From: Aaron Williams Date: Fri, 11 Dec 2020 16:05:59 +0000 (+0100) Subject: mips: octeon: Add cvmx-helper-fdt.c X-Git-Url: http://git.dujemihanovic.xyz/?a=commitdiff_plain;h=f9174d6a925b997a6779cead314988e3a37b323b;p=u-boot.git mips: octeon: Add cvmx-helper-fdt.c Import cvmx-helper-fdt.c from 2013 U-Boot. It will be used by the later added drivers to support PCIe and networking on the MIPS Octeon II / III platforms. Signed-off-by: Aaron Williams Signed-off-by: Stefan Roese --- diff --git a/arch/mips/mach-octeon/cvmx-helper-fdt.c b/arch/mips/mach-octeon/cvmx-helper-fdt.c new file mode 100644 index 0000000000..87bc6d2adc --- /dev/null +++ b/arch/mips/mach-octeon/cvmx-helper-fdt.c @@ -0,0 +1,970 @@ +// SPDX-License-Identifier: GPL-2.0 +/* + * Copyright (C) 2020 Marvell International Ltd. + * + * FDT Helper functions similar to those provided to U-Boot. + */ + +#include +#include +#include +#include + +#include +#include +#include +#include +#include +#include +#include +#include +#include +#include + +/** Structure used to get type of GPIO from device tree */ +struct gpio_compat { + char *compatible; /** Compatible string */ + enum cvmx_gpio_type type; /** Type */ + int8_t size; /** (max) Number of pins */ +}; + +#define GPIO_REG_PCA953X_IN 0 +#define GPIO_REG_PCA953X_OUT 1 +#define GPIO_REG_PCA953X_INVERT 2 +#define GPIO_REG_PCA953X_DIR 3 + +#define GPIO_REG_PCA957X_IN 0 +#define GPIO_REG_PCA957X_INVERT 1 +#define GPIO_REG_PCA957X_CFG 4 +#define GPIO_REG_PCA957X_OUT 5 + +enum cvmx_i2c_mux_type { I2C_MUX, I2C_SWITCH }; + +/** Structure used to get type of GPIO from device tree */ +struct mux_compat { + char *compatible; /** Compatible string */ + enum cvmx_i2c_bus_type type; /** Mux chip type */ + enum cvmx_i2c_mux_type mux_type; /** Type of mux */ + u8 enable; /** Enable bit for mux */ + u8 size; /** (max) Number of channels */ +}; + +/** + * Local allocator to handle both SE and U-Boot that also zeroes out memory + * + * @param size number of bytes to allocate + * + * @return pointer to allocated memory or NULL if out of memory. + * Alignment is set to 8-bytes. + */ +void *__cvmx_fdt_alloc(size_t size) +{ + return calloc(size, 1); +} + +/** + * Free allocated memory. + * + * @param ptr pointer to memory to free + * + * NOTE: This only works in U-Boot since SE does not really have a freeing + * mechanism. In SE the memory is zeroed out. + */ +void __cvmx_fdt_free(void *ptr, size_t size) +{ + free(ptr); +} + +/** + * Look up a phandle and follow it to its node then return the offset of that + * node. + * + * @param[in] fdt_addr pointer to FDT blob + * @param node node to read phandle from + * @param[in] prop_name name of property to find + * @param[in,out] lenp Number of phandles, input max number + * @param[out] nodes Array of phandle nodes + * + * @return -ve error code on error or 0 for success + */ +int cvmx_fdt_lookup_phandles(const void *fdt_addr, int node, + const char *prop_name, int *lenp, + int *nodes) +{ + const u32 *phandles; + int count; + int i; + + phandles = fdt_getprop(fdt_addr, node, prop_name, &count); + if (!phandles || count < 0) + return -FDT_ERR_NOTFOUND; + + count /= 4; + if (count > *lenp) + count = *lenp; + + for (i = 0; i < count; i++) + nodes[i] = fdt_node_offset_by_phandle(fdt_addr, + fdt32_to_cpu(phandles[i])); + *lenp = count; + return 0; +} + +/** + * Given a FDT node return the CPU node number + * + * @param[in] fdt_addr Address of FDT + * @param node FDT node number + * + * @return CPU node number or error if negative + */ +int cvmx_fdt_get_cpu_node(const void *fdt_addr, int node) +{ + int parent = node; + const u32 *ranges; + int len = 0; + + while (fdt_node_check_compatible(fdt_addr, parent, "simple-bus") != 0) { + parent = fdt_parent_offset(fdt_addr, parent); + if (parent < 0) + return parent; + } + ranges = fdt_getprop(fdt_addr, parent, "ranges", &len); + if (!ranges) + return len; + + if (len == 0) + return 0; + + if (len < 24) + return -FDT_ERR_TRUNCATED; + + return fdt32_to_cpu(ranges[2]) / 0x10; +} + +/** + * Get the total size of the flat device tree + * + * @param[in] fdt_addr Address of FDT + * + * @return Size of flat device tree in bytes or error if negative. + */ +int cvmx_fdt_get_fdt_size(const void *fdt_addr) +{ + int rc; + + rc = fdt_check_header(fdt_addr); + if (rc) + return rc; + return fdt_totalsize(fdt_addr); +} + +/** + * Returns if a node is compatible with one of the items in the string list + * + * @param[in] fdt_addr Pointer to flat device tree + * @param node Node offset to check + * @param[in] strlist Array of FDT device compatibility strings, + * must end with NULL or empty string. + * + * @return 0 if at least one item matches, 1 if no matches + */ +int cvmx_fdt_node_check_compatible_list(const void *fdt_addr, int node, const char *const *strlist) +{ + while (*strlist && **strlist) { + if (!fdt_node_check_compatible(fdt_addr, node, *strlist)) + return 0; + strlist++; + } + return 1; +} + +/** + * Given a FDT node, return the next compatible node. + * + * @param[in] fdt_addr Pointer to flat device tree + * @param start_offset Starting node offset or -1 to find the first + * @param strlist Array of FDT device compatibility strings, must + * end with NULL or empty string. + * + * @return next matching node or -1 if no more matches. + */ +int cvmx_fdt_node_offset_by_compatible_list(const void *fdt_addr, int startoffset, + const char *const *strlist) +{ + int offset; + + for (offset = fdt_next_node(fdt_addr, startoffset, NULL); offset >= 0; + offset = fdt_next_node(fdt_addr, offset, NULL)) { + if (!cvmx_fdt_node_check_compatible_list(fdt_addr, offset, strlist)) + return offset; + } + return -1; +} + +/** + * Attaches a PHY to a SFP or QSFP. + * + * @param sfp sfp to attach PHY to + * @param phy_info phy descriptor to attach or NULL to detach + */ +void cvmx_sfp_attach_phy(struct cvmx_fdt_sfp_info *sfp, struct cvmx_phy_info *phy_info) +{ + sfp->phy_info = phy_info; + if (phy_info) + phy_info->sfp_info = sfp; +} + +/** + * Assigns an IPD port to a SFP slot + * + * @param sfp Handle to SFP data structure + * @param ipd_port Port to assign it to + * + * @return 0 for success, -1 on error + */ +int cvmx_sfp_set_ipd_port(struct cvmx_fdt_sfp_info *sfp, int ipd_port) +{ + int i; + + if (sfp->is_qsfp) { + int xiface; + cvmx_helper_interface_mode_t mode; + + xiface = cvmx_helper_get_interface_num(ipd_port); + mode = cvmx_helper_interface_get_mode(xiface); + sfp->ipd_port[0] = ipd_port; + + switch (mode) { + case CVMX_HELPER_INTERFACE_MODE_SGMII: + case CVMX_HELPER_INTERFACE_MODE_XFI: + case CVMX_HELPER_INTERFACE_MODE_10G_KR: + for (i = 1; i < 4; i++) + sfp->ipd_port[i] = cvmx_helper_get_ipd_port(xiface, i); + break; + case CVMX_HELPER_INTERFACE_MODE_XLAUI: + case CVMX_HELPER_INTERFACE_MODE_40G_KR4: + sfp->ipd_port[0] = ipd_port; + for (i = 1; i < 4; i++) + sfp->ipd_port[i] = -1; + break; + default: + debug("%s: Interface mode %s for interface 0x%x, ipd_port %d not supported for QSFP\n", + __func__, cvmx_helper_interface_mode_to_string(mode), xiface, + ipd_port); + return -1; + } + } else { + sfp->ipd_port[0] = ipd_port; + for (i = 1; i < 4; i++) + sfp->ipd_port[i] = -1; + } + return 0; +} + +/** + * Parses all of the channels assigned to a VSC7224 device + * + * @param[in] fdt_addr Address of flat device tree + * @param of_offset Offset of vsc7224 node + * @param[in,out] vsc7224 Data structure to hold the data + * + * @return 0 for success, -1 on error + */ +static int cvmx_fdt_parse_vsc7224_channels(const void *fdt_addr, int of_offset, + struct cvmx_vsc7224 *vsc7224) +{ + int parent_offset = of_offset; + int err = 0; + int reg; + int num_chan = 0; + struct cvmx_vsc7224_chan *channel; + struct cvmx_fdt_sfp_info *sfp_info; + int len; + int num_taps; + int i; + const u32 *tap_values; + int of_mac; + int xiface, index; + bool is_tx; + bool is_qsfp; + const char *mac_str; + + debug("%s(%p, %d, %s)\n", __func__, fdt_addr, of_offset, vsc7224->name); + do { + /* Walk through all channels */ + of_offset = fdt_node_offset_by_compatible(fdt_addr, of_offset, + "vitesse,vsc7224-channel"); + if (of_offset == -FDT_ERR_NOTFOUND) { + break; + } else if (of_offset < 0) { + debug("%s: Failed finding compatible channel\n", + __func__); + err = -1; + break; + } + if (fdt_parent_offset(fdt_addr, of_offset) != parent_offset) + break; + reg = cvmx_fdt_get_int(fdt_addr, of_offset, "reg", -1); + if (reg < 0 || reg > 3) { + debug("%s: channel reg is either not present or out of range\n", + __func__); + err = -1; + break; + } + is_tx = cvmx_fdt_get_bool(fdt_addr, of_offset, "direction-tx"); + + debug("%s(%s): Adding %cx channel %d\n", + __func__, vsc7224->name, is_tx ? 't' : 'r', + reg); + tap_values = (const uint32_t *)fdt_getprop(fdt_addr, of_offset, "taps", &len); + if (!tap_values) { + debug("%s: Error: no taps defined for vsc7224 channel %d\n", + __func__, reg); + err = -1; + break; + } + + if (vsc7224->channel[reg]) { + debug("%s: Error: channel %d already assigned at %p\n", + __func__, reg, + vsc7224->channel[reg]); + err = -1; + break; + } + if (len % 16) { + debug("%s: Error: tap format error for channel %d\n", + __func__, reg); + err = -1; + break; + } + num_taps = len / 16; + debug("%s: Adding %d taps\n", __func__, num_taps); + + channel = __cvmx_fdt_alloc(sizeof(*channel) + + num_taps * sizeof(struct cvmx_vsc7224_tap)); + if (!channel) { + debug("%s: Out of memory\n", __func__); + err = -1; + break; + } + vsc7224->channel[reg] = channel; + channel->num_taps = num_taps; + channel->lane = reg; + channel->of_offset = of_offset; + channel->is_tx = is_tx; + channel->pretap_disable = cvmx_fdt_get_bool(fdt_addr, of_offset, "pretap-disable"); + channel->posttap_disable = + cvmx_fdt_get_bool(fdt_addr, of_offset, "posttap-disable"); + channel->vsc7224 = vsc7224; + /* Read all the tap values */ + for (i = 0; i < num_taps; i++) { + channel->taps[i].len = fdt32_to_cpu(tap_values[i * 4 + 0]); + channel->taps[i].main_tap = fdt32_to_cpu(tap_values[i * 4 + 1]); + channel->taps[i].pre_tap = fdt32_to_cpu(tap_values[i * 4 + 2]); + channel->taps[i].post_tap = fdt32_to_cpu(tap_values[i * 4 + 3]); + debug("%s: tap %d: len: %d, main_tap: 0x%x, pre_tap: 0x%x, post_tap: 0x%x\n", + __func__, i, channel->taps[i].len, channel->taps[i].main_tap, + channel->taps[i].pre_tap, channel->taps[i].post_tap); + } + /* Now find out which interface it's mapped to */ + channel->ipd_port = -1; + + mac_str = "sfp-mac"; + if (fdt_getprop(fdt_addr, of_offset, mac_str, NULL)) { + is_qsfp = false; + } else if (fdt_getprop(fdt_addr, of_offset, "qsfp-mac", NULL)) { + is_qsfp = true; + mac_str = "qsfp-mac"; + } else { + debug("%s: Error: MAC not found for %s channel %d\n", __func__, + vsc7224->name, reg); + return -1; + } + of_mac = cvmx_fdt_lookup_phandle(fdt_addr, of_offset, mac_str); + if (of_mac < 0) { + debug("%s: Error %d with MAC %s phandle for %s\n", __func__, of_mac, + mac_str, vsc7224->name); + return -1; + } + + debug("%s: Found mac at offset %d\n", __func__, of_mac); + err = cvmx_helper_cfg_get_xiface_index_by_fdt_node_offset(of_mac, &xiface, &index); + if (!err) { + channel->xiface = xiface; + channel->index = index; + channel->ipd_port = cvmx_helper_get_ipd_port(xiface, index); + + debug("%s: Found MAC, xiface: 0x%x, index: %d, ipd port: %d\n", __func__, + xiface, index, channel->ipd_port); + if (channel->ipd_port >= 0) { + cvmx_helper_cfg_set_vsc7224_chan_info(xiface, index, channel); + debug("%s: Storing config channel for xiface 0x%x, index %d\n", + __func__, xiface, index); + } + sfp_info = cvmx_helper_cfg_get_sfp_info(xiface, index); + if (!sfp_info) { + debug("%s: Warning: no (Q)SFP+ slot found for xinterface 0x%x, index %d for channel %d\n", + __func__, xiface, index, channel->lane); + continue; + } + + /* Link it */ + channel->next = sfp_info->vsc7224_chan; + if (sfp_info->vsc7224_chan) + sfp_info->vsc7224_chan->prev = channel; + sfp_info->vsc7224_chan = channel; + sfp_info->is_vsc7224 = true; + debug("%s: Registering VSC7224 %s channel %d with SFP %s\n", __func__, + vsc7224->name, channel->lane, sfp_info->name); + if (!sfp_info->mod_abs_changed) { + debug("%s: Registering cvmx_sfp_vsc7224_mod_abs_changed at %p for xinterface 0x%x, index %d\n", + __func__, &cvmx_sfp_vsc7224_mod_abs_changed, xiface, index); + cvmx_sfp_register_mod_abs_changed( + sfp_info, + &cvmx_sfp_vsc7224_mod_abs_changed, + NULL); + } + } + } while (!err && num_chan < 4); + + return err; +} + +/** + * @INTERNAL + * Parses all instances of the Vitesse VSC7224 reclocking chip + * + * @param[in] fdt_addr Address of flat device tree + * + * @return 0 for success, error otherwise + */ +int __cvmx_fdt_parse_vsc7224(const void *fdt_addr) +{ + int of_offset = -1; + struct cvmx_vsc7224 *vsc7224 = NULL; + struct cvmx_fdt_gpio_info *gpio_info = NULL; + int err = 0; + int of_parent; + static bool parsed; + + debug("%s(%p)\n", __func__, fdt_addr); + + if (parsed) { + debug("%s: Already parsed\n", __func__); + return 0; + } + do { + of_offset = fdt_node_offset_by_compatible(fdt_addr, of_offset, + "vitesse,vsc7224"); + debug("%s: of_offset: %d\n", __func__, of_offset); + if (of_offset == -FDT_ERR_NOTFOUND) { + break; + } else if (of_offset < 0) { + err = -1; + debug("%s: Error %d parsing FDT\n", + __func__, of_offset); + break; + } + + vsc7224 = __cvmx_fdt_alloc(sizeof(*vsc7224)); + + if (!vsc7224) { + debug("%s: Out of memory!\n", __func__); + return -1; + } + vsc7224->of_offset = of_offset; + vsc7224->i2c_addr = cvmx_fdt_get_int(fdt_addr, of_offset, + "reg", -1); + of_parent = fdt_parent_offset(fdt_addr, of_offset); + vsc7224->i2c_bus = cvmx_fdt_get_i2c_bus(fdt_addr, of_parent); + if (vsc7224->i2c_addr < 0) { + debug("%s: Error: reg field missing\n", __func__); + err = -1; + break; + } + if (!vsc7224->i2c_bus) { + debug("%s: Error getting i2c bus\n", __func__); + err = -1; + break; + } + vsc7224->name = fdt_get_name(fdt_addr, of_offset, NULL); + debug("%s: Adding %s\n", __func__, vsc7224->name); + if (fdt_getprop(fdt_addr, of_offset, "reset", NULL)) { + gpio_info = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "reset"); + vsc7224->reset_gpio = gpio_info; + } + if (fdt_getprop(fdt_addr, of_offset, "los", NULL)) { + gpio_info = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "los"); + vsc7224->los_gpio = gpio_info; + } + debug("%s: Parsing channels\n", __func__); + err = cvmx_fdt_parse_vsc7224_channels(fdt_addr, of_offset, vsc7224); + if (err) { + debug("%s: Error parsing VSC7224 channels\n", __func__); + break; + } + } while (of_offset > 0); + + if (err) { + debug("%s(): Error\n", __func__); + if (vsc7224) { + if (vsc7224->reset_gpio) + __cvmx_fdt_free(vsc7224->reset_gpio, sizeof(*vsc7224->reset_gpio)); + if (vsc7224->los_gpio) + __cvmx_fdt_free(vsc7224->los_gpio, sizeof(*vsc7224->los_gpio)); + if (vsc7224->i2c_bus) + cvmx_fdt_free_i2c_bus(vsc7224->i2c_bus); + __cvmx_fdt_free(vsc7224, sizeof(*vsc7224)); + } + } + if (!err) + parsed = true; + + return err; +} + +/** + * @INTERNAL + * Parses all instances of the Avago AVSP5410 gearbox phy + * + * @param[in] fdt_addr Address of flat device tree + * + * @return 0 for success, error otherwise + */ +int __cvmx_fdt_parse_avsp5410(const void *fdt_addr) +{ + int of_offset = -1; + struct cvmx_avsp5410 *avsp5410 = NULL; + struct cvmx_fdt_sfp_info *sfp_info; + int err = 0; + int of_parent; + static bool parsed; + int of_mac; + int xiface, index; + bool is_qsfp; + const char *mac_str; + + debug("%s(%p)\n", __func__, fdt_addr); + + if (parsed) { + debug("%s: Already parsed\n", __func__); + return 0; + } + + do { + of_offset = fdt_node_offset_by_compatible(fdt_addr, of_offset, + "avago,avsp-5410"); + debug("%s: of_offset: %d\n", __func__, of_offset); + if (of_offset == -FDT_ERR_NOTFOUND) { + break; + } else if (of_offset < 0) { + err = -1; + debug("%s: Error %d parsing FDT\n", __func__, of_offset); + break; + } + + avsp5410 = __cvmx_fdt_alloc(sizeof(*avsp5410)); + + if (!avsp5410) { + debug("%s: Out of memory!\n", __func__); + return -1; + } + avsp5410->of_offset = of_offset; + avsp5410->i2c_addr = cvmx_fdt_get_int(fdt_addr, of_offset, + "reg", -1); + of_parent = fdt_parent_offset(fdt_addr, of_offset); + avsp5410->i2c_bus = cvmx_fdt_get_i2c_bus(fdt_addr, of_parent); + if (avsp5410->i2c_addr < 0) { + debug("%s: Error: reg field missing\n", __func__); + err = -1; + break; + } + if (!avsp5410->i2c_bus) { + debug("%s: Error getting i2c bus\n", __func__); + err = -1; + break; + } + avsp5410->name = fdt_get_name(fdt_addr, of_offset, NULL); + debug("%s: Adding %s\n", __func__, avsp5410->name); + + /* Now find out which interface it's mapped to */ + avsp5410->ipd_port = -1; + + mac_str = "sfp-mac"; + if (fdt_getprop(fdt_addr, of_offset, mac_str, NULL)) { + is_qsfp = false; + } else if (fdt_getprop(fdt_addr, of_offset, "qsfp-mac", NULL)) { + is_qsfp = true; + mac_str = "qsfp-mac"; + } else { + debug("%s: Error: MAC not found for %s\n", __func__, avsp5410->name); + return -1; + } + of_mac = cvmx_fdt_lookup_phandle(fdt_addr, of_offset, mac_str); + if (of_mac < 0) { + debug("%s: Error %d with MAC %s phandle for %s\n", __func__, of_mac, + mac_str, avsp5410->name); + return -1; + } + + debug("%s: Found mac at offset %d\n", __func__, of_mac); + err = cvmx_helper_cfg_get_xiface_index_by_fdt_node_offset(of_mac, &xiface, &index); + if (!err) { + avsp5410->xiface = xiface; + avsp5410->index = index; + avsp5410->ipd_port = cvmx_helper_get_ipd_port(xiface, index); + + debug("%s: Found MAC, xiface: 0x%x, index: %d, ipd port: %d\n", __func__, + xiface, index, avsp5410->ipd_port); + if (avsp5410->ipd_port >= 0) { + cvmx_helper_cfg_set_avsp5410_info(xiface, index, avsp5410); + debug("%s: Storing config phy for xiface 0x%x, index %d\n", + __func__, xiface, index); + } + sfp_info = cvmx_helper_cfg_get_sfp_info(xiface, index); + if (!sfp_info) { + debug("%s: Warning: no (Q)SFP+ slot found for xinterface 0x%x, index %d\n", + __func__, xiface, index); + continue; + } + + sfp_info->is_avsp5410 = true; + sfp_info->avsp5410 = avsp5410; + debug("%s: Registering AVSP5410 %s with SFP %s\n", __func__, avsp5410->name, + sfp_info->name); + if (!sfp_info->mod_abs_changed) { + debug("%s: Registering cvmx_sfp_avsp5410_mod_abs_changed at %p for xinterface 0x%x, index %d\n", + __func__, &cvmx_sfp_avsp5410_mod_abs_changed, xiface, index); + cvmx_sfp_register_mod_abs_changed( + sfp_info, + &cvmx_sfp_avsp5410_mod_abs_changed, + NULL); + } + } + } while (of_offset > 0); + + if (err) { + debug("%s(): Error\n", __func__); + if (avsp5410) { + if (avsp5410->i2c_bus) + cvmx_fdt_free_i2c_bus(avsp5410->i2c_bus); + __cvmx_fdt_free(avsp5410, sizeof(*avsp5410)); + } + } + if (!err) + parsed = true; + + return err; +} + +/** + * Parse QSFP GPIOs for SFP + * + * @param[in] fdt_addr Pointer to flat device tree + * @param of_offset Offset of QSFP node + * @param[out] sfp_info Pointer to sfp info to fill in + * + * @return 0 for success + */ +static int cvmx_parse_qsfp(const void *fdt_addr, int of_offset, struct cvmx_fdt_sfp_info *sfp_info) +{ + sfp_info->select = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "select"); + sfp_info->mod_abs = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "mod_prs"); + sfp_info->reset = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "reset"); + sfp_info->interrupt = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "interrupt"); + sfp_info->lp_mode = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "lp_mode"); + return 0; +} + +/** + * Parse SFP GPIOs for SFP + * + * @param[in] fdt_addr Pointer to flat device tree + * @param of_offset Offset of SFP node + * @param[out] sfp_info Pointer to sfp info to fill in + * + * @return 0 for success + */ +static int cvmx_parse_sfp(const void *fdt_addr, int of_offset, struct cvmx_fdt_sfp_info *sfp_info) +{ + sfp_info->mod_abs = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "mod_abs"); + sfp_info->rx_los = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "rx_los"); + sfp_info->tx_disable = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "tx_disable"); + sfp_info->tx_error = cvmx_fdt_gpio_get_info_phandle(fdt_addr, of_offset, "tx_error"); + return 0; +} + +/** + * Parse SFP/QSFP EEPROM and diag + * + * @param[in] fdt_addr Pointer to flat device tree + * @param of_offset Offset of SFP node + * @param[out] sfp_info Pointer to sfp info to fill in + * + * @return 0 for success, -1 on error + */ +static int cvmx_parse_sfp_eeprom(const void *fdt_addr, int of_offset, + struct cvmx_fdt_sfp_info *sfp_info) +{ + int of_eeprom; + int of_diag; + + debug("%s(%p, %d, %s)\n", __func__, fdt_addr, of_offset, sfp_info->name); + of_eeprom = cvmx_fdt_lookup_phandle(fdt_addr, of_offset, "eeprom"); + if (of_eeprom < 0) { + debug("%s: Missing \"eeprom\" from device tree for %s\n", __func__, sfp_info->name); + return -1; + } + + sfp_info->i2c_bus = cvmx_fdt_get_i2c_bus(fdt_addr, fdt_parent_offset(fdt_addr, of_eeprom)); + sfp_info->i2c_eeprom_addr = cvmx_fdt_get_int(fdt_addr, of_eeprom, "reg", 0x50); + + debug("%s(%p, %d, %s, %d)\n", __func__, fdt_addr, of_offset, sfp_info->name, + sfp_info->i2c_eeprom_addr); + + if (!sfp_info->i2c_bus) { + debug("%s: Error: could not determine i2c bus for eeprom for %s\n", __func__, + sfp_info->name); + return -1; + } + of_diag = cvmx_fdt_lookup_phandle(fdt_addr, of_offset, "diag"); + if (of_diag >= 0) + sfp_info->i2c_diag_addr = cvmx_fdt_get_int(fdt_addr, of_diag, "reg", 0x51); + else + sfp_info->i2c_diag_addr = 0x51; + return 0; +} + +/** + * Parse SFP information from device tree + * + * @param[in] fdt_addr Address of flat device tree + * + * @return pointer to sfp info or NULL if error + */ +struct cvmx_fdt_sfp_info *cvmx_helper_fdt_parse_sfp_info(const void *fdt_addr, int of_offset) +{ + struct cvmx_fdt_sfp_info *sfp_info = NULL; + int err = -1; + bool is_qsfp; + + if (!fdt_node_check_compatible(fdt_addr, of_offset, "ethernet,sfp-slot")) { + is_qsfp = false; + } else if (!fdt_node_check_compatible(fdt_addr, of_offset, "ethernet,qsfp-slot")) { + is_qsfp = true; + } else { + debug("%s: Error: incompatible sfp/qsfp slot, compatible=%s\n", __func__, + (char *)fdt_getprop(fdt_addr, of_offset, "compatible", NULL)); + goto error_exit; + } + + debug("%s: %ssfp module found at offset %d\n", __func__, is_qsfp ? "q" : "", of_offset); + sfp_info = __cvmx_fdt_alloc(sizeof(*sfp_info)); + if (!sfp_info) { + debug("%s: Error: out of memory\n", __func__); + goto error_exit; + } + sfp_info->name = fdt_get_name(fdt_addr, of_offset, NULL); + sfp_info->of_offset = of_offset; + sfp_info->is_qsfp = is_qsfp; + sfp_info->last_mod_abs = -1; + sfp_info->last_rx_los = -1; + + if (is_qsfp) + err = cvmx_parse_qsfp(fdt_addr, of_offset, sfp_info); + else + err = cvmx_parse_sfp(fdt_addr, of_offset, sfp_info); + if (err) { + debug("%s: Error in %s parsing %ssfp GPIO info\n", __func__, sfp_info->name, + is_qsfp ? "q" : ""); + goto error_exit; + } + debug("%s: Parsing %ssfp module eeprom\n", __func__, is_qsfp ? "q" : ""); + err = cvmx_parse_sfp_eeprom(fdt_addr, of_offset, sfp_info); + if (err) { + debug("%s: Error parsing eeprom info for %s\n", __func__, sfp_info->name); + goto error_exit; + } + + /* Register default check for mod_abs changed */ + if (!err) + cvmx_sfp_register_check_mod_abs(sfp_info, cvmx_sfp_check_mod_abs, NULL); + +error_exit: + /* Note: we don't free any data structures on error since it gets + * rather complicated with i2c buses and whatnot. + */ + return err ? NULL : sfp_info; +} + +/** + * @INTERNAL + * Parse a slice of the Inphi/Cortina CS4343 in the device tree + * + * @param[in] fdt_addr Address of flat device tree + * @param of_offset fdt offset of slice + * @param phy_info phy_info data structure + * + * @return slice number if non-negative, otherwise error + */ +static int cvmx_fdt_parse_cs4343_slice(const void *fdt_addr, int of_offset, + struct cvmx_phy_info *phy_info) +{ + struct cvmx_cs4343_slice_info *slice; + int reg; + int reg_offset; + + reg = cvmx_fdt_get_int(fdt_addr, of_offset, "reg", -1); + reg_offset = cvmx_fdt_get_int(fdt_addr, of_offset, "slice_offset", -1); + + if (reg < 0 || reg >= 4) { + debug("%s(%p, %d, %p): Error: reg %d undefined or out of range\n", __func__, + fdt_addr, of_offset, phy_info, reg); + return -1; + } + if (reg_offset % 0x1000 || reg_offset > 0x3000 || reg_offset < 0) { + debug("%s(%p, %d, %p): Error: reg_offset 0x%x undefined or out of range\n", + __func__, fdt_addr, of_offset, phy_info, reg_offset); + return -1; + } + if (!phy_info->cs4343_info) { + debug("%s: Error: phy info cs4343 datastructure is NULL\n", __func__); + return -1; + } + debug("%s(%p, %d, %p): %s, reg: %d, slice offset: 0x%x\n", __func__, fdt_addr, of_offset, + phy_info, fdt_get_name(fdt_addr, of_offset, NULL), reg, reg_offset); + slice = &phy_info->cs4343_info->slice[reg]; + slice->name = fdt_get_name(fdt_addr, of_offset, NULL); + slice->mphy = phy_info->cs4343_info; + slice->phy_info = phy_info; + slice->of_offset = of_offset; + slice->slice_no = reg; + slice->reg_offset = reg_offset; + /* SR settings */ + slice->sr_stx_cmode_res = cvmx_fdt_get_int(fdt_addr, of_offset, "sr-stx-cmode-res", 3); + slice->sr_stx_drv_lower_cm = + cvmx_fdt_get_int(fdt_addr, of_offset, "sr-stx-drv-lower-cm", 8); + slice->sr_stx_level = cvmx_fdt_get_int(fdt_addr, of_offset, "sr-stx-level", 0x1c); + slice->sr_stx_pre_peak = cvmx_fdt_get_int(fdt_addr, of_offset, "sr-stx-pre-peak", 1); + slice->sr_stx_muxsubrate_sel = + cvmx_fdt_get_int(fdt_addr, of_offset, "sr-stx-muxsubrate-sel", 0); + slice->sr_stx_post_peak = cvmx_fdt_get_int(fdt_addr, of_offset, "sr-stx-post-peak", 8); + /* CX settings */ + slice->cx_stx_cmode_res = cvmx_fdt_get_int(fdt_addr, of_offset, "cx-stx-cmode-res", 3); + slice->cx_stx_drv_lower_cm = + cvmx_fdt_get_int(fdt_addr, of_offset, "cx-stx-drv-lower-cm", 8); + slice->cx_stx_level = cvmx_fdt_get_int(fdt_addr, of_offset, "cx-stx-level", 0x1c); + slice->cx_stx_pre_peak = cvmx_fdt_get_int(fdt_addr, of_offset, "cx-stx-pre-peak", 1); + slice->cx_stx_muxsubrate_sel = + cvmx_fdt_get_int(fdt_addr, of_offset, "cx-stx-muxsubrate-sel", 0); + slice->cx_stx_post_peak = cvmx_fdt_get_int(fdt_addr, of_offset, "cx-stx-post-peak", 0xC); + /* 1000Base-X settings */ + /* CX settings */ + slice->basex_stx_cmode_res = + cvmx_fdt_get_int(fdt_addr, of_offset, "basex-stx-cmode-res", 3); + slice->basex_stx_drv_lower_cm = + cvmx_fdt_get_int(fdt_addr, of_offset, "basex-stx-drv-lower-cm", 8); + slice->basex_stx_level = cvmx_fdt_get_int(fdt_addr, of_offset, + "basex-stx-level", 0x1c); + slice->basex_stx_pre_peak = cvmx_fdt_get_int(fdt_addr, of_offset, + "basex-stx-pre-peak", 1); + slice->basex_stx_muxsubrate_sel = + cvmx_fdt_get_int(fdt_addr, of_offset, + "basex-stx-muxsubrate-sel", 0); + slice->basex_stx_post_peak = + cvmx_fdt_get_int(fdt_addr, of_offset, "basex-stx-post-peak", 8); + /* Get the link LED gpio pin */ + slice->link_gpio = cvmx_fdt_get_int(fdt_addr, of_offset, + "link-led-gpio", -1); + slice->error_gpio = cvmx_fdt_get_int(fdt_addr, of_offset, + "error-led-gpio", -1); + slice->los_gpio = cvmx_fdt_get_int(fdt_addr, of_offset, + "los-input-gpio", -1); + slice->link_inverted = cvmx_fdt_get_bool(fdt_addr, of_offset, + "link-led-gpio-inverted"); + slice->error_inverted = cvmx_fdt_get_bool(fdt_addr, of_offset, + "error-led-gpio-inverted"); + slice->los_inverted = cvmx_fdt_get_bool(fdt_addr, of_offset, + "los-input-gpio-inverted"); + /* Convert GPIOs to be die based if they're not already */ + if (slice->link_gpio > 4 && slice->link_gpio <= 8) + slice->link_gpio -= 4; + if (slice->error_gpio > 4 && slice->error_gpio <= 8) + slice->error_gpio -= 4; + if (slice->los_gpio > 4 && slice->los_gpio <= 8) + slice->los_gpio -= 4; + + return reg; +} + +/** + * @INTERNAL + * Parses either a CS4343 phy or a slice of the phy from the device tree + * @param[in] fdt_addr Address of FDT + * @param of_offset offset of slice or phy in device tree + * @param phy_info phy_info data structure to fill in + * + * @return 0 for success, -1 on error + */ +int cvmx_fdt_parse_cs4343(const void *fdt_addr, int of_offset, struct cvmx_phy_info *phy_info) +{ + int of_slice = -1; + struct cvmx_cs4343_info *cs4343; + int err = -1; + int reg; + + debug("%s(%p, %d, %p): %s (%s)\n", __func__, + fdt_addr, of_offset, phy_info, + fdt_get_name(fdt_addr, of_offset, NULL), + (const char *)fdt_getprop(fdt_addr, of_offset, "compatible", NULL)); + + if (!phy_info->cs4343_info) + phy_info->cs4343_info = __cvmx_fdt_alloc(sizeof(struct cvmx_cs4343_info)); + if (!phy_info->cs4343_info) { + debug("%s: Error: out of memory!\n", __func__); + return -1; + } + cs4343 = phy_info->cs4343_info; + /* If we're passed to a slice then process only that slice */ + if (!fdt_node_check_compatible(fdt_addr, of_offset, "cortina,cs4343-slice")) { + err = 0; + of_slice = of_offset; + of_offset = fdt_parent_offset(fdt_addr, of_offset); + reg = cvmx_fdt_parse_cs4343_slice(fdt_addr, of_slice, phy_info); + if (reg >= 0) + phy_info->cs4343_slice_info = &cs4343->slice[reg]; + else + err = reg; + } else if (!fdt_node_check_compatible(fdt_addr, of_offset, + "cortina,cs4343")) { + /* Walk through and process all of the slices */ + of_slice = + fdt_node_offset_by_compatible(fdt_addr, of_offset, "cortina,cs4343-slice"); + while (of_slice > 0 && fdt_parent_offset(fdt_addr, of_slice) == + of_offset) { + debug("%s: Parsing slice %s\n", __func__, + fdt_get_name(fdt_addr, of_slice, NULL)); + err = cvmx_fdt_parse_cs4343_slice(fdt_addr, of_slice, + phy_info); + if (err < 0) + break; + of_slice = fdt_node_offset_by_compatible(fdt_addr, + of_slice, + "cortina,cs4343-slice"); + } + } else { + debug("%s: Error: unknown compatible string %s for %s\n", __func__, + (const char *)fdt_getprop(fdt_addr, of_offset, + "compatible", NULL), + fdt_get_name(fdt_addr, of_offset, NULL)); + } + + if (err >= 0) { + cs4343->name = fdt_get_name(fdt_addr, of_offset, NULL); + cs4343->phy_info = phy_info; + cs4343->of_offset = of_offset; + } + + return err < 0 ? -1 : 0; +}