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1422 1423 1424 1425 1426 1427 1428 1429 1430 1431 1432 | // SPDX-License-Identifier: GPL-2.0-only /* * Copyright (c) 2008 Nuovation System Designs, LLC * Grant Erickson <gerickson@nuovations.com> */ #include <linux/edac.h> #include <linux/interrupt.h> #include <linux/irq.h> #include <linux/kernel.h> #include <linux/mm.h> #include <linux/module.h> #include <linux/of_device.h> #include <linux/of_platform.h> #include <linux/types.h> #include <asm/dcr.h> #include "edac_module.h" #include "ppc4xx_edac.h" /* * This file implements a driver for monitoring and handling events * associated with the IMB DDR2 ECC controller found in the AMCC/IBM * 405EX[r], 440SP, 440SPe, 460EX, 460GT and 460SX. * * As realized in the 405EX[r], this controller features: * * - Support for registered- and non-registered DDR1 and DDR2 memory. * - 32-bit or 16-bit memory interface with optional ECC. * * o ECC support includes: * * - 4-bit SEC/DED * - Aligned-nibble error detect * - Bypass mode * * - Two (2) memory banks/ranks. * - Up to 1 GiB per bank/rank in 32-bit mode and up to 512 MiB per * bank/rank in 16-bit mode. * * As realized in the 440SP and 440SPe, this controller changes/adds: * * - 64-bit or 32-bit memory interface with optional ECC. * * o ECC support includes: * * - 8-bit SEC/DED * - Aligned-nibble error detect * - Bypass mode * * - Up to 4 GiB per bank/rank in 64-bit mode and up to 2 GiB * per bank/rank in 32-bit mode. * * As realized in the 460EX and 460GT, this controller changes/adds: * * - 64-bit or 32-bit memory interface with optional ECC. * * o ECC support includes: * * - 8-bit SEC/DED * - Aligned-nibble error detect * - Bypass mode * * - Four (4) memory banks/ranks. * - Up to 16 GiB per bank/rank in 64-bit mode and up to 8 GiB * per bank/rank in 32-bit mode. * * At present, this driver has ONLY been tested against the controller * realization in the 405EX[r] on the AMCC Kilauea and Haleakala * boards (256 MiB w/o ECC memory soldered onto the board) and a * proprietary board based on those designs (128 MiB ECC memory, also * soldered onto the board). * * Dynamic feature detection and handling needs to be added for the * other realizations of this controller listed above. * * Eventually, this driver will likely be adapted to the above variant * realizations of this controller as well as broken apart to handle * the other known ECC-capable controllers prevalent in other 4xx * processors: * * - IBM SDRAM (405GP, 405CR and 405EP) "ibm,sdram-4xx" * - IBM DDR1 (440GP, 440GX, 440EP and 440GR) "ibm,sdram-4xx-ddr" * - Denali DDR1/DDR2 (440EPX and 440GRX) "denali,sdram-4xx-ddr2" * * For this controller, unfortunately, correctable errors report * nothing more than the beat/cycle and byte/lane the correction * occurred on and the check bit group that covered the error. * * In contrast, uncorrectable errors also report the failing address, * the bus master and the transaction direction (i.e. read or write) * * Regardless of whether the error is a CE or a UE, we report the * following pieces of information in the driver-unique message to the * EDAC subsystem: * * - Device tree path * - Bank(s) * - Check bit error group * - Beat(s)/lane(s) */ /* Preprocessor Definitions */ #define EDAC_OPSTATE_INT_STR "interrupt" #define EDAC_OPSTATE_POLL_STR "polled" #define EDAC_OPSTATE_UNKNOWN_STR "unknown" #define PPC4XX_EDAC_MODULE_NAME "ppc4xx_edac" #define PPC4XX_EDAC_MODULE_REVISION "v1.0.0" #define PPC4XX_EDAC_MESSAGE_SIZE 256 /* * Kernel logging without an EDAC instance */ #define ppc4xx_edac_printk(level, fmt, arg...) \ edac_printk(level, "PPC4xx MC", fmt, ##arg) /* * Kernel logging with an EDAC instance */ #define ppc4xx_edac_mc_printk(level, mci, fmt, arg...) \ edac_mc_chipset_printk(mci, level, "PPC4xx", fmt, ##arg) /* * Macros to convert bank configuration size enumerations into MiB and * page values. */ #define SDRAM_MBCF_SZ_MiB_MIN 4 #define SDRAM_MBCF_SZ_TO_MiB(n) (SDRAM_MBCF_SZ_MiB_MIN \ << (SDRAM_MBCF_SZ_DECODE(n))) #define SDRAM_MBCF_SZ_TO_PAGES(n) (SDRAM_MBCF_SZ_MiB_MIN \ << (20 - PAGE_SHIFT + \ SDRAM_MBCF_SZ_DECODE(n))) /* * The ibm,sdram-4xx-ddr2 Device Control Registers (DCRs) are * indirectly accessed and have a base and length defined by the * device tree. The base can be anything; however, we expect the * length to be precisely two registers, the first for the address * window and the second for the data window. */ #define SDRAM_DCR_RESOURCE_LEN 2 #define SDRAM_DCR_ADDR_OFFSET 0 #define SDRAM_DCR_DATA_OFFSET 1 /* * Device tree interrupt indices */ #define INTMAP_ECCDED_INDEX 0 /* Double-bit Error Detect */ #define INTMAP_ECCSEC_INDEX 1 /* Single-bit Error Correct */ /* Type Definitions */ /* * PPC4xx SDRAM memory controller private instance data */ struct ppc4xx_edac_pdata { dcr_host_t dcr_host; /* Indirect DCR address/data window mapping */ struct { int sec; /* Single-bit correctable error IRQ assigned */ int ded; /* Double-bit detectable error IRQ assigned */ } irqs; }; /* * Various status data gathered and manipulated when checking and * reporting ECC status. */ struct ppc4xx_ecc_status { u32 ecces; u32 besr; u32 bearh; u32 bearl; u32 wmirq; }; /* Function Prototypes */ static int ppc4xx_edac_probe(struct platform_device *device); static int ppc4xx_edac_remove(struct platform_device *device); /* Global Variables */ /* * Device tree node type and compatible tuples this driver can match * on. */ static const struct of_device_id ppc4xx_edac_match[] = { { .compatible = "ibm,sdram-4xx-ddr2" }, { } }; MODULE_DEVICE_TABLE(of, ppc4xx_edac_match); static struct platform_driver ppc4xx_edac_driver = { .probe = ppc4xx_edac_probe, .remove = ppc4xx_edac_remove, .driver = { .name = PPC4XX_EDAC_MODULE_NAME, .of_match_table = ppc4xx_edac_match, }, }; /* * TODO: The row and channel parameters likely need to be dynamically * set based on the aforementioned variant controller realizations. */ static const unsigned ppc4xx_edac_nr_csrows = 2; static const unsigned ppc4xx_edac_nr_chans = 1; /* * Strings associated with PLB master IDs capable of being posted in * SDRAM_BESR or SDRAM_WMIRQ on uncorrectable ECC errors. */ static const char * const ppc4xx_plb_masters[9] = { [SDRAM_PLB_M0ID_ICU] = "ICU", [SDRAM_PLB_M0ID_PCIE0] = "PCI-E 0", [SDRAM_PLB_M0ID_PCIE1] = "PCI-E 1", [SDRAM_PLB_M0ID_DMA] = "DMA", [SDRAM_PLB_M0ID_DCU] = "DCU", [SDRAM_PLB_M0ID_OPB] = "OPB", [SDRAM_PLB_M0ID_MAL] = "MAL", [SDRAM_PLB_M0ID_SEC] = "SEC", [SDRAM_PLB_M0ID_AHB] = "AHB" }; /** * mfsdram - read and return controller register data * @dcr_host: A pointer to the DCR mapping. * @idcr_n: The indirect DCR register to read. * * This routine reads and returns the data associated with the * controller's specified indirect DCR register. * * Returns the read data. */ static inline u32 mfsdram(const dcr_host_t *dcr_host, unsigned int idcr_n) { return __mfdcri(dcr_host->base + SDRAM_DCR_ADDR_OFFSET, dcr_host->base + SDRAM_DCR_DATA_OFFSET, idcr_n); } /** * mtsdram - write controller register data * @dcr_host: A pointer to the DCR mapping. * @idcr_n: The indirect DCR register to write. * @value: The data to write. * * This routine writes the provided data to the controller's specified * indirect DCR register. */ static inline void mtsdram(const dcr_host_t *dcr_host, unsigned int idcr_n, u32 value) { return __mtdcri(dcr_host->base + SDRAM_DCR_ADDR_OFFSET, dcr_host->base + SDRAM_DCR_DATA_OFFSET, idcr_n, value); } /** * ppc4xx_edac_check_bank_error - check a bank for an ECC bank error * @status: A pointer to the ECC status structure to check for an * ECC bank error. * @bank: The bank to check for an ECC error. * * This routine determines whether the specified bank has an ECC * error. * * Returns true if the specified bank has an ECC error; otherwise, * false. */ static bool ppc4xx_edac_check_bank_error(const struct ppc4xx_ecc_status *status, unsigned int bank) { switch (bank) { case 0: return status->ecces & SDRAM_ECCES_BK0ER; case 1: return status->ecces & SDRAM_ECCES_BK1ER; default: return false; } } /** * ppc4xx_edac_generate_bank_message - generate interpretted bank status message * @mci: A pointer to the EDAC memory controller instance associated * with the bank message being generated. * @status: A pointer to the ECC status structure to generate the * message from. * @buffer: A pointer to the buffer in which to generate the * message. * @size: The size, in bytes, of space available in buffer. * * This routine generates to the provided buffer the portion of the * driver-unique report message associated with the ECCESS[BKNER] * field of the specified ECC status. * * Returns the number of characters generated on success; otherwise, < * 0 on error. */ static int ppc4xx_edac_generate_bank_message(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status, char *buffer, size_t size) { int n, total = 0; unsigned int row, rows; n = snprintf(buffer, size, "%s: Banks: ", mci->dev_name); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; for (rows = 0, row = 0; row < mci->nr_csrows; row++) { if (ppc4xx_edac_check_bank_error(status, row)) { n = snprintf(buffer, size, "%s%u", (rows++ ? ", " : ""), row); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; } } n = snprintf(buffer, size, "%s; ", rows ? "" : "None"); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; fail: return total; } /** * ppc4xx_edac_generate_checkbit_message - generate interpretted checkbit message * @mci: A pointer to the EDAC memory controller instance associated * with the checkbit message being generated. * @status: A pointer to the ECC status structure to generate the * message from. * @buffer: A pointer to the buffer in which to generate the * message. * @size: The size, in bytes, of space available in buffer. * * This routine generates to the provided buffer the portion of the * driver-unique report message associated with the ECCESS[CKBER] * field of the specified ECC status. * * Returns the number of characters generated on success; otherwise, < * 0 on error. */ static int ppc4xx_edac_generate_checkbit_message(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status, char *buffer, size_t size) { const struct ppc4xx_edac_pdata *pdata = mci->pvt_info; const char *ckber = NULL; switch (status->ecces & SDRAM_ECCES_CKBER_MASK) { case SDRAM_ECCES_CKBER_NONE: ckber = "None"; break; case SDRAM_ECCES_CKBER_32_ECC_0_3: ckber = "ECC0:3"; break; case SDRAM_ECCES_CKBER_32_ECC_4_8: switch (mfsdram(&pdata->dcr_host, SDRAM_MCOPT1) & SDRAM_MCOPT1_WDTH_MASK) { case SDRAM_MCOPT1_WDTH_16: ckber = "ECC0:3"; break; case SDRAM_MCOPT1_WDTH_32: ckber = "ECC4:8"; break; default: ckber = "Unknown"; break; } break; case SDRAM_ECCES_CKBER_32_ECC_0_8: ckber = "ECC0:8"; break; default: ckber = "Unknown"; break; } return snprintf(buffer, size, "Checkbit Error: %s", ckber); } /** * ppc4xx_edac_generate_lane_message - generate interpretted byte lane message * @mci: A pointer to the EDAC memory controller instance associated * with the byte lane message being generated. * @status: A pointer to the ECC status structure to generate the * message from. * @buffer: A pointer to the buffer in which to generate the * message. * @size: The size, in bytes, of space available in buffer. * * This routine generates to the provided buffer the portion of the * driver-unique report message associated with the ECCESS[BNCE] * field of the specified ECC status. * * Returns the number of characters generated on success; otherwise, < * 0 on error. */ static int ppc4xx_edac_generate_lane_message(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status, char *buffer, size_t size) { int n, total = 0; unsigned int lane, lanes; const unsigned int first_lane = 0; const unsigned int lane_count = 16; n = snprintf(buffer, size, "; Byte Lane Errors: "); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; for (lanes = 0, lane = first_lane; lane < lane_count; lane++) { if ((status->ecces & SDRAM_ECCES_BNCE_ENCODE(lane)) != 0) { n = snprintf(buffer, size, "%s%u", (lanes++ ? ", " : ""), lane); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; } } n = snprintf(buffer, size, "%s; ", lanes ? "" : "None"); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; fail: return total; } /** * ppc4xx_edac_generate_ecc_message - generate interpretted ECC status message * @mci: A pointer to the EDAC memory controller instance associated * with the ECCES message being generated. * @status: A pointer to the ECC status structure to generate the * message from. * @buffer: A pointer to the buffer in which to generate the * message. * @size: The size, in bytes, of space available in buffer. * * This routine generates to the provided buffer the portion of the * driver-unique report message associated with the ECCESS register of * the specified ECC status. * * Returns the number of characters generated on success; otherwise, < * 0 on error. */ static int ppc4xx_edac_generate_ecc_message(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status, char *buffer, size_t size) { int n, total = 0; n = ppc4xx_edac_generate_bank_message(mci, status, buffer, size); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; n = ppc4xx_edac_generate_checkbit_message(mci, status, buffer, size); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; n = ppc4xx_edac_generate_lane_message(mci, status, buffer, size); if (n < 0 || n >= size) goto fail; buffer += n; size -= n; total += n; fail: return total; } /** * ppc4xx_edac_generate_plb_message - generate interpretted PLB status message * @mci: A pointer to the EDAC memory controller instance associated * with the PLB message being generated. * @status: A pointer to the ECC status structure to generate the * message from. * @buffer: A pointer to the buffer in which to generate the * message. * @size: The size, in bytes, of space available in buffer. * * This routine generates to the provided buffer the portion of the * driver-unique report message associated with the PLB-related BESR * and/or WMIRQ registers of the specified ECC status. * * Returns the number of characters generated on success; otherwise, < * 0 on error. */ static int ppc4xx_edac_generate_plb_message(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status, char *buffer, size_t size) { unsigned int master; bool read; if ((status->besr & SDRAM_BESR_MASK) == 0) return 0; if ((status->besr & SDRAM_BESR_M0ET_MASK) == SDRAM_BESR_M0ET_NONE) return 0; read = ((status->besr & SDRAM_BESR_M0RW_MASK) == SDRAM_BESR_M0RW_READ); master = SDRAM_BESR_M0ID_DECODE(status->besr); return snprintf(buffer, size, "%s error w/ PLB master %u \"%s\"; ", (read ? "Read" : "Write"), master, (((master >= SDRAM_PLB_M0ID_FIRST) && (master <= SDRAM_PLB_M0ID_LAST)) ? ppc4xx_plb_masters[master] : "UNKNOWN")); } /** * ppc4xx_edac_generate_message - generate interpretted status message * @mci: A pointer to the EDAC memory controller instance associated * with the driver-unique message being generated. * @status: A pointer to the ECC status structure to generate the * message from. * @buffer: A pointer to the buffer in which to generate the * message. * @size: The size, in bytes, of space available in buffer. * * This routine generates to the provided buffer the driver-unique * EDAC report message from the specified ECC status. */ static void ppc4xx_edac_generate_message(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status, char *buffer, size_t size) { int n; if (buffer == NULL || size == 0) return; n = ppc4xx_edac_generate_ecc_message(mci, status, buffer, size); if (n < 0 || n >= size) return; buffer += n; size -= n; ppc4xx_edac_generate_plb_message(mci, status, buffer, size); } #ifdef DEBUG /** * ppc4xx_ecc_dump_status - dump controller ECC status registers * @mci: A pointer to the EDAC memory controller instance * associated with the status being dumped. * @status: A pointer to the ECC status structure to generate the * dump from. * * This routine dumps to the kernel log buffer the raw and * interpretted specified ECC status. */ static void ppc4xx_ecc_dump_status(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status) { char message[PPC4XX_EDAC_MESSAGE_SIZE]; ppc4xx_edac_generate_message(mci, status, message, sizeof(message)); ppc4xx_edac_mc_printk(KERN_INFO, mci, "\n" "\tECCES: 0x%08x\n" "\tWMIRQ: 0x%08x\n" "\tBESR: 0x%08x\n" "\tBEAR: 0x%08x%08x\n" "\t%s\n", status->ecces, status->wmirq, status->besr, status->bearh, status->bearl, message); } #endif /* DEBUG */ /** * ppc4xx_ecc_get_status - get controller ECC status * @mci: A pointer to the EDAC memory controller instance * associated with the status being retrieved. * @status: A pointer to the ECC status structure to populate the * ECC status with. * * This routine reads and masks, as appropriate, all the relevant * status registers that deal with ibm,sdram-4xx-ddr2 ECC errors. * While we read all of them, for correctable errors, we only expect * to deal with ECCES. For uncorrectable errors, we expect to deal * with all of them. */ static void ppc4xx_ecc_get_status(const struct mem_ctl_info *mci, struct ppc4xx_ecc_status *status) { const struct ppc4xx_edac_pdata *pdata = mci->pvt_info; const dcr_host_t *dcr_host = &pdata->dcr_host; status->ecces = mfsdram(dcr_host, SDRAM_ECCES) & SDRAM_ECCES_MASK; status->wmirq = mfsdram(dcr_host, SDRAM_WMIRQ) & SDRAM_WMIRQ_MASK; status->besr = mfsdram(dcr_host, SDRAM_BESR) & SDRAM_BESR_MASK; status->bearl = mfsdram(dcr_host, SDRAM_BEARL); status->bearh = mfsdram(dcr_host, SDRAM_BEARH); } /** * ppc4xx_ecc_clear_status - clear controller ECC status * @mci: A pointer to the EDAC memory controller instance * associated with the status being cleared. * @status: A pointer to the ECC status structure containing the * values to write to clear the ECC status. * * This routine clears--by writing the masked (as appropriate) status * values back to--the status registers that deal with * ibm,sdram-4xx-ddr2 ECC errors. */ static void ppc4xx_ecc_clear_status(const struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status) { const struct ppc4xx_edac_pdata *pdata = mci->pvt_info; const dcr_host_t *dcr_host = &pdata->dcr_host; mtsdram(dcr_host, SDRAM_ECCES, status->ecces & SDRAM_ECCES_MASK); mtsdram(dcr_host, SDRAM_WMIRQ, status->wmirq & SDRAM_WMIRQ_MASK); mtsdram(dcr_host, SDRAM_BESR, status->besr & SDRAM_BESR_MASK); mtsdram(dcr_host, SDRAM_BEARL, 0); mtsdram(dcr_host, SDRAM_BEARH, 0); } /** * ppc4xx_edac_handle_ce - handle controller correctable ECC error (CE) * @mci: A pointer to the EDAC memory controller instance * associated with the correctable error being handled and reported. * @status: A pointer to the ECC status structure associated with * the correctable error being handled and reported. * * This routine handles an ibm,sdram-4xx-ddr2 controller ECC * correctable error. Per the aforementioned discussion, there's not * enough status available to use the full EDAC correctable error * interface, so we just pass driver-unique message to the "no info" * interface. */ static void ppc4xx_edac_handle_ce(struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status) { int row; char message[PPC4XX_EDAC_MESSAGE_SIZE]; ppc4xx_edac_generate_message(mci, status, message, sizeof(message)); for (row = 0; row < mci->nr_csrows; row++) if (ppc4xx_edac_check_bank_error(status, row)) edac_mc_handle_error(HW_EVENT_ERR_CORRECTED, mci, 1, 0, 0, 0, row, 0, -1, message, ""); } /** * ppc4xx_edac_handle_ue - handle controller uncorrectable ECC error (UE) * @mci: A pointer to the EDAC memory controller instance * associated with the uncorrectable error being handled and * reported. * @status: A pointer to the ECC status structure associated with * the uncorrectable error being handled and reported. * * This routine handles an ibm,sdram-4xx-ddr2 controller ECC * uncorrectable error. */ static void ppc4xx_edac_handle_ue(struct mem_ctl_info *mci, const struct ppc4xx_ecc_status *status) { const u64 bear = ((u64)status->bearh << 32 | status->bearl); const unsigned long page = bear >> PAGE_SHIFT; const unsigned long offset = bear & ~PAGE_MASK; int row; char message[PPC4XX_EDAC_MESSAGE_SIZE]; ppc4xx_edac_generate_message(mci, status, message, sizeof(message)); for (row = 0; row < mci->nr_csrows; row++) if (ppc4xx_edac_check_bank_error(status, row)) edac_mc_handle_error(HW_EVENT_ERR_UNCORRECTED, mci, 1, page, offset, 0, row, 0, -1, message, ""); } /** * ppc4xx_edac_check - check controller for ECC errors * @mci: A pointer to the EDAC memory controller instance * associated with the ibm,sdram-4xx-ddr2 controller being * checked. * * This routine is used to check and post ECC errors and is called by * both the EDAC polling thread and this driver's CE and UE interrupt * handler. */ static void ppc4xx_edac_check(struct mem_ctl_info *mci) { #ifdef DEBUG static unsigned int count; #endif struct ppc4xx_ecc_status status; ppc4xx_ecc_get_status(mci, &status); #ifdef DEBUG if (count++ % 30 == 0) ppc4xx_ecc_dump_status(mci, &status); #endif if (status.ecces & SDRAM_ECCES_UE) ppc4xx_edac_handle_ue(mci, &status); if (status.ecces & SDRAM_ECCES_CE) ppc4xx_edac_handle_ce(mci, &status); ppc4xx_ecc_clear_status(mci, &status); } /** * ppc4xx_edac_isr - SEC (CE) and DED (UE) interrupt service routine * @irq: The virtual interrupt number being serviced. * @dev_id: A pointer to the EDAC memory controller instance * associated with the interrupt being handled. * * This routine implements the interrupt handler for both correctable * (CE) and uncorrectable (UE) ECC errors for the ibm,sdram-4xx-ddr2 * controller. It simply calls through to the same routine used during * polling to check, report and clear the ECC status. * * Unconditionally returns IRQ_HANDLED. */ static irqreturn_t ppc4xx_edac_isr(int irq, void *dev_id) { struct mem_ctl_info *mci = dev_id; ppc4xx_edac_check(mci); return IRQ_HANDLED; } /** * ppc4xx_edac_get_dtype - return the controller memory width * @mcopt1: The 32-bit Memory Controller Option 1 register value * currently set for the controller, from which the width * is derived. * * This routine returns the EDAC device type width appropriate for the * current controller configuration. * * TODO: This needs to be conditioned dynamically through feature * flags or some such when other controller variants are supported as * the 405EX[r] is 16-/32-bit and the others are 32-/64-bit with the * 16- and 64-bit field definition/value/enumeration (b1) overloaded * among them. * * Returns a device type width enumeration. */ static enum dev_type ppc4xx_edac_get_dtype(u32 mcopt1) { switch (mcopt1 & SDRAM_MCOPT1_WDTH_MASK) { case SDRAM_MCOPT1_WDTH_16: return DEV_X2; case SDRAM_MCOPT1_WDTH_32: return DEV_X4; default: return DEV_UNKNOWN; } } /** * ppc4xx_edac_get_mtype - return controller memory type * @mcopt1: The 32-bit Memory Controller Option 1 register value * currently set for the controller, from which the memory type * is derived. * * This routine returns the EDAC memory type appropriate for the * current controller configuration. * * Returns a memory type enumeration. */ static enum mem_type ppc4xx_edac_get_mtype(u32 mcopt1) { bool rden = ((mcopt1 & SDRAM_MCOPT1_RDEN_MASK) == SDRAM_MCOPT1_RDEN); switch (mcopt1 & SDRAM_MCOPT1_DDR_TYPE_MASK) { case SDRAM_MCOPT1_DDR2_TYPE: return rden ? MEM_RDDR2 : MEM_DDR2; case SDRAM_MCOPT1_DDR1_TYPE: return rden ? MEM_RDDR : MEM_DDR; default: return MEM_UNKNOWN; } } /** * ppc4xx_edac_init_csrows - initialize driver instance rows * @mci: A pointer to the EDAC memory controller instance * associated with the ibm,sdram-4xx-ddr2 controller for which * the csrows (i.e. banks/ranks) are being initialized. * @mcopt1: The 32-bit Memory Controller Option 1 register value * currently set for the controller, from which bank width * and memory typ information is derived. * * This routine initializes the virtual "chip select rows" associated * with the EDAC memory controller instance. An ibm,sdram-4xx-ddr2 * controller bank/rank is mapped to a row. * * Returns 0 if OK; otherwise, -EINVAL if the memory bank size * configuration cannot be determined. */ static int ppc4xx_edac_init_csrows(struct mem_ctl_info *mci, u32 mcopt1) { const struct ppc4xx_edac_pdata *pdata = mci->pvt_info; int status = 0; enum mem_type mtype; enum dev_type dtype; enum edac_type edac_mode; int row, j; u32 mbxcf, size, nr_pages; /* Establish the memory type and width */ mtype = ppc4xx_edac_get_mtype(mcopt1); dtype = ppc4xx_edac_get_dtype(mcopt1); /* Establish EDAC mode */ if (mci->edac_cap & EDAC_FLAG_SECDED) edac_mode = EDAC_SECDED; else if (mci->edac_cap & EDAC_FLAG_EC) edac_mode = EDAC_EC; else edac_mode = EDAC_NONE; /* * Initialize each chip select row structure which correspond * 1:1 with a controller bank/rank. */ for (row = 0; row < mci->nr_csrows; row++) { struct csrow_info *csi = mci->csrows[row]; /* * Get the configuration settings for this * row/bank/rank and skip disabled banks. */ mbxcf = mfsdram(&pdata->dcr_host, SDRAM_MBXCF(row)); if ((mbxcf & SDRAM_MBCF_BE_MASK) != SDRAM_MBCF_BE_ENABLE) continue; /* Map the bank configuration size setting to pages. */ size = mbxcf & SDRAM_MBCF_SZ_MASK; switch (size) { case SDRAM_MBCF_SZ_4MB: case SDRAM_MBCF_SZ_8MB: case SDRAM_MBCF_SZ_16MB: case SDRAM_MBCF_SZ_32MB: case SDRAM_MBCF_SZ_64MB: case SDRAM_MBCF_SZ_128MB: case SDRAM_MBCF_SZ_256MB: case SDRAM_MBCF_SZ_512MB: case SDRAM_MBCF_SZ_1GB: case SDRAM_MBCF_SZ_2GB: case SDRAM_MBCF_SZ_4GB: case SDRAM_MBCF_SZ_8GB: nr_pages = SDRAM_MBCF_SZ_TO_PAGES(size); break; default: ppc4xx_edac_mc_printk(KERN_ERR, mci, "Unrecognized memory bank %d " "size 0x%08x\n", row, SDRAM_MBCF_SZ_DECODE(size)); status = -EINVAL; goto done; } /* * It's unclear exactly what grain should be set to * here. The SDRAM_ECCES register allows resolution of * an error down to a nibble which would potentially * argue for a grain of '1' byte, even though we only * know the associated address for uncorrectable * errors. This value is not used at present for * anything other than error reporting so getting it * wrong should be of little consequence. Other * possible values would be the PLB width (16), the * page size (PAGE_SIZE) or the memory width (2 or 4). */ for (j = 0; j < csi->nr_channels; j++) { struct dimm_info *dimm = csi->channels[j]->dimm; dimm->nr_pages = nr_pages / csi->nr_channels; dimm->grain = 1; dimm->mtype = mtype; dimm->dtype = dtype; dimm->edac_mode = edac_mode; } } done: return status; } /** * ppc4xx_edac_mc_init - initialize driver instance * @mci: A pointer to the EDAC memory controller instance being * initialized. * @op: A pointer to the OpenFirmware device tree node associated * with the controller this EDAC instance is bound to. * @dcr_host: A pointer to the DCR data containing the DCR mapping * for this controller instance. * @mcopt1: The 32-bit Memory Controller Option 1 register value * currently set for the controller, from which ECC capabilities * and scrub mode are derived. * * This routine performs initialization of the EDAC memory controller * instance and related driver-private data associated with the * ibm,sdram-4xx-ddr2 memory controller the instance is bound to. * * Returns 0 if OK; otherwise, < 0 on error. */ static int ppc4xx_edac_mc_init(struct mem_ctl_info *mci, struct platform_device *op, const dcr_host_t *dcr_host, u32 mcopt1) { int status = 0; const u32 memcheck = (mcopt1 & SDRAM_MCOPT1_MCHK_MASK); struct ppc4xx_edac_pdata *pdata = NULL; const struct device_node *np = op->dev.of_node; if (of_match_device(ppc4xx_edac_match, &op->dev) == NULL) return -EINVAL; /* Initial driver pointers and private data */ mci->pdev = &op->dev; dev_set_drvdata(mci->pdev, mci); pdata = mci->pvt_info; pdata->dcr_host = *dcr_host; /* Initialize controller capabilities and configuration */ mci->mtype_cap = (MEM_FLAG_DDR | MEM_FLAG_RDDR | MEM_FLAG_DDR2 | MEM_FLAG_RDDR2); mci->edac_ctl_cap = (EDAC_FLAG_NONE | EDAC_FLAG_EC | EDAC_FLAG_SECDED); mci->scrub_cap = SCRUB_NONE; mci->scrub_mode = SCRUB_NONE; /* * Update the actual capabilites based on the MCOPT1[MCHK] * settings. Scrubbing is only useful if reporting is enabled. */ switch (memcheck) { case SDRAM_MCOPT1_MCHK_CHK: mci->edac_cap = EDAC_FLAG_EC; break; case SDRAM_MCOPT1_MCHK_CHK_REP: mci->edac_cap = (EDAC_FLAG_EC | EDAC_FLAG_SECDED); mci->scrub_mode = SCRUB_SW_SRC; break; default: mci->edac_cap = EDAC_FLAG_NONE; break; } /* Initialize strings */ mci->mod_name = PPC4XX_EDAC_MODULE_NAME; mci->ctl_name = ppc4xx_edac_match->compatible; mci->dev_name = np->full_name; /* Initialize callbacks */ mci->edac_check = ppc4xx_edac_check; mci->ctl_page_to_phys = NULL; /* Initialize chip select rows */ status = ppc4xx_edac_init_csrows(mci, mcopt1); if (status) ppc4xx_edac_mc_printk(KERN_ERR, mci, "Failed to initialize rows!\n"); return status; } /** * ppc4xx_edac_register_irq - setup and register controller interrupts * @op: A pointer to the OpenFirmware device tree node associated * with the controller this EDAC instance is bound to. * @mci: A pointer to the EDAC memory controller instance * associated with the ibm,sdram-4xx-ddr2 controller for which * interrupts are being registered. * * This routine parses the correctable (CE) and uncorrectable error (UE) * interrupts from the device tree node and maps and assigns them to * the associated EDAC memory controller instance. * * Returns 0 if OK; otherwise, -ENODEV if the interrupts could not be * mapped and assigned. */ static int ppc4xx_edac_register_irq(struct platform_device *op, struct mem_ctl_info *mci) { int status = 0; int ded_irq, sec_irq; struct ppc4xx_edac_pdata *pdata = mci->pvt_info; struct device_node *np = op->dev.of_node; ded_irq = irq_of_parse_and_map(np, INTMAP_ECCDED_INDEX); sec_irq = irq_of_parse_and_map(np, INTMAP_ECCSEC_INDEX); if (!ded_irq || !sec_irq) { ppc4xx_edac_mc_printk(KERN_ERR, mci, "Unable to map interrupts.\n"); status = -ENODEV; goto fail; } status = request_irq(ded_irq, ppc4xx_edac_isr, 0, "[EDAC] MC ECCDED", mci); if (status < 0) { ppc4xx_edac_mc_printk(KERN_ERR, mci, "Unable to request irq %d for ECC DED", ded_irq); status = -ENODEV; goto fail1; } status = request_irq(sec_irq, ppc4xx_edac_isr, 0, "[EDAC] MC ECCSEC", mci); if (status < 0) { ppc4xx_edac_mc_printk(KERN_ERR, mci, "Unable to request irq %d for ECC SEC", sec_irq); status = -ENODEV; goto fail2; } ppc4xx_edac_mc_printk(KERN_INFO, mci, "ECCDED irq is %d\n", ded_irq); ppc4xx_edac_mc_printk(KERN_INFO, mci, "ECCSEC irq is %d\n", sec_irq); pdata->irqs.ded = ded_irq; pdata->irqs.sec = sec_irq; return 0; fail2: free_irq(sec_irq, mci); fail1: free_irq(ded_irq, mci); fail: return status; } /** * ppc4xx_edac_map_dcrs - locate and map controller registers * @np: A pointer to the device tree node containing the DCR * resources to map. * @dcr_host: A pointer to the DCR data to populate with the * DCR mapping. * * This routine attempts to locate in the device tree and map the DCR * register resources associated with the controller's indirect DCR * address and data windows. * * Returns 0 if the DCRs were successfully mapped; otherwise, < 0 on * error. */ static int ppc4xx_edac_map_dcrs(const struct device_node *np, dcr_host_t *dcr_host) { unsigned int dcr_base, dcr_len; if (np == NULL || dcr_host == NULL) return -EINVAL; /* Get the DCR resource extent and sanity check the values. */ dcr_base = dcr_resource_start(np, 0); dcr_len = dcr_resource_len(np, 0); if (dcr_base == 0 || dcr_len == 0) { ppc4xx_edac_printk(KERN_ERR, "Failed to obtain DCR property.\n"); return -ENODEV; } if (dcr_len != SDRAM_DCR_RESOURCE_LEN) { ppc4xx_edac_printk(KERN_ERR, "Unexpected DCR length %d, expected %d.\n", dcr_len, SDRAM_DCR_RESOURCE_LEN); return -ENODEV; } /* Attempt to map the DCR extent. */ *dcr_host = dcr_map(np, dcr_base, dcr_len); if (!DCR_MAP_OK(*dcr_host)) { ppc4xx_edac_printk(KERN_INFO, "Failed to map DCRs.\n"); return -ENODEV; } return 0; } /** * ppc4xx_edac_probe - check controller and bind driver * @op: A pointer to the OpenFirmware device tree node associated * with the controller being probed for driver binding. * * This routine probes a specific ibm,sdram-4xx-ddr2 controller * instance for binding with the driver. * * Returns 0 if the controller instance was successfully bound to the * driver; otherwise, < 0 on error. */ static int ppc4xx_edac_probe(struct platform_device *op) { int status = 0; u32 mcopt1, memcheck; dcr_host_t dcr_host; const struct device_node *np = op->dev.of_node; struct mem_ctl_info *mci = NULL; struct edac_mc_layer layers[2]; static int ppc4xx_edac_instance; /* * At this point, we only support the controller realized on * the AMCC PPC 405EX[r]. Reject anything else. */ if (!of_device_is_compatible(np, "ibm,sdram-405ex") && !of_device_is_compatible(np, "ibm,sdram-405exr")) { ppc4xx_edac_printk(KERN_NOTICE, "Only the PPC405EX[r] is supported.\n"); return -ENODEV; } /* * Next, get the DCR property and attempt to map it so that we * can probe the controller. */ status = ppc4xx_edac_map_dcrs(np, &dcr_host); if (status) return status; /* * First determine whether ECC is enabled at all. If not, * there is no useful checking or monitoring that can be done * for this controller. */ mcopt1 = mfsdram(&dcr_host, SDRAM_MCOPT1); memcheck = (mcopt1 & SDRAM_MCOPT1_MCHK_MASK); if (memcheck == SDRAM_MCOPT1_MCHK_NON) { ppc4xx_edac_printk(KERN_INFO, "%pOF: No ECC memory detected or " "ECC is disabled.\n", np); status = -ENODEV; goto done; } /* * At this point, we know ECC is enabled, allocate an EDAC * controller instance and perform the appropriate * initialization. */ layers[0].type = EDAC_MC_LAYER_CHIP_SELECT; layers[0].size = ppc4xx_edac_nr_csrows; layers[0].is_virt_csrow = true; layers[1].type = EDAC_MC_LAYER_CHANNEL; layers[1].size = ppc4xx_edac_nr_chans; layers[1].is_virt_csrow = false; mci = edac_mc_alloc(ppc4xx_edac_instance, ARRAY_SIZE(layers), layers, sizeof(struct ppc4xx_edac_pdata)); if (mci == NULL) { ppc4xx_edac_printk(KERN_ERR, "%pOF: " "Failed to allocate EDAC MC instance!\n", np); status = -ENOMEM; goto done; } status = ppc4xx_edac_mc_init(mci, op, &dcr_host, mcopt1); if (status) { ppc4xx_edac_mc_printk(KERN_ERR, mci, "Failed to initialize instance!\n"); goto fail; } /* * We have a valid, initialized EDAC instance bound to the * controller. Attempt to register it with the EDAC subsystem * and, if necessary, register interrupts. */ if (edac_mc_add_mc(mci)) { ppc4xx_edac_mc_printk(KERN_ERR, mci, "Failed to add instance!\n"); status = -ENODEV; goto fail; } if (edac_op_state == EDAC_OPSTATE_INT) { status = ppc4xx_edac_register_irq(op, mci); if (status) goto fail1; } ppc4xx_edac_instance++; return 0; fail1: edac_mc_del_mc(mci->pdev); fail: edac_mc_free(mci); done: return status; } /** * ppc4xx_edac_remove - unbind driver from controller * @op: A pointer to the OpenFirmware device tree node associated * with the controller this EDAC instance is to be unbound/removed * from. * * This routine unbinds the EDAC memory controller instance associated * with the specified ibm,sdram-4xx-ddr2 controller described by the * OpenFirmware device tree node passed as a parameter. * * Unconditionally returns 0. */ static int ppc4xx_edac_remove(struct platform_device *op) { struct mem_ctl_info *mci = dev_get_drvdata(&op->dev); struct ppc4xx_edac_pdata *pdata = mci->pvt_info; if (edac_op_state == EDAC_OPSTATE_INT) { free_irq(pdata->irqs.sec, mci); free_irq(pdata->irqs.ded, mci); } dcr_unmap(pdata->dcr_host, SDRAM_DCR_RESOURCE_LEN); edac_mc_del_mc(mci->pdev); edac_mc_free(mci); return 0; } /** * ppc4xx_edac_opstate_init - initialize EDAC reporting method * * This routine ensures that the EDAC memory controller reporting * method is mapped to a sane value as the EDAC core defines the value * to EDAC_OPSTATE_INVAL by default. We don't call the global * opstate_init as that defaults to polling and we want interrupt as * the default. */ static inline void __init ppc4xx_edac_opstate_init(void) { switch (edac_op_state) { case EDAC_OPSTATE_POLL: case EDAC_OPSTATE_INT: break; default: edac_op_state = EDAC_OPSTATE_INT; break; } ppc4xx_edac_printk(KERN_INFO, "Reporting type: %s\n", ((edac_op_state == EDAC_OPSTATE_POLL) ? EDAC_OPSTATE_POLL_STR : ((edac_op_state == EDAC_OPSTATE_INT) ? EDAC_OPSTATE_INT_STR : EDAC_OPSTATE_UNKNOWN_STR))); } /** * ppc4xx_edac_init - driver/module insertion entry point * * This routine is the driver/module insertion entry point. It * initializes the EDAC memory controller reporting state and * registers the driver as an OpenFirmware device tree platform * driver. */ static int __init ppc4xx_edac_init(void) { ppc4xx_edac_printk(KERN_INFO, PPC4XX_EDAC_MODULE_REVISION "\n"); ppc4xx_edac_opstate_init(); return platform_driver_register(&ppc4xx_edac_driver); } /** * ppc4xx_edac_exit - driver/module removal entry point * * This routine is the driver/module removal entry point. It * unregisters the driver as an OpenFirmware device tree platform * driver. */ static void __exit ppc4xx_edac_exit(void) { platform_driver_unregister(&ppc4xx_edac_driver); } module_init(ppc4xx_edac_init); module_exit(ppc4xx_edac_exit); MODULE_LICENSE("GPL v2"); MODULE_AUTHOR("Grant Erickson <gerickson@nuovations.com>"); MODULE_DESCRIPTION("EDAC MC Driver for the PPC4xx IBM DDR2 Memory Controller"); module_param(edac_op_state, int, 0444); MODULE_PARM_DESC(edac_op_state, "EDAC Error Reporting State: " "0=" EDAC_OPSTATE_POLL_STR ", 2=" EDAC_OPSTATE_INT_STR); |