// SPDX-License-Identifier: GPL-2.0 /* * Functions for incremental construction of fcx enabled I/O control blocks. * * Copyright IBM Corp. 2008 * Author(s): Peter Oberparleiter <peter.oberparleiter@de.ibm.com> */ #include <linux/kernel.h> #include <linux/types.h> #include <linux/string.h> #include <linux/io.h> #include <linux/errno.h> #include <linux/err.h> #include <linux/module.h> #include <asm/fcx.h> #include <asm/itcw.h> /* * struct itcw - incremental tcw helper data type * * This structure serves as a handle for the incremental construction of a * tcw and associated tccb, tsb, data tidaw-list plus an optional interrogate * tcw and associated data. The data structures are contained inside a single * contiguous buffer provided by the user. * * The itcw construction functions take care of overall data integrity: * - reset unused fields to zero * - fill in required pointers * - ensure required alignment for data structures * - prevent data structures to cross 4k-byte boundary where required * - calculate tccb-related length fields * - optionally provide ready-made interrogate tcw and associated structures * * Restrictions apply to the itcws created with these construction functions: * - tida only supported for data address, not for tccb * - only contiguous tidaw-lists (no ttic) * - total number of bytes required per itcw may not exceed 4k bytes * - either read or write operation (may not work with r=0 and w=0) * * Example: * struct itcw *itcw; * void *buffer; * size_t size; * * size = itcw_calc_size(1, 2, 0); * buffer = kmalloc(size, GFP_KERNEL | GFP_DMA); * if (!buffer) * return -ENOMEM; * itcw = itcw_init(buffer, size, ITCW_OP_READ, 1, 2, 0); * if (IS_ERR(itcw)) * return PTR_ER(itcw); * itcw_add_dcw(itcw, 0x2, 0, NULL, 0, 72); * itcw_add_tidaw(itcw, 0, 0x30000, 20); * itcw_add_tidaw(itcw, 0, 0x40000, 52); * itcw_finalize(itcw); * */ struct itcw { struct tcw *tcw; struct tcw *intrg_tcw; int num_tidaws; int max_tidaws; int intrg_num_tidaws; int intrg_max_tidaws; }; /** * itcw_get_tcw - return pointer to tcw associated with the itcw * @itcw: address of the itcw * * Return pointer to the tcw associated with the itcw. */ struct tcw *itcw_get_tcw(struct itcw *itcw) { return itcw->tcw; } EXPORT_SYMBOL(itcw_get_tcw); /** * itcw_calc_size - return the size of an itcw with the given parameters * @intrg: if non-zero, add an interrogate tcw * @max_tidaws: maximum number of tidaws to be used for data addressing or zero * if no tida is to be used. * @intrg_max_tidaws: maximum number of tidaws to be used for data addressing * by the interrogate tcw, if specified * * Calculate and return the number of bytes required to hold an itcw with the * given parameters and assuming tccbs with maximum size. * * Note that the resulting size also contains bytes needed for alignment * padding as well as padding to ensure that data structures don't cross a * 4k-boundary where required. */ size_t itcw_calc_size(int intrg, int max_tidaws, int intrg_max_tidaws) { size_t len; int cross_count; /* Main data. */ len = sizeof(struct itcw); len += /* TCW */ sizeof(struct tcw) + /* TCCB */ TCCB_MAX_SIZE + /* TSB */ sizeof(struct tsb) + /* TIDAL */ max_tidaws * sizeof(struct tidaw); /* Interrogate data. */ if (intrg) { len += /* TCW */ sizeof(struct tcw) + /* TCCB */ TCCB_MAX_SIZE + /* TSB */ sizeof(struct tsb) + /* TIDAL */ intrg_max_tidaws * sizeof(struct tidaw); } /* Maximum required alignment padding. */ len += /* Initial TCW */ 63 + /* Interrogate TCCB */ 7; /* TIDAW lists may not cross a 4k boundary. To cross a * boundary we need to add a TTIC TIDAW. We need to reserve * one additional TIDAW for a TTIC that we may need to add due * to the placement of the data chunk in memory, and a further * TIDAW for each page boundary that the TIDAW list may cross * due to it's own size. */ if (max_tidaws) { cross_count = 1 + ((max_tidaws * sizeof(struct tidaw) - 1) >> PAGE_SHIFT); len += cross_count * sizeof(struct tidaw); } if (intrg_max_tidaws) { cross_count = 1 + ((intrg_max_tidaws * sizeof(struct tidaw) - 1) >> PAGE_SHIFT); len += cross_count * sizeof(struct tidaw); } return len; } EXPORT_SYMBOL(itcw_calc_size); #define CROSS4K(x, l) (((x) & ~4095) != ((x + l) & ~4095)) static inline void *fit_chunk(addr_t *start, addr_t end, size_t len, int align, int check_4k) { addr_t addr; addr = ALIGN(*start, align); if (check_4k && CROSS4K(addr, len)) { addr = ALIGN(addr, 4096); addr = ALIGN(addr, align); } if (addr + len > end) return ERR_PTR(-ENOSPC); *start = addr + len; return (void *) addr; } /** * itcw_init - initialize incremental tcw data structure * @buffer: address of buffer to use for data structures * @size: number of bytes in buffer * @op: %ITCW_OP_READ for a read operation tcw, %ITCW_OP_WRITE for a write * operation tcw * @intrg: if non-zero, add and initialize an interrogate tcw * @max_tidaws: maximum number of tidaws to be used for data addressing or zero * if no tida is to be used. * @intrg_max_tidaws: maximum number of tidaws to be used for data addressing * by the interrogate tcw, if specified * * Prepare the specified buffer to be used as an incremental tcw, i.e. a * helper data structure that can be used to construct a valid tcw by * successive calls to other helper functions. Note: the buffer needs to be * located below the 2G address limit. The resulting tcw has the following * restrictions: * - no tccb tidal * - input/output tidal is contiguous (no ttic) * - total data should not exceed 4k * - tcw specifies either read or write operation * * On success, return pointer to the resulting incremental tcw data structure, * ERR_PTR otherwise. */ struct itcw *itcw_init(void *buffer, size_t size, int op, int intrg, int max_tidaws, int intrg_max_tidaws) { struct itcw *itcw; void *chunk; addr_t start; addr_t end; int cross_count; /* Check for 2G limit. */ start = (addr_t) buffer; end = start + size; if ((virt_to_phys(buffer) + size) > (1 << 31)) return ERR_PTR(-EINVAL); memset(buffer, 0, size); /* ITCW. */ chunk = fit_chunk(&start, end, sizeof(struct itcw), 1, 0); if (IS_ERR(chunk)) return chunk; itcw = chunk; /* allow for TTIC tidaws that may be needed to cross a page boundary */ cross_count = 0; if (max_tidaws) cross_count = 1 + ((max_tidaws * sizeof(struct tidaw) - 1) >> PAGE_SHIFT); itcw->max_tidaws = max_tidaws + cross_count; cross_count = 0; if (intrg_max_tidaws) cross_count = 1 + ((intrg_max_tidaws * sizeof(struct tidaw) - 1) >> PAGE_SHIFT); itcw->intrg_max_tidaws = intrg_max_tidaws + cross_count; /* Main TCW. */ chunk = fit_chunk(&start, end, sizeof(struct tcw), 64, 0); if (IS_ERR(chunk)) return chunk; itcw->tcw = chunk; tcw_init(itcw->tcw, (op == ITCW_OP_READ) ? 1 : 0, (op == ITCW_OP_WRITE) ? 1 : 0); /* Interrogate TCW. */ if (intrg) { chunk = fit_chunk(&start, end, sizeof(struct tcw), 64, 0); if (IS_ERR(chunk)) return chunk; itcw->intrg_tcw = chunk; tcw_init(itcw->intrg_tcw, 1, 0); tcw_set_intrg(itcw->tcw, itcw->intrg_tcw); } /* Data TIDAL. */ if (max_tidaws > 0) { chunk = fit_chunk(&start, end, sizeof(struct tidaw) * itcw->max_tidaws, 16, 0); if (IS_ERR(chunk)) return chunk; tcw_set_data(itcw->tcw, chunk, 1); } /* Interrogate data TIDAL. */ if (intrg && (intrg_max_tidaws > 0)) { chunk = fit_chunk(&start, end, sizeof(struct tidaw) * itcw->intrg_max_tidaws, 16, 0); if (IS_ERR(chunk)) return chunk; tcw_set_data(itcw->intrg_tcw, chunk, 1); } /* TSB. */ chunk = fit_chunk(&start, end, sizeof(struct tsb), 8, 0); if (IS_ERR(chunk)) return chunk; tsb_init(chunk); tcw_set_tsb(itcw->tcw, chunk); /* Interrogate TSB. */ if (intrg) { chunk = fit_chunk(&start, end, sizeof(struct tsb), 8, 0); if (IS_ERR(chunk)) return chunk; tsb_init(chunk); tcw_set_tsb(itcw->intrg_tcw, chunk); } /* TCCB. */ chunk = fit_chunk(&start, end, TCCB_MAX_SIZE, 8, 0); if (IS_ERR(chunk)) return chunk; tccb_init(chunk, TCCB_MAX_SIZE, TCCB_SAC_DEFAULT); tcw_set_tccb(itcw->tcw, chunk); /* Interrogate TCCB. */ if (intrg) { chunk = fit_chunk(&start, end, TCCB_MAX_SIZE, 8, 0); if (IS_ERR(chunk)) return chunk; tccb_init(chunk, TCCB_MAX_SIZE, TCCB_SAC_INTRG); tcw_set_tccb(itcw->intrg_tcw, chunk); tccb_add_dcw(chunk, TCCB_MAX_SIZE, DCW_CMD_INTRG, 0, NULL, sizeof(struct dcw_intrg_data), 0); tcw_finalize(itcw->intrg_tcw, 0); } return itcw; } EXPORT_SYMBOL(itcw_init); /** * itcw_add_dcw - add a dcw to the itcw * @itcw: address of the itcw * @cmd: the dcw command * @flags: flags for the dcw * @cd: address of control data for this dcw or NULL if none is required * @cd_count: number of control data bytes for this dcw * @count: number of data bytes for this dcw * * Add a new dcw to the specified itcw by writing the dcw information specified * by @cmd, @flags, @cd, @cd_count and @count to the tca of the tccb. Return * a pointer to the newly added dcw on success or -%ENOSPC if the new dcw * would exceed the available space. * * Note: the tcal field of the tccb header will be updated to reflect added * content. */ struct dcw *itcw_add_dcw(struct itcw *itcw, u8 cmd, u8 flags, void *cd, u8 cd_count, u32 count) { return tccb_add_dcw(tcw_get_tccb(itcw->tcw), TCCB_MAX_SIZE, cmd, flags, cd, cd_count, count); } EXPORT_SYMBOL(itcw_add_dcw); /** * itcw_add_tidaw - add a tidaw to the itcw * @itcw: address of the itcw * @flags: flags for the new tidaw * @addr: address value for the new tidaw * @count: count value for the new tidaw * * Add a new tidaw to the input/output data tidaw-list of the specified itcw * (depending on the value of the r-flag and w-flag). Return a pointer to * the new tidaw on success or -%ENOSPC if the new tidaw would exceed the * available space. * * Note: TTIC tidaws are automatically added when needed, so explicitly calling * this interface with the TTIC flag is not supported. The last-tidaw flag * for the last tidaw in the list will be set by itcw_finalize. */ struct tidaw *itcw_add_tidaw(struct itcw *itcw, u8 flags, void *addr, u32 count) { struct tidaw *following; if (itcw->num_tidaws >= itcw->max_tidaws) return ERR_PTR(-ENOSPC); /* * Is the tidaw, which follows the one we are about to fill, on the next * page? Then we have to insert a TTIC tidaw first, that points to the * tidaw on the new page. */ following = ((struct tidaw *) tcw_get_data(itcw->tcw)) + itcw->num_tidaws + 1; if (itcw->num_tidaws && !((unsigned long) following & ~PAGE_MASK)) { tcw_add_tidaw(itcw->tcw, itcw->num_tidaws++, TIDAW_FLAGS_TTIC, following, 0); if (itcw->num_tidaws >= itcw->max_tidaws) return ERR_PTR(-ENOSPC); } return tcw_add_tidaw(itcw->tcw, itcw->num_tidaws++, flags, addr, count); } EXPORT_SYMBOL(itcw_add_tidaw); /** * itcw_set_data - set data address and tida flag of the itcw * @itcw: address of the itcw * @addr: the data address * @use_tidal: zero of the data address specifies a contiguous block of data, * non-zero if it specifies a list if tidaws. * * Set the input/output data address of the itcw (depending on the value of the * r-flag and w-flag). If @use_tidal is non-zero, the corresponding tida flag * is set as well. */ void itcw_set_data(struct itcw *itcw, void *addr, int use_tidal) { tcw_set_data(itcw->tcw, addr, use_tidal); } EXPORT_SYMBOL(itcw_set_data); /** * itcw_finalize - calculate length and count fields of the itcw * @itcw: address of the itcw * * Calculate tcw input-/output-count and tccbl fields and add a tcat the tccb. * In case input- or output-tida is used, the tidaw-list must be stored in * continuous storage (no ttic). The tcal field in the tccb must be * up-to-date. */ void itcw_finalize(struct itcw *itcw) { tcw_finalize(itcw->tcw, itcw->num_tidaws); } EXPORT_SYMBOL(itcw_finalize);