) {
uint8_t status = 1;
switch (msd_cbw_data->cmd_data[0]) {
case SCSI_CMD_INQUIRY:
handle_inquiry(msd_cbw_data);
switch (msd_cbw_data->cmd_data[0]) {
case SCSI_CMD_INQUIRY:
//status = handle_inquiry(msd_cbw_data);
if ((msd_cbw_data->cmd_data[1] & 0b1) && msd_cbw_data->cmd_data[2] == 0x80) {
status = handle_inquiry_serial_number(msd_cbw_data);
}
else if ((msd_cbw_data->cmd_data[1] & 0b11) || msd_cbw_data->cmd_data[2] != 0) {
//TODO: implement sense
status = 1;
}
else {
status = handle_inquiry(msd_cbw_data);
}
break;
break;
case SCSI_CMD_REQUEST_SENSE:
status = request_sense(msd_cbw_data);
break;
case SCSI_CMD_REQUEST_SENSE:
request_sense(msd_cbw_data);
break;
case SCSI_CMD_READ_CAPACITY_10:
status = read_capacity10(msd_cbw_data);
break;
case SCSI_CMD_READ_CAPACITY_10:
read_capacity10(msd_cbw_data);
break;
case SCSI_CMD_READ_10:
status = data_read10(msd_cbw_data);
break;
case SCSI_CMD_READ_10:
data_read10(msd_cbw_data);
break;
case SCSI_CMD_WRITE_10:
status = data_write10(msd_cbw_data);
break;
/*
case SCSI_CMD_WRITE_10:
ret = data_read_write10(scsip, cmd);
break;
*/
case SCSI_CMD_TEST_UNIT_READY:
test_unit_ready(msd_cbw_data);
break;
case SCSI_CMD_TEST_UNIT_READY:
status = 0;
break;
case SCSI_CMD_PREVENT_ALLOW_MEDIUM_REMOVAL:
test_unit_ready(msd_cbw_data);
// ret = cmd_ignored(scsip, cmd);
break;
case SCSI_CMD_PREVENT_ALLOW_MEDIUM_REMOVAL:
status = 0;
break;
case SCSI_CMD_MODE_SENSE_6:
mode_sense6(msd_cbw_data);
break;
case SCSI_CMD_MODE_SENSE_6:
status = mode_sense6(msd_cbw_data);
break;
case SCSI_CMD_READ_FORMAT_CAPACITIES:
read_format_capacities(msd_cbw_data);
break;
case SCSI_CMD_VERIFY_10:
test_unit_ready(msd_cbw_data);
break;
/*
default:
ret = cmd_unhandled(scsip, cmd);
break;
*/
}
// if (ret == SCSI_SUCCESS)
// set_sense_ok(scsip);
case SCSI_CMD_READ_FORMAT_CAPACITIES:
status = read_format_capacities(msd_cbw_data);
break;
case SCSI_CMD_VERIFY_10:
status = 0;
break;
}
usb_send_csw(msd_cbw_data, status);
}

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@ -13,6 +13,9 @@
#include "hackrf_core.h"
#include "usb_bulk_buffer.h"
#define MSD_CBW_SIGNATURE 0x43425355
#define MSD_CSW_SIGNATURE 0x53425355
#define SCSI_CMD_TEST_UNIT_READY 0x00
#define SCSI_CMD_REQUEST_SENSE 0x03
#define SCSI_CMD_INQUIRY 0x12
@ -71,6 +74,67 @@ typedef struct {
uint8_t cmd_data[16];
} __attribute__((packed)) msd_cbw_t;
typedef struct {
uint8_t peripheral;
uint8_t removable;
uint8_t version;
uint8_t response_data_format;
uint8_t additional_length;
uint8_t sccstp;
uint8_t bqueetc;
uint8_t cmdque;
uint8_t vendorID[8];
uint8_t productID[16];
uint8_t productRev[4];
} scsi_inquiry_response_t;
typedef struct {
uint32_t signature;
uint32_t tag;
uint32_t data_residue;
uint8_t status;
} __attribute__((packed)) msd_csw_t;
typedef struct {
uint8_t header[4];
uint8_t blocknum[4];
uint8_t blocklen[4];
} scsi_read_format_capacities_response_t;
typedef struct {
uint8_t header[4];
uint8_t blocknum[4];
uint8_t blocklen[4];
uint8_t blocknum2[4];
uint8_t blocklen2[4];
} scsi_read_format_capacities_double_response_t;
typedef struct {
uint32_t last_block_addr;
uint32_t block_size;
} scsi_read_capacity10_response_t;
typedef struct {
uint8_t byte[18];
} scsi_sense_response_t;
typedef struct {
uint8_t byte[4];
} scsi_mode_sense6_response_t;
typedef struct {
uint32_t first_lba;
uint16_t blk_cnt;
} data_request_t;
typedef struct {
uint8_t peripheral;
uint8_t page_code;
uint8_t reserved;
uint8_t page_length;
uint8_t serialNumber[8];
} scsi_unit_serial_number_inquiry_response_t;
static inline uint16_t bswap_16(const uint16_t x)
__attribute__ ((warn_unused_result))
__attribute__ ((const))

View File

@ -94,16 +94,16 @@ usb_request_status_t usb_vendor_request(
{
usb_request_status_t status = USB_REQUEST_STATUS_STALL;
volatile uint_fast8_t address = endpoint->address;
// volatile uint_fast8_t address = endpoint->address;
volatile uint8_t request = endpoint->setup.request;
volatile uint32_t b = 0;
// volatile uint32_t b = 0;
if (request == 25) { // unknown code
return report_magic_scsi(endpoint, stage);
}
b = request + (address << 16);
HALT_UNTIL_DEBUGGING();
// b = request + (address << 16);
// HALT_UNTIL_DEBUGGING();
return status;
@ -115,16 +115,15 @@ usb_request_status_t usb_class_request(
{
usb_request_status_t status = USB_REQUEST_STATUS_STALL;
volatile uint_fast8_t address = endpoint->address;
volatile uint8_t request = endpoint->setup.request;
volatile uint32_t b = 0;
// volatile uint32_t b = 0;
if (request == 0xFE) {
return report_max_lun(endpoint, stage);
}
b = request + (address << 16);
HALT_UNTIL_DEBUGGING();
// b = request + (address << 16);
// HALT_UNTIL_DEBUGGING();
// if (address == 0x80) {
@ -149,7 +148,7 @@ usb_request_status_t usb_class_request(
// HALT_UNTIL_DEBUGGING();
return status + b;
return status;
}
const usb_request_handlers_t usb_request_handlers = {
@ -168,7 +167,7 @@ void usb_configuration_changed(usb_device_t* const device)
void start_usb(void) {
detect_hardware_platform();
pin_setup();
cpu_clock_init();
cpu_clock_init(); // required
usb_set_configuration_changed_cb(usb_configuration_changed);
usb_peripheral_reset();