Author | Tokens | Token Proportion | Commits | Commit Proportion |
---|---|---|---|---|
Simon Que | 317 | 96.94% | 1 | 16.67% |
Todd Android Poynor | 8 | 2.45% | 3 | 50.00% |
Greg Kroah-Hartman | 2 | 0.61% | 2 | 33.33% |
Total | 327 | 6 |
/* SPDX-License-Identifier: GPL-2.0 */ /* * Gasket Page Table functionality. This file describes the address * translation/paging functionality supported by the Gasket driver framework. * As much as possible, internal details are hidden to simplify use - * all calls are thread-safe (protected by an internal mutex) except where * indicated otherwise. * * Copyright (C) 2018 Google, Inc. */ #ifndef __GASKET_PAGE_TABLE_H__ #define __GASKET_PAGE_TABLE_H__ #include <linux/pci.h> #include <linux/types.h> #include "gasket_constants.h" #include "gasket_core.h" /* * Structure used for managing address translation on a device. All details are * internal to the implementation. */ struct gasket_page_table; /* * Allocate and init address translation data. * @ppage_table: Pointer to Gasket page table pointer. Set by this call. * @att_base_reg: [Mapped] pointer to the first entry in the device's address * translation table. * @extended_offset_reg: [Mapped] pointer to the device's register containing * the starting index of the extended translation table. * @extended_bit_location: The index of the bit indicating whether an address * is extended. * @total_entries: The total number of entries in the device's address * translation table. * @device: Device structure for the underlying device. Only used for logging. * @pci_dev: PCI system descriptor for the underlying device. * whether the driver will supply its own. * * Description: Allocates and initializes data to track address translation - * simple and extended page table metadata. Initially, the page table is * partitioned such that all addresses are "simple" (single-level lookup). * gasket_partition_page_table can be called to change this paritioning. * * Returns 0 on success, a negative error code otherwise. */ int gasket_page_table_init(struct gasket_page_table **ppg_tbl, const struct gasket_bar_data *bar_data, const struct gasket_page_table_config *page_table_config, struct device *device, struct pci_dev *pci_dev); /* * Deallocate and cleanup page table data. * @page_table: Gasket page table pointer. * * Description: The inverse of gasket_init; frees page_table and its contained * elements. * * Because this call destroys the page table, it cannot be * thread-safe (mutex-protected)! */ void gasket_page_table_cleanup(struct gasket_page_table *page_table); /* * Sets the size of the simple page table. * @page_table: Gasket page table pointer. * @num_simple_entries: Desired size of the simple page table (in entries). * * Description: gasket_partition_page_table checks to see if the simple page * size can be changed (i.e., if there are no active extended * mappings in the new simple size range), and, if so, * sets the new simple and extended page table sizes. * * Returns 0 if successful, or non-zero if the page table entries * are not free. */ int gasket_page_table_partition(struct gasket_page_table *page_table, uint num_simple_entries); /* * Get and map [host] user space pages into device memory. * @page_table: Gasket page table pointer. * @host_addr: Starting host virtual memory address of the pages. * @dev_addr: Starting device address of the pages. * @num_pages: Number of [4kB] pages to map. * * Description: Maps the "num_pages" pages of host memory pointed to by * host_addr to the address "dev_addr" in device memory. * * The caller is responsible for checking the addresses ranges. * * Returns 0 if successful or a non-zero error number otherwise. * If there is an error, no pages are mapped. */ int gasket_page_table_map(struct gasket_page_table *page_table, ulong host_addr, ulong dev_addr, uint num_pages); /* * Un-map host pages from device memory. * @page_table: Gasket page table pointer. * @dev_addr: Starting device address of the pages to unmap. * @num_pages: The number of [4kB] pages to unmap. * * Description: The inverse of gasket_map_pages. Unmaps pages from the device. */ void gasket_page_table_unmap(struct gasket_page_table *page_table, ulong dev_addr, uint num_pages); /* * Unmap ALL host pages from device memory. * @page_table: Gasket page table pointer. */ void gasket_page_table_unmap_all(struct gasket_page_table *page_table); /* * Unmap all host pages from device memory and reset the table to fully simple * addressing. * @page_table: Gasket page table pointer. */ void gasket_page_table_reset(struct gasket_page_table *page_table); /* * Reclaims unused page table memory. * @page_table: Gasket page table pointer. * * Description: Examines the page table and frees any currently-unused * allocations. Called internally on gasket_cleanup(). */ void gasket_page_table_garbage_collect(struct gasket_page_table *page_table); /* * Retrieve the backing page for a device address. * @page_table: Gasket page table pointer. * @dev_addr: Gasket device address. * @ppage: Pointer to a page pointer for the returned page. * @poffset: Pointer to an unsigned long for the returned offset. * * Description: Interprets the address and looks up the corresponding page * in the page table and the offset in that page. (We need an * offset because the host page may be larger than the Gasket chip * page it contains.) * * Returns 0 if successful, -1 for an error. The page pointer * and offset are returned through the pointers, if successful. */ int gasket_page_table_lookup_page(struct gasket_page_table *page_table, ulong dev_addr, struct page **page, ulong *poffset); /* * Checks validity for input addrs and size. * @page_table: Gasket page table pointer. * @host_addr: Host address to check. * @dev_addr: Gasket device address. * @bytes: Size of the range to check (in bytes). * * Description: This call performs a number of checks to verify that the ranges * specified by both addresses and the size are valid for mapping pages into * device memory. * * Returns true if the mapping is bad, false otherwise. */ bool gasket_page_table_are_addrs_bad(struct gasket_page_table *page_table, ulong host_addr, ulong dev_addr, ulong bytes); /* * Checks validity for input dev addr and size. * @page_table: Gasket page table pointer. * @dev_addr: Gasket device address. * @bytes: Size of the range to check (in bytes). * * Description: This call performs a number of checks to verify that the range * specified by the device address and the size is valid for mapping pages into * device memory. * * Returns true if the address is bad, false otherwise. */ bool gasket_page_table_is_dev_addr_bad(struct gasket_page_table *page_table, ulong dev_addr, ulong bytes); /* * Gets maximum size for the given page table. * @page_table: Gasket page table pointer. */ uint gasket_page_table_max_size(struct gasket_page_table *page_table); /* * Gets the total number of entries in the arg. * @page_table: Gasket page table pointer. */ uint gasket_page_table_num_entries(struct gasket_page_table *page_table); /* * Gets the number of simple entries. * @page_table: Gasket page table pointer. */ uint gasket_page_table_num_simple_entries(struct gasket_page_table *page_table); /* * Gets the number of actively pinned pages. * @page_table: Gasket page table pointer. */ uint gasket_page_table_num_active_pages(struct gasket_page_table *page_table); /* * Get status of page table managed by @page_table. * @page_table: Gasket page table pointer. */ int gasket_page_table_system_status(struct gasket_page_table *page_table); /* * Allocate a block of coherent memory. * @gasket_dev: Gasket Device. * @size: Size of the memory block. * @dma_address: Dma address allocated by the kernel. * @index: Index of the gasket_page_table within this Gasket device * * Description: Allocate a contiguous coherent memory block, DMA'ble * by this device. */ int gasket_alloc_coherent_memory(struct gasket_dev *gasket_dev, uint64_t size, dma_addr_t *dma_address, uint64_t index); /* Release a block of contiguous coherent memory, in use by a device. */ int gasket_free_coherent_memory(struct gasket_dev *gasket_dev, uint64_t size, dma_addr_t dma_address, uint64_t index); /* Release all coherent memory. */ void gasket_free_coherent_memory_all(struct gasket_dev *gasket_dev, uint64_t index); /* * Records the host_addr to coherent dma memory mapping. * @gasket_dev: Gasket Device. * @size: Size of the virtual address range to map. * @dma_address: Dma address within the coherent memory range. * @vma: Virtual address we wish to map to coherent memory. * * Description: For each page in the virtual address range, record the * coherent page mapping. * * Does not perform validity checking. */ int gasket_set_user_virt(struct gasket_dev *gasket_dev, uint64_t size, dma_addr_t dma_address, ulong vma); #endif /* __GASKET_PAGE_TABLE_H__ */
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