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1822 1823 1824 1825 1826 1827 1828 1829 1830 1831 1832 1833 1834 1835 1836 1837 1838 1839 1840 1841 1842 1843 1844 1845 1846 1847 1848 1849 1850 1851 1852 1853 1854 1855 1856 1857 1858 1859 1860 1861 1862 1863 1864 1865 1866 1867 1868 1869 1870 1871 1872 1873 1874 1875 1876 1877 1878 1879 1880 1881 1882 1883 1884 1885 1886 1887 1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898 1899 1900 1901 1902 1903 1904 1905 1906 1907 1908 1909 1910 1911 1912 1913 1914 1915 1916 1917 1918 1919 1920 1921 1922 1923 1924 1925 1926 1927 1928 1929 1930 1931 1932 1933 1934 1935 1936 1937 1938 1939 1940 1941 1942 1943 1944 1945 1946 1947 | /* * Copyright 2008 - 2015 Freescale Semiconductor Inc. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * Neither the name of Freescale Semiconductor nor the * names of its contributors may be used to endorse or promote products * derived from this software without specific prior written permission. * * * ALTERNATIVELY, this software may be distributed under the terms of the * GNU General Public License ("GPL") as published by the Free Software * Foundation, either version 2 of that License or (at your option) any * later version. * * THIS SOFTWARE IS PROVIDED BY Freescale Semiconductor ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED * WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL Freescale Semiconductor BE LIABLE FOR ANY * DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES * (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; * LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND * ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS * SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #define pr_fmt(fmt) KBUILD_MODNAME ": " fmt #include <linux/io.h> #include <linux/slab.h> #include <linux/module.h> #include <linux/interrupt.h> #include <linux/of_platform.h> #include <linux/of_address.h> #include <linux/delay.h> #include <linux/libfdt_env.h> #include "fman.h" #include "fman_port.h" #include "fman_sp.h" #include "fman_keygen.h" /* Queue ID */ #define DFLT_FQ_ID 0x00FFFFFF /* General defines */ #define PORT_BMI_FIFO_UNITS 0x100 #define MAX_PORT_FIFO_SIZE(bmi_max_fifo_size) \ min((u32)bmi_max_fifo_size, (u32)1024 * FMAN_BMI_FIFO_UNITS) #define PORT_CG_MAP_NUM 8 #define PORT_PRS_RESULT_WORDS_NUM 8 #define PORT_IC_OFFSET_UNITS 0x10 #define MIN_EXT_BUF_SIZE 64 #define BMI_PORT_REGS_OFFSET 0 #define QMI_PORT_REGS_OFFSET 0x400 #define HWP_PORT_REGS_OFFSET 0x800 /* Default values */ #define DFLT_PORT_BUFFER_PREFIX_CONTEXT_DATA_ALIGN \ DFLT_FM_SP_BUFFER_PREFIX_CONTEXT_DATA_ALIGN #define DFLT_PORT_CUT_BYTES_FROM_END 4 #define DFLT_PORT_ERRORS_TO_DISCARD FM_PORT_FRM_ERR_CLS_DISCARD #define DFLT_PORT_MAX_FRAME_LENGTH 9600 #define DFLT_PORT_RX_FIFO_PRI_ELEVATION_LEV(bmi_max_fifo_size) \ MAX_PORT_FIFO_SIZE(bmi_max_fifo_size) #define DFLT_PORT_RX_FIFO_THRESHOLD(major, bmi_max_fifo_size) \ (major == 6 ? \ MAX_PORT_FIFO_SIZE(bmi_max_fifo_size) : \ (MAX_PORT_FIFO_SIZE(bmi_max_fifo_size) * 3 / 4)) \ #define DFLT_PORT_EXTRA_NUM_OF_FIFO_BUFS 0 /* QMI defines */ #define QMI_DEQ_CFG_SUBPORTAL_MASK 0x1f #define QMI_PORT_CFG_EN 0x80000000 #define QMI_PORT_STATUS_DEQ_FD_BSY 0x20000000 #define QMI_DEQ_CFG_PRI 0x80000000 #define QMI_DEQ_CFG_TYPE1 0x10000000 #define QMI_DEQ_CFG_TYPE2 0x20000000 #define QMI_DEQ_CFG_TYPE3 0x30000000 #define QMI_DEQ_CFG_PREFETCH_PARTIAL 0x01000000 #define QMI_DEQ_CFG_PREFETCH_FULL 0x03000000 #define QMI_DEQ_CFG_SP_MASK 0xf #define QMI_DEQ_CFG_SP_SHIFT 20 #define QMI_BYTE_COUNT_LEVEL_CONTROL(_type) \ (_type == FMAN_PORT_TYPE_TX ? 0x1400 : 0x400) /* BMI defins */ #define BMI_EBD_EN 0x80000000 #define BMI_PORT_CFG_EN 0x80000000 #define BMI_PORT_STATUS_BSY 0x80000000 #define BMI_DMA_ATTR_SWP_SHIFT FMAN_SP_DMA_ATTR_SWP_SHIFT #define BMI_DMA_ATTR_WRITE_OPTIMIZE FMAN_SP_DMA_ATTR_WRITE_OPTIMIZE #define BMI_RX_FIFO_PRI_ELEVATION_SHIFT 16 #define BMI_RX_FIFO_THRESHOLD_ETHE 0x80000000 #define BMI_FRAME_END_CS_IGNORE_SHIFT 24 #define BMI_FRAME_END_CS_IGNORE_MASK 0x0000001f #define BMI_RX_FRAME_END_CUT_SHIFT 16 #define BMI_RX_FRAME_END_CUT_MASK 0x0000001f #define BMI_IC_TO_EXT_SHIFT FMAN_SP_IC_TO_EXT_SHIFT #define BMI_IC_TO_EXT_MASK 0x0000001f #define BMI_IC_FROM_INT_SHIFT FMAN_SP_IC_FROM_INT_SHIFT #define BMI_IC_FROM_INT_MASK 0x0000000f #define BMI_IC_SIZE_MASK 0x0000001f #define BMI_INT_BUF_MARG_SHIFT 28 #define BMI_INT_BUF_MARG_MASK 0x0000000f #define BMI_EXT_BUF_MARG_START_SHIFT FMAN_SP_EXT_BUF_MARG_START_SHIFT #define BMI_EXT_BUF_MARG_START_MASK 0x000001ff #define BMI_EXT_BUF_MARG_END_MASK 0x000001ff #define BMI_CMD_MR_LEAC 0x00200000 #define BMI_CMD_MR_SLEAC 0x00100000 #define BMI_CMD_MR_MA 0x00080000 #define BMI_CMD_MR_DEAS 0x00040000 #define BMI_CMD_RX_MR_DEF (BMI_CMD_MR_LEAC | \ BMI_CMD_MR_SLEAC | \ BMI_CMD_MR_MA | \ BMI_CMD_MR_DEAS) #define BMI_CMD_TX_MR_DEF 0 #define BMI_CMD_ATTR_ORDER 0x80000000 #define BMI_CMD_ATTR_SYNC 0x02000000 #define BMI_CMD_ATTR_COLOR_SHIFT 26 #define BMI_FIFO_PIPELINE_DEPTH_SHIFT 12 #define BMI_FIFO_PIPELINE_DEPTH_MASK 0x0000000f #define BMI_NEXT_ENG_FD_BITS_SHIFT 24 #define BMI_EXT_BUF_POOL_VALID FMAN_SP_EXT_BUF_POOL_VALID #define BMI_EXT_BUF_POOL_EN_COUNTER FMAN_SP_EXT_BUF_POOL_EN_COUNTER #define BMI_EXT_BUF_POOL_BACKUP FMAN_SP_EXT_BUF_POOL_BACKUP #define BMI_EXT_BUF_POOL_ID_SHIFT 16 #define BMI_EXT_BUF_POOL_ID_MASK 0x003F0000 #define BMI_POOL_DEP_NUM_OF_POOLS_SHIFT 16 #define BMI_TX_FIFO_MIN_FILL_SHIFT 16 #define BMI_PRIORITY_ELEVATION_LEVEL ((0x3FF + 1) * PORT_BMI_FIFO_UNITS) #define BMI_FIFO_THRESHOLD ((0x3FF + 1) * PORT_BMI_FIFO_UNITS) #define BMI_DEQUEUE_PIPELINE_DEPTH(_type, _speed) \ ((_type == FMAN_PORT_TYPE_TX && _speed == 10000) ? 4 : 1) #define RX_ERRS_TO_ENQ \ (FM_PORT_FRM_ERR_DMA | \ FM_PORT_FRM_ERR_PHYSICAL | \ FM_PORT_FRM_ERR_SIZE | \ FM_PORT_FRM_ERR_EXTRACTION | \ FM_PORT_FRM_ERR_NO_SCHEME | \ FM_PORT_FRM_ERR_PRS_TIMEOUT | \ FM_PORT_FRM_ERR_PRS_ILL_INSTRUCT | \ FM_PORT_FRM_ERR_BLOCK_LIMIT_EXCEEDED | \ FM_PORT_FRM_ERR_PRS_HDR_ERR | \ FM_PORT_FRM_ERR_KEYSIZE_OVERFLOW | \ FM_PORT_FRM_ERR_IPRE) /* NIA defines */ #define NIA_ORDER_RESTOR 0x00800000 #define NIA_ENG_BMI 0x00500000 #define NIA_ENG_QMI_ENQ 0x00540000 #define NIA_ENG_QMI_DEQ 0x00580000 #define NIA_ENG_HWP 0x00440000 #define NIA_ENG_HWK 0x00480000 #define NIA_BMI_AC_ENQ_FRAME 0x00000002 #define NIA_BMI_AC_TX_RELEASE 0x000002C0 #define NIA_BMI_AC_RELEASE 0x000000C0 #define NIA_BMI_AC_TX 0x00000274 #define NIA_BMI_AC_FETCH_ALL_FRAME 0x0000020c /* Port IDs */ #define TX_10G_PORT_BASE 0x30 #define RX_10G_PORT_BASE 0x10 /* BMI Rx port register map */ struct fman_port_rx_bmi_regs { u32 fmbm_rcfg; /* Rx Configuration */ u32 fmbm_rst; /* Rx Status */ u32 fmbm_rda; /* Rx DMA attributes */ u32 fmbm_rfp; /* Rx FIFO Parameters */ u32 fmbm_rfed; /* Rx Frame End Data */ u32 fmbm_ricp; /* Rx Internal Context Parameters */ u32 fmbm_rim; /* Rx Internal Buffer Margins */ u32 fmbm_rebm; /* Rx External Buffer Margins */ u32 fmbm_rfne; /* Rx Frame Next Engine */ u32 fmbm_rfca; /* Rx Frame Command Attributes. */ u32 fmbm_rfpne; /* Rx Frame Parser Next Engine */ u32 fmbm_rpso; /* Rx Parse Start Offset */ u32 fmbm_rpp; /* Rx Policer Profile */ u32 fmbm_rccb; /* Rx Coarse Classification Base */ u32 fmbm_reth; /* Rx Excessive Threshold */ u32 reserved003c[1]; /* (0x03C 0x03F) */ u32 fmbm_rprai[PORT_PRS_RESULT_WORDS_NUM]; /* Rx Parse Results Array Init */ u32 fmbm_rfqid; /* Rx Frame Queue ID */ u32 fmbm_refqid; /* Rx Error Frame Queue ID */ u32 fmbm_rfsdm; /* Rx Frame Status Discard Mask */ u32 fmbm_rfsem; /* Rx Frame Status Error Mask */ u32 fmbm_rfene; /* Rx Frame Enqueue Next Engine */ u32 reserved0074[0x2]; /* (0x074-0x07C) */ u32 fmbm_rcmne; /* Rx Frame Continuous Mode Next Engine */ u32 reserved0080[0x20]; /* (0x080 0x0FF) */ u32 fmbm_ebmpi[FMAN_PORT_MAX_EXT_POOLS_NUM]; /* Buffer Manager pool Information- */ u32 fmbm_acnt[FMAN_PORT_MAX_EXT_POOLS_NUM]; /* Allocate Counter- */ u32 reserved0130[8]; /* 0x130/0x140 - 0x15F reserved - */ u32 fmbm_rcgm[PORT_CG_MAP_NUM]; /* Congestion Group Map */ u32 fmbm_mpd; /* BM Pool Depletion */ u32 reserved0184[0x1F]; /* (0x184 0x1FF) */ u32 fmbm_rstc; /* Rx Statistics Counters */ u32 fmbm_rfrc; /* Rx Frame Counter */ u32 fmbm_rfbc; /* Rx Bad Frames Counter */ u32 fmbm_rlfc; /* Rx Large Frames Counter */ u32 fmbm_rffc; /* Rx Filter Frames Counter */ u32 fmbm_rfdc; /* Rx Frame Discard Counter */ u32 fmbm_rfldec; /* Rx Frames List DMA Error Counter */ u32 fmbm_rodc; /* Rx Out of Buffers Discard nntr */ u32 fmbm_rbdc; /* Rx Buffers Deallocate Counter */ u32 fmbm_rpec; /* RX Prepare to enqueue Counte */ u32 reserved0224[0x16]; /* (0x224 0x27F) */ u32 fmbm_rpc; /* Rx Performance Counters */ u32 fmbm_rpcp; /* Rx Performance Count Parameters */ u32 fmbm_rccn; /* Rx Cycle Counter */ u32 fmbm_rtuc; /* Rx Tasks Utilization Counter */ u32 fmbm_rrquc; /* Rx Receive Queue Utilization cntr */ u32 fmbm_rduc; /* Rx DMA Utilization Counter */ u32 fmbm_rfuc; /* Rx FIFO Utilization Counter */ u32 fmbm_rpac; /* Rx Pause Activation Counter */ u32 reserved02a0[0x18]; /* (0x2A0 0x2FF) */ u32 fmbm_rdcfg[0x3]; /* Rx Debug Configuration */ u32 fmbm_rgpr; /* Rx General Purpose Register */ u32 reserved0310[0x3a]; }; /* BMI Tx port register map */ struct fman_port_tx_bmi_regs { u32 fmbm_tcfg; /* Tx Configuration */ u32 fmbm_tst; /* Tx Status */ u32 fmbm_tda; /* Tx DMA attributes */ u32 fmbm_tfp; /* Tx FIFO Parameters */ u32 fmbm_tfed; /* Tx Frame End Data */ u32 fmbm_ticp; /* Tx Internal Context Parameters */ u32 fmbm_tfdne; /* Tx Frame Dequeue Next Engine. */ u32 fmbm_tfca; /* Tx Frame Command attribute. */ u32 fmbm_tcfqid; /* Tx Confirmation Frame Queue ID. */ u32 fmbm_tefqid; /* Tx Frame Error Queue ID */ u32 fmbm_tfene; /* Tx Frame Enqueue Next Engine */ u32 fmbm_trlmts; /* Tx Rate Limiter Scale */ u32 fmbm_trlmt; /* Tx Rate Limiter */ u32 reserved0034[0x0e]; /* (0x034-0x6c) */ u32 fmbm_tccb; /* Tx Coarse Classification base */ u32 fmbm_tfne; /* Tx Frame Next Engine */ u32 fmbm_tpfcm[0x02]; /* Tx Priority based Flow Control (PFC) Mapping */ u32 fmbm_tcmne; /* Tx Frame Continuous Mode Next Engine */ u32 reserved0080[0x60]; /* (0x080-0x200) */ u32 fmbm_tstc; /* Tx Statistics Counters */ u32 fmbm_tfrc; /* Tx Frame Counter */ u32 fmbm_tfdc; /* Tx Frames Discard Counter */ u32 fmbm_tfledc; /* Tx Frame len error discard cntr */ u32 fmbm_tfufdc; /* Tx Frame unsprt frmt discard cntr */ u32 fmbm_tbdc; /* Tx Buffers Deallocate Counter */ u32 reserved0218[0x1A]; /* (0x218-0x280) */ u32 fmbm_tpc; /* Tx Performance Counters */ u32 fmbm_tpcp; /* Tx Performance Count Parameters */ u32 fmbm_tccn; /* Tx Cycle Counter */ u32 fmbm_ttuc; /* Tx Tasks Utilization Counter */ u32 fmbm_ttcquc; /* Tx Transmit conf Q util Counter */ u32 fmbm_tduc; /* Tx DMA Utilization Counter */ u32 fmbm_tfuc; /* Tx FIFO Utilization Counter */ u32 reserved029c[16]; /* (0x29C-0x2FF) */ u32 fmbm_tdcfg[0x3]; /* Tx Debug Configuration */ u32 fmbm_tgpr; /* Tx General Purpose Register */ u32 reserved0310[0x3a]; /* (0x310-0x3FF) */ }; /* BMI port register map */ union fman_port_bmi_regs { struct fman_port_rx_bmi_regs rx; struct fman_port_tx_bmi_regs tx; }; /* QMI port register map */ struct fman_port_qmi_regs { u32 fmqm_pnc; /* PortID n Configuration Register */ u32 fmqm_pns; /* PortID n Status Register */ u32 fmqm_pnts; /* PortID n Task Status Register */ u32 reserved00c[4]; /* 0xn00C - 0xn01B */ u32 fmqm_pnen; /* PortID n Enqueue NIA Register */ u32 fmqm_pnetfc; /* PortID n Enq Total Frame Counter */ u32 reserved024[2]; /* 0xn024 - 0x02B */ u32 fmqm_pndn; /* PortID n Dequeue NIA Register */ u32 fmqm_pndc; /* PortID n Dequeue Config Register */ u32 fmqm_pndtfc; /* PortID n Dequeue tot Frame cntr */ u32 fmqm_pndfdc; /* PortID n Dequeue FQID Dflt Cntr */ u32 fmqm_pndcc; /* PortID n Dequeue Confirm Counter */ }; #define HWP_HXS_COUNT 16 #define HWP_HXS_PHE_REPORT 0x00000800 #define HWP_HXS_PCAC_PSTAT 0x00000100 #define HWP_HXS_PCAC_PSTOP 0x00000001 #define HWP_HXS_TCP_OFFSET 0xA #define HWP_HXS_UDP_OFFSET 0xB #define HWP_HXS_SH_PAD_REM 0x80000000 struct fman_port_hwp_regs { struct { u32 ssa; /* Soft Sequence Attachment */ u32 lcv; /* Line-up Enable Confirmation Mask */ } pmda[HWP_HXS_COUNT]; /* Parse Memory Direct Access Registers */ u32 reserved080[(0x3f8 - 0x080) / 4]; /* (0x080-0x3f7) */ u32 fmpr_pcac; /* Configuration Access Control */ }; /* QMI dequeue prefetch modes */ enum fman_port_deq_prefetch { FMAN_PORT_DEQ_NO_PREFETCH, /* No prefetch mode */ FMAN_PORT_DEQ_PART_PREFETCH, /* Partial prefetch mode */ FMAN_PORT_DEQ_FULL_PREFETCH /* Full prefetch mode */ }; /* A structure for defining FM port resources */ struct fman_port_rsrc { u32 num; /* Committed required resource */ u32 extra; /* Extra (not committed) required resource */ }; enum fman_port_dma_swap { FMAN_PORT_DMA_NO_SWAP, /* No swap, transfer data as is */ FMAN_PORT_DMA_SWAP_LE, /* The transferred data should be swapped in PPC Little Endian mode */ FMAN_PORT_DMA_SWAP_BE /* The transferred data should be swapped in Big Endian mode */ }; /* Default port color */ enum fman_port_color { FMAN_PORT_COLOR_GREEN, /* Default port color is green */ FMAN_PORT_COLOR_YELLOW, /* Default port color is yellow */ FMAN_PORT_COLOR_RED, /* Default port color is red */ FMAN_PORT_COLOR_OVERRIDE /* Ignore color */ }; /* QMI dequeue from the SP channel - types */ enum fman_port_deq_type { FMAN_PORT_DEQ_BY_PRI, /* Priority precedence and Intra-Class scheduling */ FMAN_PORT_DEQ_ACTIVE_FQ, /* Active FQ precedence and Intra-Class scheduling */ FMAN_PORT_DEQ_ACTIVE_FQ_NO_ICS /* Active FQ precedence and override Intra-Class scheduling */ }; /* External buffer pools configuration */ struct fman_port_bpools { u8 count; /* Num of pools to set up */ bool counters_enable; /* Enable allocate counters */ u8 grp_bp_depleted_num; /* Number of depleted pools - if reached the BMI indicates * the MAC to send a pause frame */ struct { u8 bpid; /* BM pool ID */ u16 size; /* Pool's size - must be in ascending order */ bool is_backup; /* If this is a backup pool */ bool grp_bp_depleted; /* Consider this buffer in multiple pools depletion criteria */ bool single_bp_depleted; /* Consider this buffer in single pool depletion criteria */ } bpool[FMAN_PORT_MAX_EXT_POOLS_NUM]; }; struct fman_port_cfg { u32 dflt_fqid; u32 err_fqid; u32 pcd_base_fqid; u32 pcd_fqs_count; u8 deq_sp; bool deq_high_priority; enum fman_port_deq_type deq_type; enum fman_port_deq_prefetch deq_prefetch_option; u16 deq_byte_cnt; u8 cheksum_last_bytes_ignore; u8 rx_cut_end_bytes; struct fman_buf_pool_depletion buf_pool_depletion; struct fman_ext_pools ext_buf_pools; u32 tx_fifo_min_level; u32 tx_fifo_low_comf_level; u32 rx_pri_elevation; u32 rx_fifo_thr; struct fman_sp_buf_margins buf_margins; u32 int_buf_start_margin; struct fman_sp_int_context_data_copy int_context; u32 discard_mask; u32 err_mask; struct fman_buffer_prefix_content buffer_prefix_content; bool dont_release_buf; u8 rx_fd_bits; u32 tx_fifo_deq_pipeline_depth; bool errata_A006320; bool excessive_threshold_register; bool fmbm_tfne_has_features; enum fman_port_dma_swap dma_swap_data; enum fman_port_color color; }; struct fman_port_rx_pools_params { u8 num_of_pools; u16 largest_buf_size; }; struct fman_port_dts_params { void __iomem *base_addr; /* FMan port virtual memory */ enum fman_port_type type; /* Port type */ u16 speed; /* Port speed */ u8 id; /* HW Port Id */ u32 qman_channel_id; /* QMan channel id (non RX only) */ struct fman *fman; /* FMan Handle */ }; struct fman_port { void *fm; struct device *dev; struct fman_rev_info rev_info; u8 port_id; enum fman_port_type port_type; u16 port_speed; union fman_port_bmi_regs __iomem *bmi_regs; struct fman_port_qmi_regs __iomem *qmi_regs; struct fman_port_hwp_regs __iomem *hwp_regs; struct fman_sp_buffer_offsets buffer_offsets; u8 internal_buf_offset; struct fman_ext_pools ext_buf_pools; u16 max_frame_length; struct fman_port_rsrc open_dmas; struct fman_port_rsrc tasks; struct fman_port_rsrc fifo_bufs; struct fman_port_rx_pools_params rx_pools_params; struct fman_port_cfg *cfg; struct fman_port_dts_params dts_params; u8 ext_pools_num; u32 max_port_fifo_size; u32 max_num_of_ext_pools; u32 max_num_of_sub_portals; u32 bm_max_num_of_pools; }; static int init_bmi_rx(struct fman_port *port) { struct fman_port_rx_bmi_regs __iomem *regs = &port->bmi_regs->rx; struct fman_port_cfg *cfg = port->cfg; u32 tmp; /* DMA attributes */ tmp = (u32)cfg->dma_swap_data << BMI_DMA_ATTR_SWP_SHIFT; /* Enable write optimization */ tmp |= BMI_DMA_ATTR_WRITE_OPTIMIZE; iowrite32be(tmp, ®s->fmbm_rda); /* Rx FIFO parameters */ tmp = (cfg->rx_pri_elevation / PORT_BMI_FIFO_UNITS - 1) << BMI_RX_FIFO_PRI_ELEVATION_SHIFT; tmp |= cfg->rx_fifo_thr / PORT_BMI_FIFO_UNITS - 1; iowrite32be(tmp, ®s->fmbm_rfp); if (cfg->excessive_threshold_register) /* always allow access to the extra resources */ iowrite32be(BMI_RX_FIFO_THRESHOLD_ETHE, ®s->fmbm_reth); /* Frame end data */ tmp = (cfg->cheksum_last_bytes_ignore & BMI_FRAME_END_CS_IGNORE_MASK) << BMI_FRAME_END_CS_IGNORE_SHIFT; tmp |= (cfg->rx_cut_end_bytes & BMI_RX_FRAME_END_CUT_MASK) << BMI_RX_FRAME_END_CUT_SHIFT; if (cfg->errata_A006320) tmp &= 0xffe0ffff; iowrite32be(tmp, ®s->fmbm_rfed); /* Internal context parameters */ tmp = ((cfg->int_context.ext_buf_offset / PORT_IC_OFFSET_UNITS) & BMI_IC_TO_EXT_MASK) << BMI_IC_TO_EXT_SHIFT; tmp |= ((cfg->int_context.int_context_offset / PORT_IC_OFFSET_UNITS) & BMI_IC_FROM_INT_MASK) << BMI_IC_FROM_INT_SHIFT; tmp |= (cfg->int_context.size / PORT_IC_OFFSET_UNITS) & BMI_IC_SIZE_MASK; iowrite32be(tmp, ®s->fmbm_ricp); /* Internal buffer offset */ tmp = ((cfg->int_buf_start_margin / PORT_IC_OFFSET_UNITS) & BMI_INT_BUF_MARG_MASK) << BMI_INT_BUF_MARG_SHIFT; iowrite32be(tmp, ®s->fmbm_rim); /* External buffer margins */ tmp = (cfg->buf_margins.start_margins & BMI_EXT_BUF_MARG_START_MASK) << BMI_EXT_BUF_MARG_START_SHIFT; tmp |= cfg->buf_margins.end_margins & BMI_EXT_BUF_MARG_END_MASK; iowrite32be(tmp, ®s->fmbm_rebm); /* Frame attributes */ tmp = BMI_CMD_RX_MR_DEF; tmp |= BMI_CMD_ATTR_ORDER; tmp |= (u32)cfg->color << BMI_CMD_ATTR_COLOR_SHIFT; /* Synchronization request */ tmp |= BMI_CMD_ATTR_SYNC; iowrite32be(tmp, ®s->fmbm_rfca); /* NIA */ tmp = (u32)cfg->rx_fd_bits << BMI_NEXT_ENG_FD_BITS_SHIFT; tmp |= NIA_ENG_HWP; iowrite32be(tmp, ®s->fmbm_rfne); /* Parser Next Engine NIA */ iowrite32be(NIA_ENG_BMI | NIA_BMI_AC_ENQ_FRAME, ®s->fmbm_rfpne); /* Enqueue NIA */ iowrite32be(NIA_ENG_QMI_ENQ | NIA_ORDER_RESTOR, ®s->fmbm_rfene); /* Default/error queues */ iowrite32be((cfg->dflt_fqid & DFLT_FQ_ID), ®s->fmbm_rfqid); iowrite32be((cfg->err_fqid & DFLT_FQ_ID), ®s->fmbm_refqid); /* Discard/error masks */ iowrite32be(cfg->discard_mask, ®s->fmbm_rfsdm); iowrite32be(cfg->err_mask, ®s->fmbm_rfsem); return 0; } static int init_bmi_tx(struct fman_port *port) { struct fman_port_tx_bmi_regs __iomem *regs = &port->bmi_regs->tx; struct fman_port_cfg *cfg = port->cfg; u32 tmp; /* Tx Configuration register */ tmp = 0; iowrite32be(tmp, ®s->fmbm_tcfg); /* DMA attributes */ tmp = (u32)cfg->dma_swap_data << BMI_DMA_ATTR_SWP_SHIFT; iowrite32be(tmp, ®s->fmbm_tda); /* Tx FIFO parameters */ tmp = (cfg->tx_fifo_min_level / PORT_BMI_FIFO_UNITS) << BMI_TX_FIFO_MIN_FILL_SHIFT; tmp |= ((cfg->tx_fifo_deq_pipeline_depth - 1) & BMI_FIFO_PIPELINE_DEPTH_MASK) << BMI_FIFO_PIPELINE_DEPTH_SHIFT; tmp |= (cfg->tx_fifo_low_comf_level / PORT_BMI_FIFO_UNITS) - 1; iowrite32be(tmp, ®s->fmbm_tfp); /* Frame end data */ tmp = (cfg->cheksum_last_bytes_ignore & BMI_FRAME_END_CS_IGNORE_MASK) << BMI_FRAME_END_CS_IGNORE_SHIFT; iowrite32be(tmp, ®s->fmbm_tfed); /* Internal context parameters */ tmp = ((cfg->int_context.ext_buf_offset / PORT_IC_OFFSET_UNITS) & BMI_IC_TO_EXT_MASK) << BMI_IC_TO_EXT_SHIFT; tmp |= ((cfg->int_context.int_context_offset / PORT_IC_OFFSET_UNITS) & BMI_IC_FROM_INT_MASK) << BMI_IC_FROM_INT_SHIFT; tmp |= (cfg->int_context.size / PORT_IC_OFFSET_UNITS) & BMI_IC_SIZE_MASK; iowrite32be(tmp, ®s->fmbm_ticp); /* Frame attributes */ tmp = BMI_CMD_TX_MR_DEF; tmp |= BMI_CMD_ATTR_ORDER; tmp |= (u32)cfg->color << BMI_CMD_ATTR_COLOR_SHIFT; iowrite32be(tmp, ®s->fmbm_tfca); /* Dequeue NIA + enqueue NIA */ iowrite32be(NIA_ENG_QMI_DEQ, ®s->fmbm_tfdne); iowrite32be(NIA_ENG_QMI_ENQ | NIA_ORDER_RESTOR, ®s->fmbm_tfene); if (cfg->fmbm_tfne_has_features) iowrite32be(!cfg->dflt_fqid ? BMI_EBD_EN | NIA_BMI_AC_FETCH_ALL_FRAME : NIA_BMI_AC_FETCH_ALL_FRAME, ®s->fmbm_tfne); if (!cfg->dflt_fqid && cfg->dont_release_buf) { iowrite32be(DFLT_FQ_ID, ®s->fmbm_tcfqid); iowrite32be(NIA_ENG_BMI | NIA_BMI_AC_TX_RELEASE, ®s->fmbm_tfene); if (cfg->fmbm_tfne_has_features) iowrite32be(ioread32be(®s->fmbm_tfne) & ~BMI_EBD_EN, ®s->fmbm_tfne); } /* Confirmation/error queues */ if (cfg->dflt_fqid || !cfg->dont_release_buf) iowrite32be(cfg->dflt_fqid & DFLT_FQ_ID, ®s->fmbm_tcfqid); iowrite32be((cfg->err_fqid & DFLT_FQ_ID), ®s->fmbm_tefqid); return 0; } static int init_qmi(struct fman_port *port) { struct fman_port_qmi_regs __iomem *regs = port->qmi_regs; struct fman_port_cfg *cfg = port->cfg; u32 tmp; /* Rx port configuration */ if (port->port_type == FMAN_PORT_TYPE_RX) { /* Enqueue NIA */ iowrite32be(NIA_ENG_BMI | NIA_BMI_AC_RELEASE, ®s->fmqm_pnen); return 0; } /* Continue with Tx port configuration */ if (port->port_type == FMAN_PORT_TYPE_TX) { /* Enqueue NIA */ iowrite32be(NIA_ENG_BMI | NIA_BMI_AC_TX_RELEASE, ®s->fmqm_pnen); /* Dequeue NIA */ iowrite32be(NIA_ENG_BMI | NIA_BMI_AC_TX, ®s->fmqm_pndn); } /* Dequeue Configuration register */ tmp = 0; if (cfg->deq_high_priority) tmp |= QMI_DEQ_CFG_PRI; switch (cfg->deq_type) { case FMAN_PORT_DEQ_BY_PRI: tmp |= QMI_DEQ_CFG_TYPE1; break; case FMAN_PORT_DEQ_ACTIVE_FQ: tmp |= QMI_DEQ_CFG_TYPE2; break; case FMAN_PORT_DEQ_ACTIVE_FQ_NO_ICS: tmp |= QMI_DEQ_CFG_TYPE3; break; default: return -EINVAL; } switch (cfg->deq_prefetch_option) { case FMAN_PORT_DEQ_NO_PREFETCH: break; case FMAN_PORT_DEQ_PART_PREFETCH: tmp |= QMI_DEQ_CFG_PREFETCH_PARTIAL; break; case FMAN_PORT_DEQ_FULL_PREFETCH: tmp |= QMI_DEQ_CFG_PREFETCH_FULL; break; default: return -EINVAL; } tmp |= (cfg->deq_sp & QMI_DEQ_CFG_SP_MASK) << QMI_DEQ_CFG_SP_SHIFT; tmp |= cfg->deq_byte_cnt; iowrite32be(tmp, ®s->fmqm_pndc); return 0; } static void stop_port_hwp(struct fman_port *port) { struct fman_port_hwp_regs __iomem *regs = port->hwp_regs; int cnt = 100; iowrite32be(HWP_HXS_PCAC_PSTOP, ®s->fmpr_pcac); while (cnt-- > 0 && (ioread32be(®s->fmpr_pcac) & HWP_HXS_PCAC_PSTAT)) udelay(10); if (!cnt) pr_err("Timeout stopping HW Parser\n"); } static void start_port_hwp(struct fman_port *port) { struct fman_port_hwp_regs __iomem *regs = port->hwp_regs; int cnt = 100; iowrite32be(0, ®s->fmpr_pcac); while (cnt-- > 0 && !(ioread32be(®s->fmpr_pcac) & HWP_HXS_PCAC_PSTAT)) udelay(10); if (!cnt) pr_err("Timeout starting HW Parser\n"); } static void init_hwp(struct fman_port *port) { struct fman_port_hwp_regs __iomem *regs = port->hwp_regs; int i; stop_port_hwp(port); for (i = 0; i < HWP_HXS_COUNT; i++) { /* enable HXS error reporting into FD[STATUS] PHE */ iowrite32be(0x00000000, ®s->pmda[i].ssa); iowrite32be(0xffffffff, ®s->pmda[i].lcv); } /* Short packet padding removal from checksum calculation */ iowrite32be(HWP_HXS_SH_PAD_REM, ®s->pmda[HWP_HXS_TCP_OFFSET].ssa); iowrite32be(HWP_HXS_SH_PAD_REM, ®s->pmda[HWP_HXS_UDP_OFFSET].ssa); start_port_hwp(port); } static int init(struct fman_port *port) { int err; /* Init BMI registers */ switch (port->port_type) { case FMAN_PORT_TYPE_RX: err = init_bmi_rx(port); if (!err) init_hwp(port); break; case FMAN_PORT_TYPE_TX: err = init_bmi_tx(port); break; default: return -EINVAL; } if (err) return err; /* Init QMI registers */ err = init_qmi(port); if (err) return err; return 0; } static int set_bpools(const struct fman_port *port, const struct fman_port_bpools *bp) { u32 __iomem *bp_reg, *bp_depl_reg; u32 tmp; u8 i, max_bp_num; bool grp_depl_used = false, rx_port; switch (port->port_type) { case FMAN_PORT_TYPE_RX: max_bp_num = port->ext_pools_num; rx_port = true; bp_reg = port->bmi_regs->rx.fmbm_ebmpi; bp_depl_reg = &port->bmi_regs->rx.fmbm_mpd; break; default: return -EINVAL; } if (rx_port) { /* Check buffers are provided in ascending order */ for (i = 0; (i < (bp->count - 1) && (i < FMAN_PORT_MAX_EXT_POOLS_NUM - 1)); i++) { if (bp->bpool[i].size > bp->bpool[i + 1].size) return -EINVAL; } } /* Set up external buffers pools */ for (i = 0; i < bp->count; i++) { tmp = BMI_EXT_BUF_POOL_VALID; tmp |= ((u32)bp->bpool[i].bpid << BMI_EXT_BUF_POOL_ID_SHIFT) & BMI_EXT_BUF_POOL_ID_MASK; if (rx_port) { if (bp->counters_enable) tmp |= BMI_EXT_BUF_POOL_EN_COUNTER; if (bp->bpool[i].is_backup) tmp |= BMI_EXT_BUF_POOL_BACKUP; tmp |= (u32)bp->bpool[i].size; } iowrite32be(tmp, &bp_reg[i]); } /* Clear unused pools */ for (i = bp->count; i < max_bp_num; i++) iowrite32be(0, &bp_reg[i]); /* Pools depletion */ tmp = 0; for (i = 0; i < FMAN_PORT_MAX_EXT_POOLS_NUM; i++) { if (bp->bpool[i].grp_bp_depleted) { grp_depl_used = true; tmp |= 0x80000000 >> i; } if (bp->bpool[i].single_bp_depleted) tmp |= 0x80 >> i; } if (grp_depl_used) tmp |= ((u32)bp->grp_bp_depleted_num - 1) << BMI_POOL_DEP_NUM_OF_POOLS_SHIFT; iowrite32be(tmp, bp_depl_reg); return 0; } static bool is_init_done(struct fman_port_cfg *cfg) { /* Checks if FMan port driver parameters were initialized */ if (!cfg) return true; return false; } static int verify_size_of_fifo(struct fman_port *port) { u32 min_fifo_size_required = 0, opt_fifo_size_for_b2b = 0; /* TX Ports */ if (port->port_type == FMAN_PORT_TYPE_TX) { min_fifo_size_required = (u32) (roundup(port->max_frame_length, FMAN_BMI_FIFO_UNITS) + (3 * FMAN_BMI_FIFO_UNITS)); min_fifo_size_required += port->cfg->tx_fifo_deq_pipeline_depth * FMAN_BMI_FIFO_UNITS; opt_fifo_size_for_b2b = min_fifo_size_required; /* Add some margin for back-to-back capability to improve * performance, allows the hardware to pipeline new frame dma * while the previous frame not yet transmitted. */ if (port->port_speed == 10000) opt_fifo_size_for_b2b += 3 * FMAN_BMI_FIFO_UNITS; else opt_fifo_size_for_b2b += 2 * FMAN_BMI_FIFO_UNITS; } /* RX Ports */ else if (port->port_type == FMAN_PORT_TYPE_RX) { if (port->rev_info.major >= 6) min_fifo_size_required = (u32) (roundup(port->max_frame_length, FMAN_BMI_FIFO_UNITS) + (5 * FMAN_BMI_FIFO_UNITS)); /* 4 according to spec + 1 for FOF>0 */ else min_fifo_size_required = (u32) (roundup(min(port->max_frame_length, port->rx_pools_params.largest_buf_size), FMAN_BMI_FIFO_UNITS) + (7 * FMAN_BMI_FIFO_UNITS)); opt_fifo_size_for_b2b = min_fifo_size_required; /* Add some margin for back-to-back capability to improve * performance,allows the hardware to pipeline new frame dma * while the previous frame not yet transmitted. */ if (port->port_speed == 10000) opt_fifo_size_for_b2b += 8 * FMAN_BMI_FIFO_UNITS; else opt_fifo_size_for_b2b += 3 * FMAN_BMI_FIFO_UNITS; } WARN_ON(min_fifo_size_required <= 0); WARN_ON(opt_fifo_size_for_b2b < min_fifo_size_required); /* Verify the size */ if (port->fifo_bufs.num < min_fifo_size_required) dev_dbg(port->dev, "%s: FIFO size should be enlarged to %d bytes\n", __func__, min_fifo_size_required); else if (port->fifo_bufs.num < opt_fifo_size_for_b2b) dev_dbg(port->dev, "%s: For b2b processing,FIFO may be enlarged to %d bytes\n", __func__, opt_fifo_size_for_b2b); return 0; } static int set_ext_buffer_pools(struct fman_port *port) { struct fman_ext_pools *ext_buf_pools = &port->cfg->ext_buf_pools; struct fman_buf_pool_depletion *buf_pool_depletion = &port->cfg->buf_pool_depletion; u8 ordered_array[FMAN_PORT_MAX_EXT_POOLS_NUM]; u16 sizes_array[BM_MAX_NUM_OF_POOLS]; int i = 0, j = 0, err; struct fman_port_bpools bpools; memset(&ordered_array, 0, sizeof(u8) * FMAN_PORT_MAX_EXT_POOLS_NUM); memset(&sizes_array, 0, sizeof(u16) * BM_MAX_NUM_OF_POOLS); memcpy(&port->ext_buf_pools, ext_buf_pools, sizeof(struct fman_ext_pools)); fman_sp_set_buf_pools_in_asc_order_of_buf_sizes(ext_buf_pools, ordered_array, sizes_array); memset(&bpools, 0, sizeof(struct fman_port_bpools)); bpools.count = ext_buf_pools->num_of_pools_used; bpools.counters_enable = true; for (i = 0; i < ext_buf_pools->num_of_pools_used; i++) { bpools.bpool[i].bpid = ordered_array[i]; bpools.bpool[i].size = sizes_array[ordered_array[i]]; } /* save pools parameters for later use */ port->rx_pools_params.num_of_pools = ext_buf_pools->num_of_pools_used; port->rx_pools_params.largest_buf_size = sizes_array[ordered_array[ext_buf_pools->num_of_pools_used - 1]]; /* FMBM_RMPD reg. - pool depletion */ if (buf_pool_depletion->pools_grp_mode_enable) { bpools.grp_bp_depleted_num = buf_pool_depletion->num_of_pools; for (i = 0; i < port->bm_max_num_of_pools; i++) { if (buf_pool_depletion->pools_to_consider[i]) { for (j = 0; j < ext_buf_pools-> num_of_pools_used; j++) { if (i == ordered_array[j]) { bpools.bpool[j]. grp_bp_depleted = true; break; } } } } } if (buf_pool_depletion->single_pool_mode_enable) { for (i = 0; i < port->bm_max_num_of_pools; i++) { if (buf_pool_depletion-> pools_to_consider_for_single_mode[i]) { for (j = 0; j < ext_buf_pools-> num_of_pools_used; j++) { if (i == ordered_array[j]) { bpools.bpool[j]. single_bp_depleted = true; break; } } } } } err = set_bpools(port, &bpools); if (err != 0) { dev_err(port->dev, "%s: set_bpools() failed\n", __func__); return -EINVAL; } return 0; } static int init_low_level_driver(struct fman_port *port) { struct fman_port_cfg *cfg = port->cfg; u32 tmp_val; switch (port->port_type) { case FMAN_PORT_TYPE_RX: cfg->err_mask = (RX_ERRS_TO_ENQ & ~cfg->discard_mask); break; default: break; } tmp_val = (u32)((port->internal_buf_offset % OFFSET_UNITS) ? (port->internal_buf_offset / OFFSET_UNITS + 1) : (port->internal_buf_offset / OFFSET_UNITS)); port->internal_buf_offset = (u8)(tmp_val * OFFSET_UNITS); port->cfg->int_buf_start_margin = port->internal_buf_offset; if (init(port) != 0) { dev_err(port->dev, "%s: fman port initialization failed\n", __func__); return -ENODEV; } /* The code bellow is a trick so the FM will not release the buffer * to BM nor will try to enqueue the frame to QM */ if (port->port_type == FMAN_PORT_TYPE_TX) { if (!cfg->dflt_fqid && cfg->dont_release_buf) { /* override fmbm_tcfqid 0 with a false non-0 value. * This will force FM to act according to tfene. * Otherwise, if fmbm_tcfqid is 0 the FM will release * buffers to BM regardless of fmbm_tfene */ iowrite32be(0xFFFFFF, &port->bmi_regs->tx.fmbm_tcfqid); iowrite32be(NIA_ENG_BMI | NIA_BMI_AC_TX_RELEASE, &port->bmi_regs->tx.fmbm_tfene); } } return 0; } static int fill_soc_specific_params(struct fman_port *port) { u32 bmi_max_fifo_size; bmi_max_fifo_size = fman_get_bmi_max_fifo_size(port->fm); port->max_port_fifo_size = MAX_PORT_FIFO_SIZE(bmi_max_fifo_size); port->bm_max_num_of_pools = 64; /* P4080 - Major 2 * P2041/P3041/P5020/P5040 - Major 3 * Tx/Bx - Major 6 */ switch (port->rev_info.major) { case 2: case 3: port->max_num_of_ext_pools = 4; port->max_num_of_sub_portals = 12; break; case 6: port->max_num_of_ext_pools = 8; port->max_num_of_sub_portals = 16; break; default: dev_err(port->dev, "%s: Unsupported FMan version\n", __func__); return -EINVAL; } return 0; } static int get_dflt_fifo_deq_pipeline_depth(u8 major, enum fman_port_type type, u16 speed) { switch (type) { case FMAN_PORT_TYPE_RX: case FMAN_PORT_TYPE_TX: switch (speed) { case 10000: return 4; case 1000: if (major >= 6) return 2; else return 1; default: return 0; } default: return 0; } } static int get_dflt_num_of_tasks(u8 major, enum fman_port_type type, u16 speed) { switch (type) { case FMAN_PORT_TYPE_RX: case FMAN_PORT_TYPE_TX: switch (speed) { case 10000: return 16; case 1000: if (major >= 6) return 4; else return 3; default: return 0; } default: return 0; } } static int get_dflt_extra_num_of_tasks(u8 major, enum fman_port_type type, u16 speed) { switch (type) { case FMAN_PORT_TYPE_RX: /* FMan V3 */ if (major >= 6) return 0; /* FMan V2 */ if (speed == 10000) return 8; else return 2; case FMAN_PORT_TYPE_TX: default: return 0; } } static int get_dflt_num_of_open_dmas(u8 major, enum fman_port_type type, u16 speed) { int val; if (major >= 6) { switch (type) { case FMAN_PORT_TYPE_TX: if (speed == 10000) val = 12; else val = 3; break; case FMAN_PORT_TYPE_RX: if (speed == 10000) val = 8; else val = 2; break; default: return 0; } } else { switch (type) { case FMAN_PORT_TYPE_TX: case FMAN_PORT_TYPE_RX: if (speed == 10000) val = 8; else val = 1; break; default: val = 0; } } return val; } static int get_dflt_extra_num_of_open_dmas(u8 major, enum fman_port_type type, u16 speed) { /* FMan V3 */ if (major >= 6) return 0; /* FMan V2 */ switch (type) { case FMAN_PORT_TYPE_RX: case FMAN_PORT_TYPE_TX: if (speed == 10000) return 8; else return 1; default: return 0; } } static int get_dflt_num_of_fifo_bufs(u8 major, enum fman_port_type type, u16 speed) { int val; if (major >= 6) { switch (type) { case FMAN_PORT_TYPE_TX: if (speed == 10000) val = 64; else val = 50; break; case FMAN_PORT_TYPE_RX: if (speed == 10000) val = 96; else val = 50; break; default: val = 0; } } else { switch (type) { case FMAN_PORT_TYPE_TX: if (speed == 10000) val = 48; else val = 44; break; case FMAN_PORT_TYPE_RX: if (speed == 10000) val = 48; else val = 45; break; default: val = 0; } } return val; } static void set_dflt_cfg(struct fman_port *port, struct fman_port_params *port_params) { struct fman_port_cfg *cfg = port->cfg; cfg->dma_swap_data = FMAN_PORT_DMA_NO_SWAP; cfg->color = FMAN_PORT_COLOR_GREEN; cfg->rx_cut_end_bytes = DFLT_PORT_CUT_BYTES_FROM_END; cfg->rx_pri_elevation = BMI_PRIORITY_ELEVATION_LEVEL; cfg->rx_fifo_thr = BMI_FIFO_THRESHOLD; cfg->tx_fifo_low_comf_level = (5 * 1024); cfg->deq_type = FMAN_PORT_DEQ_BY_PRI; cfg->deq_prefetch_option = FMAN_PORT_DEQ_FULL_PREFETCH; cfg->tx_fifo_deq_pipeline_depth = BMI_DEQUEUE_PIPELINE_DEPTH(port->port_type, port->port_speed); cfg->deq_byte_cnt = QMI_BYTE_COUNT_LEVEL_CONTROL(port->port_type); cfg->rx_pri_elevation = DFLT_PORT_RX_FIFO_PRI_ELEVATION_LEV(port->max_port_fifo_size); port->cfg->rx_fifo_thr = DFLT_PORT_RX_FIFO_THRESHOLD(port->rev_info.major, port->max_port_fifo_size); if ((port->rev_info.major == 6) && ((port->rev_info.minor == 0) || (port->rev_info.minor == 3))) cfg->errata_A006320 = true; /* Excessive Threshold register - exists for pre-FMv3 chips only */ if (port->rev_info.major < 6) cfg->excessive_threshold_register = true; else cfg->fmbm_tfne_has_features = true; cfg->buffer_prefix_content.data_align = DFLT_PORT_BUFFER_PREFIX_CONTEXT_DATA_ALIGN; } static void set_rx_dflt_cfg(struct fman_port *port, struct fman_port_params *port_params) { port->cfg->discard_mask = DFLT_PORT_ERRORS_TO_DISCARD; memcpy(&port->cfg->ext_buf_pools, &port_params->specific_params.rx_params.ext_buf_pools, sizeof(struct fman_ext_pools)); port->cfg->err_fqid = port_params->specific_params.rx_params.err_fqid; port->cfg->dflt_fqid = port_params->specific_params.rx_params.dflt_fqid; port->cfg->pcd_base_fqid = port_params->specific_params.rx_params.pcd_base_fqid; port->cfg->pcd_fqs_count = port_params->specific_params.rx_params.pcd_fqs_count; } static void set_tx_dflt_cfg(struct fman_port *port, struct fman_port_params *port_params, struct fman_port_dts_params *dts_params) { port->cfg->tx_fifo_deq_pipeline_depth = get_dflt_fifo_deq_pipeline_depth(port->rev_info.major, port->port_type, port->port_speed); port->cfg->err_fqid = port_params->specific_params.non_rx_params.err_fqid; port->cfg->deq_sp = (u8)(dts_params->qman_channel_id & QMI_DEQ_CFG_SUBPORTAL_MASK); port->cfg->dflt_fqid = port_params->specific_params.non_rx_params.dflt_fqid; port->cfg->deq_high_priority = true; } /** * fman_port_config * @port: Pointer to the port structure * @params: Pointer to data structure of parameters * * Creates a descriptor for the FM PORT module. * The routine returns a pointer to the FM PORT object. * This descriptor must be passed as first parameter to all other FM PORT * function calls. * No actual initialization or configuration of FM hardware is done by this * routine. * * Return: 0 on success; Error code otherwise. */ int fman_port_config(struct fman_port *port, struct fman_port_params *params) { void __iomem *base_addr = port->dts_params.base_addr; int err; /* Allocate the FM driver's parameters structure */ port->cfg = kzalloc(sizeof(*port->cfg), GFP_KERNEL); if (!port->cfg) return -EINVAL; /* Initialize FM port parameters which will be kept by the driver */ port->port_type = port->dts_params.type; port->port_speed = port->dts_params.speed; port->port_id = port->dts_params.id; port->fm = port->dts_params.fman; port->ext_pools_num = (u8)8; /* get FM revision */ fman_get_revision(port->fm, &port->rev_info); err = fill_soc_specific_params(port); if (err) goto err_port_cfg; switch (port->port_type) { case FMAN_PORT_TYPE_RX: set_rx_dflt_cfg(port, params); fallthrough; case FMAN_PORT_TYPE_TX: set_tx_dflt_cfg(port, params, &port->dts_params); fallthrough; default: set_dflt_cfg(port, params); } /* Continue with other parameters */ /* set memory map pointers */ port->bmi_regs = base_addr + BMI_PORT_REGS_OFFSET; port->qmi_regs = base_addr + QMI_PORT_REGS_OFFSET; port->hwp_regs = base_addr + HWP_PORT_REGS_OFFSET; port->max_frame_length = DFLT_PORT_MAX_FRAME_LENGTH; /* resource distribution. */ port->fifo_bufs.num = get_dflt_num_of_fifo_bufs(port->rev_info.major, port->port_type, port->port_speed) * FMAN_BMI_FIFO_UNITS; port->fifo_bufs.extra = DFLT_PORT_EXTRA_NUM_OF_FIFO_BUFS * FMAN_BMI_FIFO_UNITS; port->open_dmas.num = get_dflt_num_of_open_dmas(port->rev_info.major, port->port_type, port->port_speed); port->open_dmas.extra = get_dflt_extra_num_of_open_dmas(port->rev_info.major, port->port_type, port->port_speed); port->tasks.num = get_dflt_num_of_tasks(port->rev_info.major, port->port_type, port->port_speed); port->tasks.extra = get_dflt_extra_num_of_tasks(port->rev_info.major, port->port_type, port->port_speed); /* FM_HEAVY_TRAFFIC_SEQUENCER_HANG_ERRATA_FMAN_A006981 errata * workaround */ if ((port->rev_info.major == 6) && (port->rev_info.minor == 0) && (((port->port_type == FMAN_PORT_TYPE_TX) && (port->port_speed == 1000)))) { port->open_dmas.num = 16; port->open_dmas.extra = 0; } if (port->rev_info.major >= 6 && port->port_type == FMAN_PORT_TYPE_TX && port->port_speed == 1000) { /* FM_WRONG_RESET_VALUES_ERRATA_FMAN_A005127 Errata * workaround */ u32 reg; reg = 0x00001013; iowrite32be(reg, &port->bmi_regs->tx.fmbm_tfp); } return 0; err_port_cfg: kfree(port->cfg); return -EINVAL; } EXPORT_SYMBOL(fman_port_config); /* * fman_port_use_kg_hash * @port: A pointer to a FM Port module. * @enable: enable or disable * * Sets the HW KeyGen or the BMI as HW Parser next engine, enabling * or bypassing the KeyGen hashing of Rx traffic */ void fman_port_use_kg_hash(struct fman_port *port, bool enable) { if (enable) /* After the Parser frames go to KeyGen */ iowrite32be(NIA_ENG_HWK, &port->bmi_regs->rx.fmbm_rfpne); else /* After the Parser frames go to BMI */ iowrite32be(NIA_ENG_BMI | NIA_BMI_AC_ENQ_FRAME, &port->bmi_regs->rx.fmbm_rfpne); } EXPORT_SYMBOL(fman_port_use_kg_hash); /** * fman_port_init * @port: A pointer to a FM Port module. * * Initializes the FM PORT module by defining the software structure and * configuring the hardware registers. * * Return: 0 on success; Error code otherwise. */ int fman_port_init(struct fman_port *port) { struct fman_port_init_params params; struct fman_keygen *keygen; struct fman_port_cfg *cfg; int err; if (is_init_done(port->cfg)) return -EINVAL; err = fman_sp_build_buffer_struct(&port->cfg->int_context, &port->cfg->buffer_prefix_content, &port->cfg->buf_margins, &port->buffer_offsets, &port->internal_buf_offset); if (err) return err; cfg = port->cfg; if (port->port_type == FMAN_PORT_TYPE_RX) { /* Call the external Buffer routine which also checks fifo * size and updates it if necessary */ /* define external buffer pools and pool depletion */ err = set_ext_buffer_pools(port); if (err) return err; /* check if the largest external buffer pool is large enough */ if (cfg->buf_margins.start_margins + MIN_EXT_BUF_SIZE + cfg->buf_margins.end_margins > port->rx_pools_params.largest_buf_size) { dev_err(port->dev, "%s: buf_margins.start_margins (%d) + minimum buf size (64) + buf_margins.end_margins (%d) is larger than maximum external buffer size (%d)\n", __func__, cfg->buf_margins.start_margins, cfg->buf_margins.end_margins, port->rx_pools_params.largest_buf_size); return -EINVAL; } } /* Call FM module routine for communicating parameters */ memset(¶ms, 0, sizeof(params)); params.port_id = port->port_id; params.port_type = port->port_type; params.port_speed = port->port_speed; params.num_of_tasks = (u8)port->tasks.num; params.num_of_extra_tasks = (u8)port->tasks.extra; params.num_of_open_dmas = (u8)port->open_dmas.num; params.num_of_extra_open_dmas = (u8)port->open_dmas.extra; if (port->fifo_bufs.num) { err = verify_size_of_fifo(port); if (err) return err; } params.size_of_fifo = port->fifo_bufs.num; params.extra_size_of_fifo = port->fifo_bufs.extra; params.deq_pipeline_depth = port->cfg->tx_fifo_deq_pipeline_depth; params.max_frame_length = port->max_frame_length; err = fman_set_port_params(port->fm, ¶ms); if (err) return err; err = init_low_level_driver(port); if (err) return err; if (port->cfg->pcd_fqs_count) { keygen = port->dts_params.fman->keygen; err = keygen_port_hashing_init(keygen, port->port_id, port->cfg->pcd_base_fqid, port->cfg->pcd_fqs_count); if (err) return err; fman_port_use_kg_hash(port, true); } kfree(port->cfg); port->cfg = NULL; return 0; } EXPORT_SYMBOL(fman_port_init); /** * fman_port_cfg_buf_prefix_content * @port: A pointer to a FM Port module. * @buffer_prefix_content: A structure of parameters describing * the structure of the buffer. * Out parameter: * Start margin - offset of data from * start of external buffer. * Defines the structure, size and content of the application buffer. * The prefix, in Tx ports, if 'pass_prs_result', the application should set * a value to their offsets in the prefix of the FM will save the first * 'priv_data_size', than, depending on 'pass_prs_result' and * 'pass_time_stamp', copy parse result and timeStamp, and the packet itself * (in this order), to the application buffer, and to offset. * Calling this routine changes the buffer margins definitions in the internal * driver data base from its default configuration: * Data size: [DEFAULT_PORT_BUFFER_PREFIX_CONTENT_PRIV_DATA_SIZE] * Pass Parser result: [DEFAULT_PORT_BUFFER_PREFIX_CONTENT_PASS_PRS_RESULT]. * Pass timestamp: [DEFAULT_PORT_BUFFER_PREFIX_CONTENT_PASS_TIME_STAMP]. * May be used for all ports * * Allowed only following fman_port_config() and before fman_port_init(). * * Return: 0 on success; Error code otherwise. */ int fman_port_cfg_buf_prefix_content(struct fman_port *port, struct fman_buffer_prefix_content * buffer_prefix_content) { if (is_init_done(port->cfg)) return -EINVAL; memcpy(&port->cfg->buffer_prefix_content, buffer_prefix_content, sizeof(struct fman_buffer_prefix_content)); /* if data_align was not initialized by user, * we return to driver's default */ if (!port->cfg->buffer_prefix_content.data_align) port->cfg->buffer_prefix_content.data_align = DFLT_PORT_BUFFER_PREFIX_CONTEXT_DATA_ALIGN; return 0; } EXPORT_SYMBOL(fman_port_cfg_buf_prefix_content); /** * fman_port_disable * @port: A pointer to a FM Port module. * * Gracefully disable an FM port. The port will not start new tasks after all * tasks associated with the port are terminated. * * This is a blocking routine, it returns after port is gracefully stopped, * i.e. the port will not except new frames, but it will finish all frames * or tasks which were already began. * Allowed only following fman_port_init(). * * Return: 0 on success; Error code otherwise. */ int fman_port_disable(struct fman_port *port) { u32 __iomem *bmi_cfg_reg, *bmi_status_reg; u32 tmp; bool rx_port, failure = false; int count; if (!is_init_done(port->cfg)) return -EINVAL; switch (port->port_type) { case FMAN_PORT_TYPE_RX: bmi_cfg_reg = &port->bmi_regs->rx.fmbm_rcfg; bmi_status_reg = &port->bmi_regs->rx.fmbm_rst; rx_port = true; break; case FMAN_PORT_TYPE_TX: bmi_cfg_reg = &port->bmi_regs->tx.fmbm_tcfg; bmi_status_reg = &port->bmi_regs->tx.fmbm_tst; rx_port = false; break; default: return -EINVAL; } /* Disable QMI */ if (!rx_port) { tmp = ioread32be(&port->qmi_regs->fmqm_pnc) & ~QMI_PORT_CFG_EN; iowrite32be(tmp, &port->qmi_regs->fmqm_pnc); /* Wait for QMI to finish FD handling */ count = 100; do { udelay(10); tmp = ioread32be(&port->qmi_regs->fmqm_pns); } while ((tmp & QMI_PORT_STATUS_DEQ_FD_BSY) && --count); if (count == 0) { /* Timeout */ failure = true; } } /* Disable BMI */ tmp = ioread32be(bmi_cfg_reg) & ~BMI_PORT_CFG_EN; iowrite32be(tmp, bmi_cfg_reg); /* Wait for graceful stop end */ count = 500; do { udelay(10); tmp = ioread32be(bmi_status_reg); } while ((tmp & BMI_PORT_STATUS_BSY) && --count); if (count == 0) { /* Timeout */ failure = true; } if (failure) dev_dbg(port->dev, "%s: FMan Port[%d]: BMI or QMI is Busy. Port forced down\n", __func__, port->port_id); return 0; } EXPORT_SYMBOL(fman_port_disable); /** * fman_port_enable * @port: A pointer to a FM Port module. * * A runtime routine provided to allow disable/enable of port. * * Allowed only following fman_port_init(). * * Return: 0 on success; Error code otherwise. */ int fman_port_enable(struct fman_port *port) { u32 __iomem *bmi_cfg_reg; u32 tmp; bool rx_port; if (!is_init_done(port->cfg)) return -EINVAL; switch (port->port_type) { case FMAN_PORT_TYPE_RX: bmi_cfg_reg = &port->bmi_regs->rx.fmbm_rcfg; rx_port = true; break; case FMAN_PORT_TYPE_TX: bmi_cfg_reg = &port->bmi_regs->tx.fmbm_tcfg; rx_port = false; break; default: return -EINVAL; } /* Enable QMI */ if (!rx_port) { tmp = ioread32be(&port->qmi_regs->fmqm_pnc) | QMI_PORT_CFG_EN; iowrite32be(tmp, &port->qmi_regs->fmqm_pnc); } /* Enable BMI */ tmp = ioread32be(bmi_cfg_reg) | BMI_PORT_CFG_EN; iowrite32be(tmp, bmi_cfg_reg); return 0; } EXPORT_SYMBOL(fman_port_enable); /** * fman_port_bind * @dev: FMan Port OF device pointer * * Bind to a specific FMan Port. * * Allowed only after the port was created. * * Return: A pointer to the FMan port device. */ struct fman_port *fman_port_bind(struct device *dev) { return (struct fman_port *)(dev_get_drvdata(get_device(dev))); } EXPORT_SYMBOL(fman_port_bind); /** * fman_port_get_qman_channel_id * @port: Pointer to the FMan port devuce * * Get the QMan channel ID for the specific port * * Return: QMan channel ID */ u32 fman_port_get_qman_channel_id(struct fman_port *port) { return port->dts_params.qman_channel_id; } EXPORT_SYMBOL(fman_port_get_qman_channel_id); /** * fman_port_get_device * @port: Pointer to the FMan port device * * Get the 'struct device' associated to the specified FMan port device * * Return: pointer to associated 'struct device' */ struct device *fman_port_get_device(struct fman_port *port) { return port->dev; } EXPORT_SYMBOL(fman_port_get_device); int fman_port_get_hash_result_offset(struct fman_port *port, u32 *offset) { if (port->buffer_offsets.hash_result_offset == ILLEGAL_BASE) return -EINVAL; *offset = port->buffer_offsets.hash_result_offset; return 0; } EXPORT_SYMBOL(fman_port_get_hash_result_offset); int fman_port_get_tstamp(struct fman_port *port, const void *data, u64 *tstamp) { if (port->buffer_offsets.time_stamp_offset == ILLEGAL_BASE) return -EINVAL; *tstamp = be64_to_cpu(*(__be64 *)(data + port->buffer_offsets.time_stamp_offset)); return 0; } EXPORT_SYMBOL(fman_port_get_tstamp); static int fman_port_probe(struct platform_device *of_dev) { struct fman_port *port; struct fman *fman; struct device_node *fm_node, *port_node; struct platform_device *fm_pdev; struct resource res; struct resource *dev_res; u32 val; int err = 0, lenp; enum fman_port_type port_type; u16 port_speed; u8 port_id; port = kzalloc(sizeof(*port), GFP_KERNEL); if (!port) return -ENOMEM; port->dev = &of_dev->dev; port_node = of_node_get(of_dev->dev.of_node); /* Get the FM node */ fm_node = of_get_parent(port_node); if (!fm_node) { dev_err(port->dev, "%s: of_get_parent() failed\n", __func__); err = -ENODEV; goto return_err; } fm_pdev = of_find_device_by_node(fm_node); of_node_put(fm_node); if (!fm_pdev) { err = -EINVAL; goto return_err; } fman = dev_get_drvdata(&fm_pdev->dev); if (!fman) { err = -EINVAL; goto put_device; } err = of_property_read_u32(port_node, "cell-index", &val); if (err) { dev_err(port->dev, "%s: reading cell-index for %pOF failed\n", __func__, port_node); err = -EINVAL; goto put_device; } port_id = (u8)val; port->dts_params.id = port_id; if (of_device_is_compatible(port_node, "fsl,fman-v3-port-tx")) { port_type = FMAN_PORT_TYPE_TX; port_speed = 1000; if (of_find_property(port_node, "fsl,fman-10g-port", &lenp)) port_speed = 10000; } else if (of_device_is_compatible(port_node, "fsl,fman-v2-port-tx")) { if (port_id >= TX_10G_PORT_BASE) port_speed = 10000; else port_speed = 1000; port_type = FMAN_PORT_TYPE_TX; } else if (of_device_is_compatible(port_node, "fsl,fman-v3-port-rx")) { port_type = FMAN_PORT_TYPE_RX; port_speed = 1000; if (of_find_property(port_node, "fsl,fman-10g-port", &lenp)) port_speed = 10000; } else if (of_device_is_compatible(port_node, "fsl,fman-v2-port-rx")) { if (port_id >= RX_10G_PORT_BASE) port_speed = 10000; else port_speed = 1000; port_type = FMAN_PORT_TYPE_RX; } else { dev_err(port->dev, "%s: Illegal port type\n", __func__); err = -EINVAL; goto put_device; } port->dts_params.type = port_type; port->dts_params.speed = port_speed; if (port_type == FMAN_PORT_TYPE_TX) { u32 qman_channel_id; qman_channel_id = fman_get_qman_channel_id(fman, port_id); if (qman_channel_id == 0) { dev_err(port->dev, "%s: incorrect qman-channel-id\n", __func__); err = -EINVAL; goto put_device; } port->dts_params.qman_channel_id = qman_channel_id; } err = of_address_to_resource(port_node, 0, &res); if (err < 0) { dev_err(port->dev, "%s: of_address_to_resource() failed\n", __func__); err = -ENOMEM; goto put_device; } port->dts_params.fman = fman; of_node_put(port_node); dev_res = __devm_request_region(port->dev, &res, res.start, resource_size(&res), "fman-port"); if (!dev_res) { dev_err(port->dev, "%s: __devm_request_region() failed\n", __func__); err = -EINVAL; goto free_port; } port->dts_params.base_addr = devm_ioremap(port->dev, res.start, resource_size(&res)); if (!port->dts_params.base_addr) dev_err(port->dev, "%s: devm_ioremap() failed\n", __func__); dev_set_drvdata(&of_dev->dev, port); return 0; put_device: put_device(&fm_pdev->dev); return_err: of_node_put(port_node); free_port: kfree(port); return err; } static const struct of_device_id fman_port_match[] = { {.compatible = "fsl,fman-v3-port-rx"}, {.compatible = "fsl,fman-v2-port-rx"}, {.compatible = "fsl,fman-v3-port-tx"}, {.compatible = "fsl,fman-v2-port-tx"}, {} }; MODULE_DEVICE_TABLE(of, fman_port_match); static struct platform_driver fman_port_driver = { .driver = { .name = "fsl-fman-port", .of_match_table = fman_port_match, }, .probe = fman_port_probe, }; static int __init fman_port_load(void) { int err; pr_debug("FSL DPAA FMan driver\n"); err = platform_driver_register(&fman_port_driver); if (err < 0) pr_err("Error, platform_driver_register() = %d\n", err); return err; } module_init(fman_port_load); static void __exit fman_port_unload(void) { platform_driver_unregister(&fman_port_driver); } module_exit(fman_port_unload); MODULE_LICENSE("Dual BSD/GPL"); MODULE_DESCRIPTION("Freescale DPAA Frame Manager Port driver"); 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