125b6a6f1Skrish_iyer /* 2dedbe94eSAdrien Destugues * Copyright 2018-2020 Haiku, Inc. All rights reserved. 325b6a6f1Skrish_iyer * Distributed under the terms of the MIT License. 425b6a6f1Skrish_iyer * 525b6a6f1Skrish_iyer * Authors: 625b6a6f1Skrish_iyer * B Krishnan Iyer, krishnaniyer97@gmail.com 725b6a6f1Skrish_iyer */ 825b6a6f1Skrish_iyer #include "mmc_bus.h" 925b6a6f1Skrish_iyer 10ff76d2dfSAdrien Destugues #include <Errors.h> 11ff76d2dfSAdrien Destugues 12ff76d2dfSAdrien Destugues #include <stdint.h> 13ff76d2dfSAdrien Destugues 1425b6a6f1Skrish_iyer 1525b6a6f1Skrish_iyer MMCBus::MMCBus(device_node* node) 1625b6a6f1Skrish_iyer : 1725b6a6f1Skrish_iyer fNode(node), 1825b6a6f1Skrish_iyer fController(NULL), 1925b6a6f1Skrish_iyer fCookie(NULL), 2025b6a6f1Skrish_iyer fStatus(B_OK), 2174b60970SAnarchos fWorkerThread(-1), 2274b60970SAnarchos fActiveDevice(0) 2325b6a6f1Skrish_iyer { 2425b6a6f1Skrish_iyer CALLED(); 25ff76d2dfSAdrien Destugues 26ff76d2dfSAdrien Destugues // Get the parent info, it includes the API to send commands to the hardware 2725b6a6f1Skrish_iyer device_node* parent = gDeviceManager->get_parent_node(node); 2825b6a6f1Skrish_iyer fStatus = gDeviceManager->get_driver(parent, 2925b6a6f1Skrish_iyer (driver_module_info**)&fController, &fCookie); 3025b6a6f1Skrish_iyer gDeviceManager->put_node(parent); 3125b6a6f1Skrish_iyer 3225b6a6f1Skrish_iyer if (fStatus != B_OK) { 3325b6a6f1Skrish_iyer ERROR("Not able to establish the bus %s\n", 3425b6a6f1Skrish_iyer strerror(fStatus)); 3525b6a6f1Skrish_iyer return; 3625b6a6f1Skrish_iyer } 37ff76d2dfSAdrien Destugues 3874b60970SAnarchos fScanSemaphore = create_sem(0, "MMC bus scan"); 3974b60970SAnarchos fLockSemaphore = create_sem(1, "MMC bus lock"); 4074b60970SAnarchos fWorkerThread = spawn_kernel_thread(_WorkerThread, "SD bus controller", 41ff76d2dfSAdrien Destugues B_NORMAL_PRIORITY, this); 42ff76d2dfSAdrien Destugues resume_thread(fWorkerThread); 4324136793SAdrien Destugues 4424136793SAdrien Destugues fController->set_scan_semaphore(fCookie, fScanSemaphore); 4525b6a6f1Skrish_iyer } 4625b6a6f1Skrish_iyer 4725b6a6f1Skrish_iyer 4825b6a6f1Skrish_iyer MMCBus::~MMCBus() 4925b6a6f1Skrish_iyer { 5025b6a6f1Skrish_iyer CALLED(); 51ff76d2dfSAdrien Destugues 52ff76d2dfSAdrien Destugues // stop worker thread 53ff76d2dfSAdrien Destugues fStatus = B_SHUTTING_DOWN; 54ff76d2dfSAdrien Destugues 55ff76d2dfSAdrien Destugues status_t result; 56ff76d2dfSAdrien Destugues if (fWorkerThread != 0) 57ff76d2dfSAdrien Destugues wait_for_thread(fWorkerThread, &result); 58ff76d2dfSAdrien Destugues // TODO power off cards, stop clock, etc if needed. 5974b60970SAnarchos 6074b60970SAnarchos delete_sem(fLockSemaphore); 6174b60970SAnarchos delete_sem(fScanSemaphore); 6225b6a6f1Skrish_iyer } 6325b6a6f1Skrish_iyer 6425b6a6f1Skrish_iyer 6525b6a6f1Skrish_iyer status_t 6625b6a6f1Skrish_iyer MMCBus::InitCheck() 6725b6a6f1Skrish_iyer { 6825b6a6f1Skrish_iyer return fStatus; 6925b6a6f1Skrish_iyer } 70ff76d2dfSAdrien Destugues 71ff76d2dfSAdrien Destugues 72dedbe94eSAdrien Destugues void 73dedbe94eSAdrien Destugues MMCBus::Rescan() 74dedbe94eSAdrien Destugues { 75dedbe94eSAdrien Destugues // Just wake up the thread for a scan 7674b60970SAnarchos release_sem(fScanSemaphore); 77dedbe94eSAdrien Destugues } 78dedbe94eSAdrien Destugues 79dedbe94eSAdrien Destugues 80ff76d2dfSAdrien Destugues status_t 81*522c141dSAdrien Destugues MMCBus::ExecuteCommand(uint16_t rca, uint8_t command, uint32_t argument, 82*522c141dSAdrien Destugues uint32_t* response) 83ff76d2dfSAdrien Destugues { 84*522c141dSAdrien Destugues status_t status = _ActivateDevice(rca); 8574b60970SAnarchos if (status != B_OK) 8674b60970SAnarchos return status; 87ff76d2dfSAdrien Destugues return fController->execute_command(fCookie, command, argument, response); 88ff76d2dfSAdrien Destugues } 89ff76d2dfSAdrien Destugues 90ff76d2dfSAdrien Destugues 91ff76d2dfSAdrien Destugues status_t 92d1fee57dSAdrien Destugues MMCBus::DoIO(uint16_t rca, uint8_t command, IOOperation* operation, 93d1fee57dSAdrien Destugues bool offsetAsSectors) 9474b60970SAnarchos { 9574b60970SAnarchos status_t status = _ActivateDevice(rca); 9674b60970SAnarchos if (status != B_OK) 9774b60970SAnarchos return status; 98d1fee57dSAdrien Destugues return fController->do_io(fCookie, command, operation, offsetAsSectors); 9974b60970SAnarchos } 10074b60970SAnarchos 10174b60970SAnarchos 102*522c141dSAdrien Destugues void 103*522c141dSAdrien Destugues MMCBus::SetClock(int frequency) 104*522c141dSAdrien Destugues { 105*522c141dSAdrien Destugues fController->set_clock(fCookie, frequency); 106*522c141dSAdrien Destugues } 107*522c141dSAdrien Destugues 108*522c141dSAdrien Destugues 10974b60970SAnarchos status_t 11074b60970SAnarchos MMCBus::_ActivateDevice(uint16_t rca) 11174b60970SAnarchos { 11274b60970SAnarchos // Do nothing if the device is already activated 11374b60970SAnarchos if (fActiveDevice == rca) 11474b60970SAnarchos return B_OK; 11574b60970SAnarchos 11674b60970SAnarchos uint32_t response; 11774b60970SAnarchos status_t result; 11874b60970SAnarchos result = fController->execute_command(fCookie, SD_SELECT_DESELECT_CARD, 11974b60970SAnarchos ((uint32)rca) << 16, &response); 12074b60970SAnarchos 12174b60970SAnarchos if (result == B_OK) 12274b60970SAnarchos fActiveDevice = rca; 12374b60970SAnarchos 12474b60970SAnarchos return result; 12574b60970SAnarchos } 12674b60970SAnarchos 12774b60970SAnarchos 12824136793SAdrien Destugues void MMCBus::_AcquireScanSemaphore() 12924136793SAdrien Destugues { 13024136793SAdrien Destugues release_sem(fLockSemaphore); 13124136793SAdrien Destugues acquire_sem(fScanSemaphore); 13224136793SAdrien Destugues acquire_sem(fLockSemaphore); 13324136793SAdrien Destugues } 13424136793SAdrien Destugues 13524136793SAdrien Destugues 13674b60970SAnarchos status_t 13774b60970SAnarchos MMCBus::_WorkerThread(void* cookie) 138ff76d2dfSAdrien Destugues { 139ff76d2dfSAdrien Destugues MMCBus* bus = (MMCBus*)cookie; 140ff76d2dfSAdrien Destugues uint32_t response; 141ff76d2dfSAdrien Destugues 14274b60970SAnarchos acquire_sem(bus->fLockSemaphore); 14374b60970SAnarchos 144ff76d2dfSAdrien Destugues // We assume the bus defaults to 400kHz clock and has already powered on 145ff76d2dfSAdrien Destugues // cards. 146ff76d2dfSAdrien Destugues 147ff76d2dfSAdrien Destugues // Reset all cards on the bus 14824136793SAdrien Destugues // This does not work if the bus has not been powered on yet (the command 14924136793SAdrien Destugues // will timeout), in that case we wait until asked to scan again when a 15024136793SAdrien Destugues // card has been inserted and powered on. 15124136793SAdrien Destugues status_t result; 15224136793SAdrien Destugues do { 15324136793SAdrien Destugues bus->_AcquireScanSemaphore(); 15424136793SAdrien Destugues TRACE("Reset the bus...\n"); 155*522c141dSAdrien Destugues result = bus->ExecuteCommand(0, SD_GO_IDLE_STATE, 0, NULL); 15624136793SAdrien Destugues TRACE("CMD0 result: %s\n", strerror(result)); 15724136793SAdrien Destugues } while (result != B_OK); 15824136793SAdrien Destugues 15924136793SAdrien Destugues // Need to wait at least 8 clock cycles after CMD0 before sending the next 160*522c141dSAdrien Destugues // command. With the default 400kHz clock that would be 20 microseconds, 161*522c141dSAdrien Destugues // but apparently we need more. 162*522c141dSAdrien Destugues snooze(20000); 163ff76d2dfSAdrien Destugues 164dedbe94eSAdrien Destugues while (bus->fStatus != B_SHUTTING_DOWN) { 165dedbe94eSAdrien Destugues TRACE("Scanning the bus\n"); 166dedbe94eSAdrien Destugues 167*522c141dSAdrien Destugues // Use the low speed clock for scanning 168*522c141dSAdrien Destugues bus->SetClock(400); 169*522c141dSAdrien Destugues 170ff76d2dfSAdrien Destugues // Probe the voltage range 17174b60970SAnarchos enum { 17274b60970SAnarchos // Table 4-40 in physical layer specification v8.00 17374b60970SAnarchos // All other values are currently reserved 17474b60970SAnarchos HOST_27_36V = 1, //Host supplied voltage 2.7-3.6V 17574b60970SAnarchos }; 17674b60970SAnarchos 17774b60970SAnarchos // An arbitrary value, we just need to check that the response 17874b60970SAnarchos // containts the same. 17974b60970SAnarchos static const uint8 kVoltageCheckPattern = 0xAA; 18074b60970SAnarchos 181ff76d2dfSAdrien Destugues // FIXME MMC cards will not reply to this! They expect CMD1 instead 182ff76d2dfSAdrien Destugues // SD v1 cards will also not reply, but we can proceed to ACMD41 183ff76d2dfSAdrien Destugues // If ACMD41 also does not work, it may be an SDIO card, too 18474b60970SAnarchos uint32_t probe = (HOST_27_36V << 8) | kVoltageCheckPattern; 185518af33fSAdrien Destugues uint32_t hcs = 1 << 30; 186*522c141dSAdrien Destugues if (bus->ExecuteCommand(0, SD_SEND_IF_COND, probe, &response) != B_OK) { 187518af33fSAdrien Destugues TRACE("Card does not implement CMD8, may be a V1 SD card\n"); 188518af33fSAdrien Destugues // Do not check for SDHC support in this case 189518af33fSAdrien Destugues hcs = 0; 190518af33fSAdrien Destugues } else if (response != probe) { 191dedbe94eSAdrien Destugues ERROR("Card does not support voltage range (expected %x, " 192dedbe94eSAdrien Destugues "reply %x)\n", probe, response); 19324136793SAdrien Destugues // TODO we should power off the bus in this case. 194ff76d2dfSAdrien Destugues } 195ff76d2dfSAdrien Destugues 196ff76d2dfSAdrien Destugues // Probe OCR, waiting for card to become ready 19724136793SAdrien Destugues // We keep repeating ACMD41 until the card replies that it is 19824136793SAdrien Destugues // initialized. 199ff76d2dfSAdrien Destugues uint32_t ocr; 200ff76d2dfSAdrien Destugues do { 201ff76d2dfSAdrien Destugues uint32_t cardStatus; 202*522c141dSAdrien Destugues while (bus->ExecuteCommand(0, SD_APP_CMD, 0, &cardStatus) 203ff76d2dfSAdrien Destugues == B_BUSY) { 204ff76d2dfSAdrien Destugues ERROR("Card locked after CMD8...\n"); 205ff76d2dfSAdrien Destugues snooze(1000000); 206ff76d2dfSAdrien Destugues } 207ff76d2dfSAdrien Destugues if ((cardStatus & 0xFFFF8000) != 0) 208dedbe94eSAdrien Destugues ERROR("SD card reports error %x\n", cardStatus); 209ff76d2dfSAdrien Destugues if ((cardStatus & (1 << 5)) == 0) 210dedbe94eSAdrien Destugues ERROR("Card did not enter ACMD mode\n"); 211ff76d2dfSAdrien Destugues 212*522c141dSAdrien Destugues bus->ExecuteCommand(0, SD_SEND_OP_COND, hcs | 0xFF8000, &ocr); 213ff76d2dfSAdrien Destugues 214ff76d2dfSAdrien Destugues if ((ocr & (1 << 31)) == 0) { 215ff76d2dfSAdrien Destugues TRACE("Card is busy\n"); 216ff76d2dfSAdrien Destugues snooze(100000); 217ff76d2dfSAdrien Destugues } 218ff76d2dfSAdrien Destugues } while (((ocr & (1 << 31)) == 0)); 219ff76d2dfSAdrien Destugues 220dedbe94eSAdrien Destugues // FIXME this should be asked to each card, when there are multiple 221dedbe94eSAdrien Destugues // ones. So ACMD41 should be moved inside the probing loop below? 222dedbe94eSAdrien Destugues uint8_t cardType = CARD_TYPE_SD; 223dedbe94eSAdrien Destugues 224eb92a834SAdrien Destugues if ((ocr & hcs) != 0) 225dedbe94eSAdrien Destugues cardType = CARD_TYPE_SDHC; 226eb92a834SAdrien Destugues if ((ocr & (1 << 29)) != 0) 227dedbe94eSAdrien Destugues cardType = CARD_TYPE_UHS2; 228eb92a834SAdrien Destugues if ((ocr & (1 << 24)) != 0) 229ff76d2dfSAdrien Destugues TRACE("Card supports 1.8v"); 230ff76d2dfSAdrien Destugues TRACE("Voltage range: %x\n", ocr & 0xFFFFFF); 231ff76d2dfSAdrien Destugues 232ff76d2dfSAdrien Destugues // TODO send CMD11 to switch to low voltage mode if card supports it? 233ff76d2dfSAdrien Destugues 23474b60970SAnarchos // We use CMD2 (ALL_SEND_CID) and CMD3 (SEND_RELATIVE_ADDR) to assign 23574b60970SAnarchos // an RCA to all cards. Initially all cards have an RCA of 0 and will 23674b60970SAnarchos // all receive CMD2. But only ne of them will reply (they do collision 23774b60970SAnarchos // detection while sending the CID in reply). We assign a new RCA to 23874b60970SAnarchos // that first card, and repeat the process with the remaining ones 23974b60970SAnarchos // until no one answers to CMD2. Then we know all cards have an RCA 24074b60970SAnarchos // (and a matching published device on our side). 241ff76d2dfSAdrien Destugues uint32_t cid[4]; 24274b60970SAnarchos 243*522c141dSAdrien Destugues while (bus->ExecuteCommand(0, SD_ALL_SEND_CID, 0, cid) == B_OK) { 244*522c141dSAdrien Destugues bus->ExecuteCommand(0, SD_SEND_RELATIVE_ADDR, 0, &response); 245ff76d2dfSAdrien Destugues 246ff76d2dfSAdrien Destugues TRACE("RCA: %x Status: %x\n", response >> 16, response & 0xFFFF); 247ff76d2dfSAdrien Destugues 248dedbe94eSAdrien Destugues if ((response & 0xFF00) != 0x500) { 249dedbe94eSAdrien Destugues TRACE("Card did not enter data state\n"); 250dedbe94eSAdrien Destugues // This probably means there are no more cards to scan on the 251dedbe94eSAdrien Destugues // bus, so exit the loop. 252dedbe94eSAdrien Destugues break; 253dedbe94eSAdrien Destugues } 254ff76d2dfSAdrien Destugues 255dedbe94eSAdrien Destugues // The card now has an RCA and it entered the data phase, which 256dedbe94eSAdrien Destugues // means our initializing job is over, we can pass it on to the 257dedbe94eSAdrien Destugues // mmc_disk driver. 258ff76d2dfSAdrien Destugues 259dedbe94eSAdrien Destugues uint32_t vendor = cid[3] & 0xFFFFFF; 260eb92a834SAdrien Destugues char name[6] = {(char)(cid[2] >> 24), (char)(cid[2] >> 16), 261eb92a834SAdrien Destugues (char)(cid[2] >> 8), (char)cid[2], (char)(cid[1] >> 24), 0}; 262dedbe94eSAdrien Destugues uint32_t serial = (cid[1] << 16) | (cid[0] >> 16); 263dedbe94eSAdrien Destugues uint16_t revision = (cid[1] >> 20) & 0xF; 264dedbe94eSAdrien Destugues revision *= 100; 265dedbe94eSAdrien Destugues revision += (cid[1] >> 16) & 0xF; 266dedbe94eSAdrien Destugues uint8_t month = cid[0] & 0xF; 267dedbe94eSAdrien Destugues uint16_t year = 2000 + ((cid[0] >> 4) & 0xFF); 268dedbe94eSAdrien Destugues uint16_t rca = response >> 16; 269ff76d2dfSAdrien Destugues 270dedbe94eSAdrien Destugues device_attr attrs[] = { 271dedbe94eSAdrien Destugues { B_DEVICE_BUS, B_STRING_TYPE, {string: "mmc" }}, 27262eaf4c0SAdrien Destugues { B_DEVICE_PRETTY_NAME, B_STRING_TYPE, {string: "mmc device" }}, 273dedbe94eSAdrien Destugues { B_DEVICE_VENDOR_ID, B_UINT32_TYPE, {ui32: vendor}}, 274dedbe94eSAdrien Destugues { B_DEVICE_ID, B_STRING_TYPE, {string: name}}, 275dedbe94eSAdrien Destugues { B_DEVICE_UNIQUE_ID, B_UINT32_TYPE, {ui32: serial}}, 276dedbe94eSAdrien Destugues { "mmc/revision", B_UINT16_TYPE, {ui16: revision}}, 277dedbe94eSAdrien Destugues { "mmc/month", B_UINT8_TYPE, {ui8: month}}, 278dedbe94eSAdrien Destugues { "mmc/year", B_UINT16_TYPE, {ui16: year}}, 279e4689893SAdrien Destugues { kMmcRcaAttribute, B_UINT16_TYPE, {ui16: rca}}, 280e4689893SAdrien Destugues { kMmcTypeAttribute, B_UINT8_TYPE, {ui8: cardType}}, 281dedbe94eSAdrien Destugues {} 282dedbe94eSAdrien Destugues }; 283dedbe94eSAdrien Destugues 284dedbe94eSAdrien Destugues // publish child device for the card 285dedbe94eSAdrien Destugues gDeviceManager->register_node(bus->fNode, MMC_BUS_MODULE_NAME, 286dedbe94eSAdrien Destugues attrs, NULL, NULL); 287dedbe94eSAdrien Destugues } 288dedbe94eSAdrien Destugues 289*522c141dSAdrien Destugues // TODO if there is a single card active, check if it supports CMD6 290*522c141dSAdrien Destugues // (spec version 1.10 or later in SCR). If it does, check if CMD6 can 291*522c141dSAdrien Destugues // enable high speed mode, use that to go to 50MHz instead of 25. 292*522c141dSAdrien Destugues bus->SetClock(25000); 293*522c141dSAdrien Destugues 294dedbe94eSAdrien Destugues // FIXME we also need to unpublish devices that are gone. Probably need 295dedbe94eSAdrien Destugues // to "ping" all RCAs somehow? Or is there an interrupt we can look for 296dedbe94eSAdrien Destugues // to detect added/removed cards? 29724136793SAdrien Destugues 29824136793SAdrien Destugues // Wait for the next scan request 29924136793SAdrien Destugues // The thread will spend most of its time waiting here 30024136793SAdrien Destugues bus->_AcquireScanSemaphore(); 301dedbe94eSAdrien Destugues } 302dedbe94eSAdrien Destugues 30374b60970SAnarchos release_sem(bus->fLockSemaphore); 30474b60970SAnarchos 305dedbe94eSAdrien Destugues TRACE("poller thread terminating"); 306dedbe94eSAdrien Destugues return B_OK; 307ff76d2dfSAdrien Destugues } 308